ID LE402444; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402444; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636781_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; eeaa98a530f4cedafc03c6b7af5b443c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636781_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 65 A; 60 C; 44 G; 55 T; 0 other; aacaggcata aaaaccatag caaaattgat ggatggcttt gtggcccgtc agctacaagc 60 tcatattgag actaacaaac gtttccaccc ccatcagtca ggtttcaggc cttcacacag 120 tacggaatct gccctgatca acctctggga tgattgtctg gagacagccg accataaaga 180 aactacattt ctcattcttc tagacatgtc ggctgccttc gaca 224 // ID LE402445; SV 1; linear; mRNA; TSA; VRT; 303 BP. XX AC LE402445; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636786_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-303 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c0b456a38e7807ddc4f4e026a3c39be7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..303 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636786_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 303 BP; 80 A; 59 C; 71 G; 93 T; 0 other; gagggataaa ggggaacagt ttcagcagcg tggataaaac gtagttgact gtactgcaga 60 ccatggcgat ttgtttatct aatgtcattt gggcatcgaa aaatcccagg ctttttgctg 120 tatttgagag ctgtggtgta tgatccaaca gtctttggag tactgatggc atctcctcta 180 catgagcttg aaagcacaga aactctgttt ttgctccatt tagttttcaa tgggactctg 240 ccatccaata ttctatcata ctcaggcaat caaccagttt ggggtcaatc agattgtcca 300 agg 303 // ID LE402446; SV 1; linear; mRNA; TSA; VRT; 260 BP. XX AC LE402446; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636787_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-260 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 3c736b44ecf979a557630c695a445153. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..260 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636787_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 260 BP; 93 A; 40 C; 64 G; 63 T; 0 other; caaaagatta gtgtgggtta ttaagaatgc agtgatcata tagaatgtcc ctctggtcac 60 tcccctaaag aaagttcaca gagaaaaacc aggaaggccc agtcaaaaaa ctgtaaggac 120 tggtttgtgc aatatcatag aagccagaga ccacagaatt ctagtgatag aattgaacac 180 tgttgttaga attggaactt ggaagttatg ggtgacatta aagggaggca ttttgatgaa 240 tcctaggaca caggtagaag 260 // ID LE402447; SV 1; linear; mRNA; TSA; VRT; 391 BP. XX AC LE402447; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636795_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-391 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 09c7f3aec516b72179638fc03757fc95. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..391 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636795_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 391 BP; 97 A; 112 C; 123 G; 59 T; 0 other; ggagagacca ccgccggtgg gcaaggcttc agtaaggaca cgtggaagac cggatggacc 60 ttccacgaca ccggcaactg cagacgaaac gcagactgac cgacaagctt ggtgatccta 120 aaaggaccta cgaacttcgg tagtagtttc ggagtcccac gaagaaagcg gagatggcga 180 gtggaaagaa agacccggtc cccgactgcg aggacaggtg cctcccgtcg gtggaggtcc 240 gctgccttct tgtaggcctg cttcgccgca cccaactgaa cacagagctc cctatggatc 300 tggctcaggg agacagacaa atgctgagcc gccggcacct gtgacagcac gccatgcacc 360 ggtagtgccg aagggtggaa cccctgtgag g 391 // ID LE402448; SV 1; linear; mRNA; TSA; VRT; 208 BP. XX AC LE402448; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636796_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-208 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; dcebaeb62b6650bfae14eac5a3c67f6d. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..208 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636796_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 208 BP; 47 A; 55 C; 56 G; 50 T; 0 other; gaccagttcc aggttgctaa gctggatctg gcttgaagtc tggttgtcca ggagaaacaa 60 tagctgtagc agctcttctc tcatccttga cctgcagtgg aggagagcac aatcccagca 120 cctactgctg aggcactaac tacagtgtgg ctgtgaagac ctctgtcctg ctccagagcc 180 agaagcctat gtggccatgc tactgggt 208 // ID LE402449; SV 1; linear; mRNA; TSA; VRT; 207 BP. XX AC LE402449; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636798_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-207 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; a15a1ccce0e733c36f705590888330c8. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..207 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636798_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 207 BP; 59 A; 51 C; 46 G; 51 T; 0 other; gattcagaag tgaaggggta atcctctgga atacagatgg gcatcaccga ggatttacta 60 tagttcaccc tgaagccgga atgtttgcca tatttaccta tgacctccag aacccttccc 120 agtgaccgtg tcgggtccga caaataaagg agcacatcgt ctgcaaataa cgaaatcttg 180 tgttgtttta ccccgacctg aaagcca 207 // ID LE402450; SV 1; linear; mRNA; TSA; VRT; 263 BP. XX AC LE402450; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636808_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-263 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 30025b511f034bfd1caea7db6d7823a9. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..263 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636808_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 263 BP; 50 A; 74 C; 69 G; 70 T; 0 other; tgccctgaag ttctcagctg tcctgtcact attcacacta cttctgtctc ggcctccatt 60 ccgctgatct ccaccagagg gcagcaaacc atcactcctg cttcagatgc tgagttgtga 120 actggctata agttggacag gggaagttta aggtggttta gaagaggttt gtggactggg 180 ccaaatcccc tcctttcccc ccctcggtgc accctgcaga cacaggggtg gatggagcgt 240 ccctgggtca ggttatgtcc ttg 263 // ID LE402451; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402451; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636823_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b29adfc7bf579f09920dfa687becdabc. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636823_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 82 A; 34 C; 33 G; 75 T; 0 other; taactctcta aaaatatata aaaacaaagt ccttaagatg ggttgtttga tgttctcaag 60 ttagtataaa attgagaatc ttaggaacag atgatctaat tcaaaattct atgatcttat 120 gccctatcat acttaagaac actgaattat tggtaaaata ttctaatact atggacaaac 180 accctatagt ttacatgcgt atttgactaa ctagtccatg gtgg 224 // ID LE402452; SV 1; linear; mRNA; TSA; VRT; 292 BP. XX AC LE402452; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636831_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-292 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b9985413ec9e99c7157a85fe70bdfff1. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..292 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636831_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 292 BP; 117 A; 34 C; 76 G; 65 T; 0 other; aaaatgtgga ggccagaaag ccaaatttta aaagggttcc aggaaggagc tggtcatgtt 60 gtcaaatgtt gctgataaag gaagaagagg attcaaaact gaccatggga tttgataaca 120 tggaggtcac aaatgatctt gaaaagaagt tttagtggag tgggagatga aagcccaatt 180 agagtgattt acaaaagaaa aagagatgaa ctagagacaa taagcatacc caacttttca 240 aacagtttgg taataaagga aacaaatggc atggtagcta ggagatgtga aa 292 // ID LE402453; SV 1; linear; mRNA; TSA; VRT; 254 BP. XX AC LE402453; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636849_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-254 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 305bc309d537393b38e6fb247be74c53. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..254 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636849_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 254 BP; 75 A; 47 C; 46 G; 86 T; 0 other; attttatttt atagtttgta gcactgccaa aacttttctt ttgaactgta caacactggc 60 agactgtatt gtttacctac tttacaggaa aggaaactcc tgtaaagtaa gtaaatggtt 120 aagtgattat tctcggtttc acaaaaagag taagtgatag tgctgaggct caaaactgct 180 gcttccaaac atcctcttac cagtgtgaat atgcaaacct gtctcatctc caggcagaag 240 attttctgtt tttg 254 // ID LE402454; SV 1; linear; mRNA; TSA; VRT; 316 BP. XX AC LE402454; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636857_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-316 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b8050a395c6203b39c6987576b8756af. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..316 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636857_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 316 BP; 78 A; 62 C; 87 G; 89 T; 0 other; gagcacggtt ctcagtatgc aggtcggcag agggtgggtt tcagactgtg aatttcagat 60 acagggagta aacccggagc aggctccaga tacgtttttt tgattttcag aaggctgtgg 120 attcaagaag caaagtgctt ctgctctggc ggagcagagt cgaaagagtg gacatgttca 180 gcagctatgt aaattggttg tcgcgggtaa atcgattttt ggcagacgac aacactgttc 240 agttataata atcccctgtg cttgtgcgac tctccctctg cctcacagat gtgtccatta 300 ttgatatttg aaggac 316 // ID LE402455; SV 1; linear; mRNA; TSA; VRT; 295 BP. XX AC LE402455; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636860_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-295 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 7de52c9f1fae4d988609b28705070166. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..295 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636860_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 295 BP; 62 A; 81 C; 89 G; 63 T; 0 other; ctctatgtcc attgctcccc tcctcgctcc ttgctcctcc atctttcttg ctgcttcatg 60 tagcagggct atgaacttca acttaggggc cttcaagaat ggtcctcagg ctgaagggag 120 agctaggtga cgtgcaggag tggaccctct gctgcaccag gggtgtgccg gaccatctgc 180 aaggggactc catggccatc tgcagggaga acccaggagt gtgcaggacc atctccagga 240 agagcccagg ggtgtgcagg accatctgca ggctgcacta gagaagaaga gatgg 295 // ID LE402456; SV 1; linear; mRNA; TSA; VRT; 409 BP. XX AC LE402456; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636863_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-409 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 5ae3e4ef772028af1a939715b5b3adbc. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..409 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636863_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 409 BP; 143 A; 71 C; 99 G; 96 T; 0 other; gtatatgtgt tcaggagaac ttgtgtggtg tggaaaaagc aagagatggg gtaatggcag 60 taaagtccca attgcaaccc taaagcacga cctgctatcc tcacactacc aggtgctggt 120 gaagaacctt gaggagcgaa aaatatttaa attcagacgt aggcttccag atattcaacc 180 tgtagccaaa agagattaga atggactagg tttacactcc tctctggatt aactaaaaca 240 caggacacaa tacatgaggc aaatgttttc aagaaattgg acattagaaa ttaaggatat 300 tgagcccaga agattttaaa ccaaaggaga tgaaatttgg aacgatccat ctgagaccct 360 gaggagagtt gccagagcat tgtgtagtga aaggaaatcc atgaggtgc 409 // ID LE402457; SV 1; linear; mRNA; TSA; VRT; 222 BP. XX AC LE402457; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636883_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-222 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 6015d06f8b131303a3442ad1c43856ea. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..222 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636883_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 222 BP; 46 A; 35 C; 85 G; 56 T; 0 other; ctcggatgct gaaggccagg taggttgggc cagttttcta tggaggacgc agagggatag 60 ggggagagtt gtgagtttga cgaatttgag cactgggagc cagtggagag atttaaggat 120 ggggtttatg tgtccccttc tcctggctct ggtggcgagc ctggatgcag tgttgtggag 180 tagctgaaga caggacatgg accatttagg ctggtcagtg ag 222 // ID LE402458; SV 1; linear; mRNA; TSA; VRT; 227 BP. XX AC LE402458; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636884_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-227 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; eba073e121da46047529e20478fd3068. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..227 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636884_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 227 BP; 54 A; 54 C; 81 G; 38 T; 0 other; ggatgagtta caaccactgc caccctgtgg aggaagctga aaggctgaaa gcaaagctca 60 tgggagggac catgcgccag gcaaggtgag gcctggggag gacttctccg ctcatgggtg 120 ggagggcttg gccccaggct actcttgacc ccgaccctgg gtcacagtcg tggtgtgtga 180 cacatggaaa gcaccatggg gaagaagcta tgggtgacag tggcaga 227 // ID LE402459; SV 1; linear; mRNA; TSA; VRT; 203 BP. XX AC LE402459; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636890_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-203 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ebf694cb79121f3c50c15d1fa8059ab1. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..203 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636890_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 203 BP; 45 A; 44 C; 64 G; 50 T; 0 other; cacggtgtca gccacgcacg cgccctttga attgttcttt tacagattat tggaagtctt 60 cagtcctacc accagggggc agcttataac atgaggctag aacgggagag taccagggca 120 tgctgcaggt caggttgcat ctgtagagct gtgtgtgggt cctagtgctg taatggcaga 180 ggtgctgcag accaggattg agg 203 // ID LE402460; SV 1; linear; mRNA; TSA; VRT; 233 BP. XX AC LE402460; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636892_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-233 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c5b93c41f7531b64fd6399ea535c7c61. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..233 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636892_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 233 BP; 71 A; 62 C; 44 G; 56 T; 0 other; tgaaggcaca gatcaaggac caagtgcctg ccagctaaac tgctttgaca tcaggtttca 60 gtttctgtat cacataactg gcagggtgca atggactcta attcacgaat cttgtggaac 120 gcaatacaaa cttggtcact attgctgaaa ttcagccata atctatgcca caccagggaa 180 gcgacatccc cacctaccac acacaccttt tccattttaa accagaactg gag 233 // ID LE402461; SV 1; linear; mRNA; TSA; VRT; 234 BP. XX AC LE402461; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636904_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-234 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b0ea5b0bcccbf56d6fded8f3f4284d21. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..234 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636904_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 234 BP; 77 A; 62 C; 48 G; 47 T; 0 other; atagcttggt atattaagga gatcatcttc ctcaaaccca ccaggcctgt gagcaacgat 60 gtaaaagggg actccccggg tctataagga aaatttggcc aggtagtcct gacaatattg 120 gccagtcttg caaaacacaa aaactgtcca ggacccaaag acaaacgagt cctaagttcc 180 gaaaaggaat ccaatctgtc caccccgtac aagtctccca agcatgtgca acca 234 // ID LE402462; SV 1; linear; mRNA; TSA; VRT; 267 BP. XX AC LE402462; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636908_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-267 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 511dcd5fd137f23a7b2070ee514cb7f6. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..267 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636908_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 267 BP; 58 A; 65 C; 69 G; 75 T; 0 other; ggttgtgatc cggacttcaa gcgtcaagtt gagtctctgg gggtgatata ggaatccaat 60 ttatcatttg cccctagatt aaacctgacc ggggtgtgtt tcggtacccc gcggctgtag 120 gccaatatac aaactttgct cttagagatt tcacatctgt tgcccagggc cctgtgctgt 180 ccaggttgga ttactgaaat tccctctatc ttggactcat gccccagatg tgcgggggat 240 tgcagctggt ccagaatgcc acaaaac 267 // ID LE402463; SV 1; linear; mRNA; TSA; VRT; 316 BP. XX AC LE402463; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636923_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-316 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; fb22baa5f57287c44808c36e7d54217c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..316 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636923_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 316 BP; 103 A; 46 C; 76 G; 91 T; 0 other; taactcccct ttgcttttga tagggaatag gggagggagt tacaatccta ttatgttgaa 60 aagtcagaat cagtatacaa tggttaggct ctgtttgata agcataagac cattaaaaac 120 gggccagaat gtctgcatga tagggcagag ctgtgtacat tgggttaatg agacaggttg 180 aataaaatta ctattgtttc acaggaagcc tttgaaatac agtgttgaga aaatgacctc 240 acttgtaaag ggtcaaatgt taaccttgca agcagggaca aatggtttgt gttactcaga 300 atacatttgc taagga 316 // ID LE402464; SV 1; linear; mRNA; TSA; VRT; 378 BP. XX AC LE402464; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636927_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-378 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2cdcc580800278295b3f2e630562016f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..378 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636927_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 378 BP; 97 A; 93 C; 101 G; 87 T; 0 other; gaggggcaag gttacccacg ggggatccag attgctcttc tttcccgact tcagcccggc 60 cgtccaaaga gctaggaaat cttttgacac agtgaggaaa gctatgcgtc agaaaaacat 120 ccaatatgca atgctattcc cggcgcgcct gaaaatcatc aacggccaaa gatccgaatt 180 tttcaatgac cctgataagg cattggaata cgtcgaggga atgaaggctc acccggatcg 240 ttcgccatcg ggtagaagat ccccaattta ggtccgtctc ttcagggaac cagacccggc 300 catggcgtgg gctgtcgtta tgggaactta atcagaactg tttccatcgg gggggagatc 360 tctggtgtgt aatgttac 378 // ID LE402465; SV 1; linear; mRNA; TSA; VRT; 228 BP. XX AC LE402465; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636946_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-228 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 7fda57b30c2b03946523490806b60160. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..228 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636946_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 228 BP; 68 A; 52 C; 22 G; 86 T; 0 other; gagtgaccaa cctgactttc aaaactgact tcgtgctcta catccaggaa ccaaagtaga 60 tgctgcttat tataatttgc tctcctactt tgttactaac tcaatatatt agaaaacaag 120 ctcttctaat tctaccttag aaattttttt attcaatctc tccctttctt tccattctta 180 ttaccaaatc ttaagttcag tttctcattg ccataaaaaa ttattcag 228 // ID LE402466; SV 1; linear; mRNA; TSA; VRT; 344 BP. XX AC LE402466; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636947_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-344 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ff926bba0f67acfd32984ff04ea41aac. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..344 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636947_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 344 BP; 103 A; 62 C; 55 G; 124 T; 0 other; tccaccgtgc ccagcctcga gttttaatac atctgtcatt cagcttttcc taatggtaac 60 atcttatgta accatagtac aattgtcaaa ggaaagcaaa taattccccc atcttttctt 120 atcatttatg aacttgacac ttttgaagag tactggtcag ttactttgta gcatggccct 180 caatttggat ttgtcaggtg ttttttcatg gttagattga gattataggt ttttaggaaa 240 gaagaccata aaagtatata tgccaatttc ataaaatata acatcattta aaggcaacat 300 tatcagtatg acttatcatt gttgatgtca accttgttca cttg 344 // ID LE402467; SV 1; linear; mRNA; TSA; VRT; 228 BP. XX AC LE402467; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636948_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-228 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 594675f96664198f3288da8ad18139d5. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..228 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636948_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 228 BP; 89 A; 39 C; 46 G; 54 T; 0 other; ggcaaagaag atccttaaaa cttaaaaatt aatatctgaa aaataagata tgcacagggg 60 ctctgaaaaa taacagcatg ttctttagga tgtagaaggc taaaaacaat tacaggacta 120 tattcatgcc caagaatgac ctgagaagtc ccaacctctc atcttggctg acgttgttgc 180 ctgcacaagt agaaagtaaa ggctaaagaa cagttataaa tggctgga 228 // ID LE402468; SV 1; linear; mRNA; TSA; VRT; 291 BP. XX AC LE402468; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636962_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-291 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ab0bf498f5975644f96b1f7c80a77541. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..291 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636962_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 291 BP; 66 A; 76 C; 102 G; 47 T; 0 other; ggcgggccgt ccccggggca cacctgcaca caagagcacg tgcctcagag gaagaagggt 60 gcgatggatg accacagagg gtgctggggc cccagggaac ctctggacac tacctggagg 120 gtgggggcta tagcctattg agcctgcagg gagctggggg caccaggccc ctctggacac 180 tacgtctaag gtgggggcta tagcccattg agttcagagt gcggggcacc aggcccctct 240 ggacagcacc ataataaagg agatttgtat cagtgaacag gcacagtgtt g 291 // ID LE402469; SV 1; linear; mRNA; TSA; VRT; 204 BP. XX AC LE402469; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636991_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-204 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 5daf7bc515bb83ca9e0cb7b222f9fb3e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..204 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636991_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 204 BP; 50 A; 47 C; 53 G; 54 T; 0 other; gtggtcaatt accccagagg atcacaatgc acactttgat aagtacatgt ctctgaaagg 60 ctacggatgc tgccttaggt ctagcagcat gggtgcagat attctttgca agaggcacct 120 cttggctcaa agcacttgga gatgcagggt acaatgcacc tggagatgca caacttggtc 180 tcctgtaggt ctgctgtgtt tcca 204 // ID LE402470; SV 1; linear; mRNA; TSA; VRT; 211 BP. XX AC LE402470; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4636994_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-211 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 40d5b037ec09708b5a4f4d4248ae1315. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..211 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4636994_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 211 BP; 88 A; 34 C; 24 G; 65 T; 0 other; gttttttttc acacattaac aataaccaac aacaacaaaa aagcatagag aattcagaaa 60 agtacatcta agggcataaa actccaaaat ttttggcatg gattctcata tgtcctgtct 120 acaacttcta ttttgtagta tatatggtta agtacaagat aacagaaaaa agatatattc 180 atctttcata tttaaaaact cacaaaaatt g 211 // ID LE402471; SV 1; linear; mRNA; TSA; VRT; 443 BP. XX AC LE402471; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637000_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-443 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c1eb0f0f380adfa027872e5d725fc5b5. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..443 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637000_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 443 BP; 155 A; 100 C; 104 G; 84 T; 0 other; aagacttaag taaacaagaa gacagataca aaaagatttc tgaaaagaag gcagtcatgg 60 caagcttcga ctctgcataa gactgacaat tccctggaac ttcactttga ggacctattc 120 ctgtccccca gggatcaaac ggtaaggaaa ctgaggctca ggaagaatta atggacccat 180 tagctgctga tccgagggag gcggatcata atgaagaaca ggaggaggag gaggaacagg 240 agaggtcaca tcaactctca tcaagggaat actccccaga acctgaggat tactcagcca 300 aagagcctga tacaccggaa acaacccagg tcttcctccc caccagatga gaaagctgcc 360 ttctattcta ggtgaaattg ctaaatactt agagattgag atggacaaac ccaaggaaag 420 gaaaactcct ccatgcactt gag 443 // ID LE402472; SV 1; linear; mRNA; TSA; VRT; 210 BP. XX AC LE402472; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637001_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-210 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; e67e2471c83eeb4900fc16252924b983. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..210 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637001_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 210 BP; 66 A; 33 C; 60 G; 51 T; 0 other; gtggggtgtg tgcaattgaa ataggtgatt tttaactttg gcagatgtca ccagaacttt 60 tcacctcgag agtaagtggc attcctgtct agtgggtatc gacagtattg taaaattttc 120 tctgaaaaga gagaacaatg ctatcctcgc cacagaaaca aacacatcta tagggaggaa 180 agagatggag cggggaagag cgagggagag 210 // ID LE402473; SV 1; linear; mRNA; TSA; VRT; 352 BP. XX AC LE402473; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637003_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-352 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 3216f2d1d27b0fdfa38c68497b13e9bd. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..352 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637003_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 352 BP; 83 A; 76 C; 61 G; 132 T; 0 other; tattccccct ttcataatat atttgccttg tttttagtag atcagcttcg accttatcag 60 tgagtttgat atttaatgaa cctctggctt gagttagctt agctaagatc ttagccgagc 120 ctgatttttt tatgggtttc ttccagagcc ctgatttcct ggtgcagtct actaatttcc 180 aatttttttg ccttatttag ttgggatgat agttgaatga tcctgcccct caccacagct 240 ttaagtgtat cccataagag aggttgagga gtaacatcac tctcattatt cttaaagaaa 300 tcttctatct cctctcctat ggtttcccta atgaccagat cgtctagaac ag 352 // ID LE402474; SV 1; linear; mRNA; TSA; VRT; 329 BP. XX AC LE402474; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637005_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-329 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 5da6a43a7eb5c0fcd8ad767c1ca82d77. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..329 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637005_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 329 BP; 91 A; 70 C; 60 G; 108 T; 0 other; gtgtctacat cagacagttc ttgtgagaat acagtaacac agctaaagct cttaacctaa 60 cgcccagcaa gcagtaagtg cttaataaat actggctatt attattatgc ttttgctacg 120 gtttgaatgt gtccccaaag ttcatgtgtt aaaaacttaa cctccaatgc aacagcgttg 180 agagacatga cccttaagag atgattaggt catgaggttt ctaccttcac gaatagatta 240 atgtaattat taaaggagtg gatttgttat aacattgagc tcagccctct cttgctctct 300 ttcttgctct ctctcttggt ctctctcgc 329 // ID LE402475; SV 1; linear; mRNA; TSA; VRT; 326 BP. XX AC LE402475; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637018_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-326 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 41a576b87c3943e6d78aa2a479c862a8. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..326 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637018_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 326 BP; 123 A; 64 C; 67 G; 72 T; 0 other; aaagcagagc cttggtacac agagtcatga tgggcatcac agatgtggcg agaagagaca 60 ggaatggagg cagaagaagc cgccggtgcc acaaccaccc caaaaaatct gcatatacct 120 taaaaaaatg gataagtacc cagagatcct tttgtgatgg cttaaaggaa actaaaatgt 180 ccgctcggtc tgaacctttt atagacttaa cattaatggg ttgacttcca accctaggtg 240 tggaaaataa aaaaataaac atcccagatc atgagaaata ttagcagtaa tagagactag 300 aaaattaacc tacaactctc tttaat 326 // ID LE402476; SV 1; linear; mRNA; TSA; VRT; 322 BP. XX AC LE402476; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637021_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-322 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; cdec69c957a13d5a7de474d8f4415d52. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..322 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637021_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 322 BP; 77 A; 54 C; 47 G; 144 T; 0 other; tctgtttgtt cttactggta tatgttttac tattttcctt tccttaattc atggcaggtt 60 acttgaacaa tttttagaat tttgttttga tatatctata gtggtttcta gtgagtccct 120 ttgcatgact tttttagtgg ttgctttagg tgctggatta tgtgtctaca taacttatca 180 aagcctacct ctattgtcat ttcgctagtt ctagtgaagt acggaaactt tacctccctt 240 tatcctttcc atttataata tgtttgtctt taaatttacc tatatacatt aagaaccaga 300 ccaaacagtt ttataatttt tg 322 // ID LE402477; SV 1; linear; mRNA; TSA; VRT; 348 BP. XX AC LE402477; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637032_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-348 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2db00cb2d5640bc5a49ee703bd10aa1e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..348 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637032_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 348 BP; 119 A; 69 C; 68 G; 92 T; 0 other; tttaatcttg ctagacatga agaaagaata tgcattacat ttttaaaatt aggattttaa 60 aatcaagcca aaaatcacct attgcagagt ccccaatgaa agaaattaca gattgaaaga 120 atatctccgc ctaggtttgt ggaaatattc tcacctggaa cccagagcag cagaaaccca 180 atgagttgtg atggcgacat cttcctgcct tgacttgtca gttttgctca tgccacatcc 240 cagagaaaga acctctttta agataccgag aggcagggcc tcttcacata taggaggaac 300 gatacatgca aattatgggg atgtcctgct ggtttaaata aacagaaa 348 // ID LE402478; SV 1; linear; mRNA; TSA; VRT; 288 BP. XX AC LE402478; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637046_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-288 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; e94dfc7e3df0fe1bb7e667e1a7e76e86. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..288 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637046_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 288 BP; 90 A; 44 C; 64 G; 90 T; 0 other; taaatataat ttatcttagc cagcttttcg ataggtggag tgattagaca agttgggatg 60 atttttctaa gacgagctca ttattctctg gtgaagtcta catcaatgat catgggatgg 120 cgggactact catatgttag gtttgacaat ttttgagtgt gaaatgcagg aaactttgtt 180 taaaacattg gctagaagac ctctgcctct ccctttgcca gatgcaacaa gagtagtatt 240 gggttagaaa gcaatcaagc aatcaggtta acagcataaa ttaaatag 288 // ID LE402479; SV 1; linear; mRNA; TSA; VRT; 336 BP. XX AC LE402479; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637049_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-336 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; d6b15306f9632384314b6a66f9da1054. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..336 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637049_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 336 BP; 85 A; 74 C; 75 G; 102 T; 0 other; agttaacttt taaggttgct ggaatgctgg tcagctccct gcgaaggaca caatgattta 60 atctaagcca ttgtaggctc caccatgaat ccagatgtgt tgctgcatct aacgttactg 120 gaggacatca ttctgaatgc agcaagctgt cttaatggca gatctctcta caggggaaca 180 atcccgattt ctggtgtata tccgtctaag gcagaacatc cttttcttcc acaggcaaat 240 aagcctagtc cttgagtacg ttatagctgt cttcacggca gaagggattt ctttatgcag 300 gatttctggt gtacgtcata tctgtcttca atgcag 336 // ID LE402480; SV 1; linear; mRNA; TSA; VRT; 207 BP. XX AC LE402480; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637052_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-207 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 68e35798d73fa36da0f049d9b45f1a80. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..207 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637052_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 207 BP; 49 A; 74 C; 46 G; 38 T; 0 other; taaggacccc tcgacatcgt ccaagccgta cacatcaaca aagcgcaaag ataaagacct 60 ctcaaggtgc ttctagcctc ctcagtgctg ctggccccgg gtacccccca cacgacggga 120 atggttccta cccagcctgc ggtgttggta gcattctccc agccggagtt gcctccccca 180 cccaaaccat tggaagtccc aatgacg 207 // ID LE402481; SV 1; linear; mRNA; TSA; VRT; 226 BP. XX AC LE402481; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637056_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-226 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c1208fc7e2ffc7bb410663894f2e4c3c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..226 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637056_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 226 BP; 78 A; 52 C; 36 G; 60 T; 0 other; aaaaatggca ccgagctatt catgggggat ccaacctcac aattcaaaca ccttccaata 60 ggccctgcct ccaacataag ggtcacattt caacacgaaa cttgacagga ccaaaggaac 120 tatatccaaa ccatagcagg cattatttcc aaaatgatgc cactcctata tgggagaaag 180 gtgaagtgat tttatatttt tcactgatta ctacttttat ttaata 226 // ID LE402482; SV 1; linear; mRNA; TSA; VRT; 206 BP. XX AC LE402482; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637058_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-206 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 4566587a039d6297173555f8d3d6d186. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..206 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637058_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 206 BP; 69 A; 39 C; 50 G; 48 T; 0 other; actcaactca actcaactca tggaaaggta gagtgcatgc catgtgaaag gaagcattgg 60 tctaaataaa tgttacgcat aatatggcca gctggtcaat aattgtctgc cacagatgat 120 gatgtcacct caaggctgcc agcaatatga tacccgggag gagacagcaa gacggaaaat 180 tgttttgtgc agatgtatta cagaag 206 // ID LE402483; SV 1; linear; mRNA; TSA; VRT; 246 BP. XX AC LE402483; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637064_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-246 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 32105ef767772fb66e44aaf8c2f8ce81. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..246 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637064_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 246 BP; 62 A; 64 C; 33 G; 87 T; 0 other; gctccagcca ggcaaacttc attctcagta tttcattact gtctttatag ccacatgttg 60 cttctataat aaatgtatga actttgatat ctggagtaat actctgacag ctgcccaatt 120 tatattgcca acagatcagt cctctgaact caatatttct gtgtccagtt gcctatccga 180 cacttcataa tttttccctg ttccccaaaa cctgctcctc ctctaatctt agctatgtca 240 gttgat 246 // ID LE402484; SV 1; linear; mRNA; TSA; VRT; 213 BP. XX AC LE402484; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637073_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-213 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ca99a98161288b050df84345f84921c0. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..213 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637073_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 213 BP; 60 A; 51 C; 41 G; 61 T; 0 other; agatatcatg gtggtattaa aacacatcta caaattctct aacacagttc ccatgaagac 60 atggagtgga catcccttcc cttcacaatt tgccctgacc ttttgactgc ctgggtgaac 120 agaatgtgtc aaagtgacac tgcatggctt ttgagtctag gatctaaaag cccacccagc 180 ttatgcttat ttctcgtgga aacacacttt gag 213 // ID LE402485; SV 1; linear; mRNA; TSA; VRT; 253 BP. XX AC LE402485; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637076_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-253 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; d79564c59016524c1c76e77de579fa83. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..253 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637076_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 253 BP; 54 A; 56 C; 76 G; 67 T; 0 other; tgtcgccccc acccccaggc tggaagcatc gtcgccccag ctctgctcag gacttgttct 60 gttaaatgga ctttcactag ctgtgtacac taagggatgt tctgggcagc aactttaaaa 120 gctatgtgcc agcaggttgt gggagacccc ggtgccagtg gcattgttaa tgtgtgtttt 180 gggaagtagt ttcttgggat ttacaggttg gaagccactt gggcaacaga acattggggt 240 ggacagagtg cag 253 // ID LE402486; SV 1; linear; mRNA; TSA; VRT; 216 BP. XX AC LE402486; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637078_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-216 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b004e230544295d29215a5aa7377b40f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..216 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637078_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 216 BP; 60 A; 47 C; 48 G; 61 T; 0 other; ggatgtcttt agacccgtag atcacttaat aggtaaaacg aacaacttta tatgggcaat 60 gtatttcctt gtatcttgag gaatctgaga cacaggtgtc tgtgttaaat cacacctgga 120 ctatgctaac gtcctctata tcggtttgac ggtcaaacaa tttgacctgc tccagagcat 180 acaaaaccag gctggtagct ggtctcagac cctggg 216 // ID LE402487; SV 1; linear; mRNA; TSA; VRT; 449 BP. XX AC LE402487; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637079_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-449 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 8e30a7a10fc2a6c890a20a3264740314. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..449 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637079_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 449 BP; 105 A; 99 C; 123 G; 122 T; 0 other; cgaaggccac gctccagtca agcaggacgt gaactatgtc tgcttcattt cccatctctt 60 aatatatcgt catatacggt agcagcaact ctgttaccct ccccagcctg aatccggatt 120 gcaaatgggt ccagaatatc gtaggtgttg acgtgtgcct gcatgtggga agtgacttct 180 cactccaaca ccttagcttg aaaggttaga ttggaaatgg gggcaaggtt tgatagtatc 240 ttgggaccaa agagggcttc tttaagaggg atatcacagc tgcctccttg aagggatgtc 300 gggggtgggg agtagaggga cgagtcatga ccctccctta gtgatgcatt tagaaccgga 360 cactggggct ctaaaagagc tactctgagt ttttactgca tgtgtgacat tgctcgcagt 420 gattgcactg ttgtgtccat ctgctggtg 449 // ID LE402488; SV 1; linear; mRNA; TSA; VRT; 204 BP. XX AC LE402488; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637090_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-204 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; baa66b4a64a07d88e83e3aa9a05a6a65. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..204 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637090_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 204 BP; 66 A; 55 C; 47 G; 36 T; 0 other; caaagaagac attttcaccc tgaaaaaaag acaaaatatg atcaatcaga gacagctaca 60 gtcatgtgca agaacctgtg gggacacagt gactacagtc agcggtgtgg gccttagtgt 120 aggaagtgaa aatgagcccc cacccaagca gcattccccc gcacatccac caccccgtac 180 cagggaatcc atggggtgct tcta 204 // ID LE402489; SV 1; linear; mRNA; TSA; VRT; 227 BP. XX AC LE402489; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637097_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-227 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 4629a699f9406f7a8d67222d2cfc31a1. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..227 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637097_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 227 BP; 96 A; 26 C; 41 G; 64 T; 0 other; aaactgtcaa ggtcatcaaa aacatggaaa atctgagaaa ctcatggcaa cagaatgtaa 60 tgtggtattc tggatgggat cctggaacaa aaaaaataat attaggtaaa aaacgtaaac 120 atttgagtaa agtatggact tcagttaata ataatatatc aatataggtt tactaattgt 180 aacaaatgtg ccattttaac ataagatatt aacagtgtga gatactg 227 // ID LE402490; SV 1; linear; mRNA; TSA; VRT; 300 BP. XX AC LE402490; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637098_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-300 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c95b7c7a3596dc0cb57f93239a67a076. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..300 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637098_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 300 BP; 91 A; 45 C; 68 G; 96 T; 0 other; gagtaccatt gagtttggta acagggactg ttacagtatc ggcgaatggg tcacaatttt 60 atgtattttt tgtagggcac aattttctgc tgccataaaa atgctggaaa aaatcttagc 120 caaaatgttg ccctcagtaa taattggggt aaaaacgctg taataatgcg taattgtatt 180 tatgggtttt attaattgta agagctttaa attgtccgat ttccgcagac agattctgct 240 cgtggtgagc gagcagcgca cagaatgtat aatacataga aatgtatttt cggaagcact 300 // ID LE402491; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402491; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637111_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 61cdfab3122a181b7dc26544e0c54df3. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637111_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 74 A; 42 C; 29 G; 79 T; 0 other; aaagtgattt attttatact gcaaattatt ctgtcatgtc cacttggcat atatgtgttc 60 ctttctgatt ttctcaacaa ctctctctta gaaggaaagc attttctttt tagaaaccat 120 tttgaataca taatcacata catgtaacag aacatttaaa aagaaactgt ttcagccaaa 180 actatgctac ctactctcag tgaagagagt tgcagacaac tttt 224 // ID LE402492; SV 1; linear; mRNA; TSA; VRT; 365 BP. XX AC LE402492; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637116_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-365 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 0acaac2063ed216c7ec4fc5d3ca42900. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..365 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637116_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 365 BP; 114 A; 81 C; 96 G; 74 T; 0 other; caatcgggca ctaactccct cccgtgaaag tgagaaggat tccagaacga atcaggaatc 60 ctcggatgag gatgtaaggg atcaaacaaa gtctccagct gttagccctt cagaggagaa 120 tacagcctac aatgagttcc tgtctagaat gacaaccaat cttgaggtgg aagtcaggag 180 aggcgaggtg aaggtgcata aatgtaagcc gttactagat taagagcccc aagcctttgg 240 aaagacttgt cctccctatc gacaaagccg tctgggagag cgccagggaa atatggtcca 300 aacctacctc tgctaaccct atcaataagc agattgggaa aaggtacaga gttctcagag 360 gtggg 365 // ID LE402493; SV 1; linear; mRNA; TSA; VRT; 254 BP. XX AC LE402493; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637118_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-254 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 9647f66f185799e05a4846c416c0f967. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..254 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637118_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 254 BP; 76 A; 51 C; 62 G; 65 T; 0 other; ttttaaataa tcgaagtcac cctggtattg tttgcgttgt gtgattgcca tgtttagcag 60 ctctggggac acggtcagtc aaacggaaat taaaatgcga gaataacatg ttgactgtca 120 ataagagatc ggccttatcg ctgtttccca agctacctct tggcgtccgg ccagaatgaa 180 cggggaaaac acagtgacct catcttgcag taatcagaga tagcagagta gtgatctcct 240 aagggcaaaa aaag 254 // ID LE402494; SV 1; linear; mRNA; TSA; VRT; 240 BP. XX AC LE402494; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637128_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-240 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 95444317118668d03733aee1c351a4e7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..240 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637128_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 240 BP; 76 A; 27 C; 51 G; 86 T; 0 other; attatggatg catgaagtaa gggagtgaat cagtttcttg tttatatttt tttcaccttt 60 taaacaaaaa attctttaaa atattttaat gcattctttt gaagaggtag atgtttggta 120 cattttatgg ctcccagagc atatattcag ttggtgcatg ttgtggaagg gggaattgga 180 aattaaatga aaacctatga ctttggtcat gtcaatctgt aagacacatc agtaaaaggg 240 // ID LE402495; SV 1; linear; mRNA; TSA; VRT; 211 BP. XX AC LE402495; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637134_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-211 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 1f9df7255c29fd2e0da39d568e67521a. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..211 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637134_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 211 BP; 69 A; 44 C; 43 G; 55 T; 0 other; gggaaatgtc ctcagctact ctggtaatta ataattcatg caccttcagc tcccctctgt 60 ggacacatac catagcagtc tctcaaagat ggatgggtgg agagtgctga agtggacaca 120 attacttcca taggaaagac tgtaatgaaa taccttgcca aaaaagtttc atgatgttgg 180 catccactgt aatgcttgac aaaaacataa a 211 // ID LE402496; SV 1; linear; mRNA; TSA; VRT; 296 BP. XX AC LE402496; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637137_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-296 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 9ac415a98f469aff1011dfd427fe2488. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..296 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637137_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 296 BP; 78 A; 76 C; 63 G; 79 T; 0 other; gaagccaggg attgagacaa ctcaattcgt gccacctcca aggctgcctt ggactgatcg 60 accaaattcc ctgatgccag agacgccgca agggcaatct ccttcgttct aatctcttga 120 gcaatccgtt tgtaccgggc actttctctt tttaagttca ccgagttatg actagttatc 180 cacccacgaa ttgtggcttt aaacgcaacc atcttatcat tgccgaggta tcaccctcta 240 tattttcaga aaaaaaaagg ccaacctgaa ccttgagggg gatggtgtta gatagg 296 // ID LE402497; SV 1; linear; mRNA; TSA; VRT; 323 BP. XX AC LE402497; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637138_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-323 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; fcce663cab9429f92b14bd911fc3b4f7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..323 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637138_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 323 BP; 80 A; 66 C; 91 G; 86 T; 0 other; aagagagtca taggtgactt gttcaattat atcattaatt atgccaacac actttacctg 60 aaacctagaa tttcccagaa aacagctcta taatattcag catgggcttt gaggctggtc 120 aagggcctat agtcctggga tcaagtgtcc tcagcatggg ctgtgaggct ggtcaaggac 180 ctaaagtcag ggggtcacgt gtcctcagca tgggctatca ggctggtcaa gggtctatag 240 tccggggttc acatgtcatc agaatgggct gtgaggctgg ttataggcgt ataggttctg 300 ggatcacgtg tcctcagcat ggg 323 // ID LE402498; SV 1; linear; mRNA; TSA; VRT; 213 BP. XX AC LE402498; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637141_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-213 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2b01e449a1c64408df6bab6c3c30d744. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..213 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637141_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 213 BP; 36 A; 39 C; 72 G; 66 T; 0 other; cagggatcct cagggaggag gatggagtct tagatcttaa tgggatgggg gttctgcttg 60 tgtgcagaga aaaatgtctc cctgctcttg aaaggcgtga gatcgattgg gggtgggagg 120 attggacttg tggtcgttcc gtgcagtttg gcagcccttg tatgttgact tgttctggat 180 tctgtctcta gctctcgtct ccttcagatg cgg 213 // ID LE402499; SV 1; linear; mRNA; TSA; VRT; 335 BP. XX AC LE402499; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637142_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-335 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 9e36be95bcec22510605171486ac543f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..335 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637142_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 335 BP; 92 A; 53 C; 54 G; 136 T; 0 other; gaatggaagt ttgtttaggg atgcttaaaa tccctgaatg tcagatgttt tcttgtttgt 60 cgacgtgata tacacttaaa aattccgtcg ctattttctt tacatctcca aaagaaacaa 120 attatctcat cttaactttg ttttaatttt acgtttaatt tttgaaaagt gatcatgcta 180 tttcagtcat agggaggaat gcaaaagttt attctagtga atattgtagt gagccttgcc 240 ttcaatgtct gaaggttttt ttttctgcca aggtaattat tcatttcttg ctctgcacct 300 ctaaagccat attcatatca ttctttaatg gtatt 335 // ID LE402500; SV 1; linear; mRNA; TSA; VRT; 462 BP. XX AC LE402500; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637144_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-462 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 41a312cbd17769d04a14225e76c245f7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..462 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637144_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 462 BP; 135 A; 102 C; 123 G; 102 T; 0 other; ttcagaaatt gaaggaatgg atgtaaaata agccccccac ctccttatga gagtgaagat 60 ctagaaccta tgacagatgc tggatcctgc cccttgcgag acatggatta tgtggcctgc 120 tatatttgga ggatttgaat gataggcaga gcggctaaag catagaaatt agtcagagta 180 gggaatcgcc ctgggcttga cccatccaga atgcaaatgg aggacactgg gaataggcct 240 tggttgaaaa cggttcaact agggatgatc ctaggggtga aagtgtgacc gagcaattta 300 tgactgcagc agccattctt gaggaaccca atgcaacatc actctgttca cagccacccc 360 agacagaaac tgtctgaaca tgcagcggct gagagcccat tccagatgcc cgctgaacac 420 ctgcagagaa gaatgagtcc cgccttgttt gttgatggaa gg 462 // ID LE402501; SV 1; linear; mRNA; TSA; VRT; 260 BP. XX AC LE402501; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637153_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-260 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 32b16421fa760c9ba6feebb52961c567. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..260 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637153_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 260 BP; 50 A; 58 C; 67 G; 85 T; 0 other; acgttaggtg ctgagactgg tagcgcggca ctggattgag gtactgtgac tctccccatt 60 ctcgcttctg caccctcctc atgggatttg actaaagact tcctggatga gaatcccttt 120 tggccttctt ggggggtcct gatgagagcg ctgcgattca tgaatttcag taatctcctg 180 ggacttgctc ttcatgtcct ttttttttat tccggtggtg ctgtgtagct gaaggatcaa 240 agtattgaaa gaatctgatc 260 // ID LE402502; SV 1; linear; mRNA; TSA; VRT; 345 BP. XX AC LE402502; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637154_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-345 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; e718d4408612d0c22e6205db876067e3. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..345 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637154_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 345 BP; 93 A; 88 C; 73 G; 91 T; 0 other; ccgtcatggg ctacttctcc cctcctagat ttcaacgggg gttaaaatta aaaaagactg 60 catgatggtc tgacatgggc aattcctcgc ctccaatcag cgtcgcagaa aggtctctaa 120 acagcacagc atctaactta tggccaagtt gatgtgtagg ctctgtctgc aagagctcca 180 agtctacccc ttttctctga ctgcaaacaa ttgtctactt ctctgatagc tgggtcaacg 240 agccatagat taaaatccct gactaaaatg acaggtgcag atttgcacaa catatttcag 300 gcccgttccc aaaactgctc aagagctagt gtcttcttag ggggg 345 // ID LE402503; SV 1; linear; mRNA; TSA; VRT; 281 BP. XX AC LE402503; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637162_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-281 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ea499457332f516b81f359f0e09da9a2. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..281 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637162_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 281 BP; 97 A; 65 C; 48 G; 71 T; 0 other; gcacattaga acttagcaga catacttgtg aaagcttccc accgtttgat ctgaaggctt 60 cattcaccaa gactaacttt gtgcagatgt gttaacactg gagatggaca acaggttatg 120 ccacatgcaa ccctaaagca gacaaggctt agaactacaa aagcattagt catttaacaa 180 caaaatacct acacagagag ttactgccta catcactaca caaactggca atagtgaaac 240 cccttatgac tgtttaaatt gactctttgc tgtatgcaac a 281 // ID LE402504; SV 1; linear; mRNA; TSA; VRT; 202 BP. XX AC LE402504; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637170_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-202 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 862cbbc0ccd9b471b1a68d6983b568ac. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..202 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637170_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 202 BP; 57 A; 27 C; 63 G; 55 T; 0 other; cttaggcact gatagtagga attttggtga ggtcaaggtc aggagtgaag gtgatgaggg 60 ctcatttgta agtgtctaga attttaggac agcaacacag caaaacagta tgccatttat 120 agtggtggac acaaatactg gtcctcagtc catggatttc aggggtaatg ctggtttggt 180 gcaatgggtg aagtgaatag gg 202 // ID LE402505; SV 1; linear; mRNA; TSA; VRT; 308 BP. XX AC LE402505; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637176_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-308 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 8b22d596e72f123b27c07a41f4ec44f6. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..308 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637176_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 308 BP; 94 A; 61 C; 69 G; 84 T; 0 other; ggaaagagcc agtccagtca gtgacctgcc ttgtgagtgg gagtggagat tatctgtacg 60 taatctaaac ttttaaaaaa ttggtggagc tcggttaatt ttgatcctat aatatctgcg 120 ccccatacgt taacgtttcc taaaagcgta gacttgtttg ccttaagaga cctagcactt 180 gctaagggaa acttgttctc tgggtagccc tgtatgcaga tggtgaggat gatacatgac 240 agacaaaaaa aagaatccag agtactccta aagcccccga cacaaatata ttcaatagtg 300 tccaattg 308 // ID LE402506; SV 1; linear; mRNA; TSA; VRT; 347 BP. XX AC LE402506; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637185_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-347 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 813e97f38e90c3285464cca52c0d0e74. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..347 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637185_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 347 BP; 88 A; 69 C; 96 G; 94 T; 0 other; ctgcatgttt ccagctggct ggtagcacac ctttcgtcaa ggagaaattg accaacgcaa 60 gtaggtcatc gatgatgaca gctgcgtgac gttttaggtc ccctgcaaaa aaagatgctt 120 ttaacttatc gctggacttg agtaagtgtt cttggctgac tggtttaaaa gccgtaaatg 180 ctctaggttc cggcgtgaag ggagtgacat agggcaaatc cggaggaact gagggtggtt 240 gttgaccaat accttcccgt atatcagaaa ctttagagac gaatgcctgt agtagttcgt 300 cacacaacag ctgagagtgt ggaattctgg tctttccttg ggtgagg 347 // ID LE402507; SV 1; linear; mRNA; TSA; VRT; 360 BP. XX AC LE402507; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637186_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-360 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; a419d383c78db19f07d032227e993104. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..360 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637186_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 360 BP; 121 A; 53 C; 54 G; 132 T; 0 other; gtacattcca tagttagcga tacactttta ttaagattat cctcatgctt aattaagtaa 60 tctggaactg gtagaagaaa attataatct atgatgccat ggaagtaaat ttaggttgga 120 aagacatata tctggtgata cttgtgtgtg gctgactctg aggttccatt tgaattcttc 180 attatctatc acccagaaga gacaatcttt ctttaaaaca ataggtatat cagtttggtt 240 tgttaaattt gtactgtagt gtatcaaatt ttccttcctt gatcaatcaa aatgtttaaa 300 cttccactaa aactattaaa aatttgccaa aaaataattt ctgcactaga taatatttta 360 // ID LE402508; SV 1; linear; mRNA; TSA; VRT; 248 BP. XX AC LE402508; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637197_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-248 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 4a967f42e0f768b7befc2d8069bdd957. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..248 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637197_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 248 BP; 88 A; 31 C; 48 G; 81 T; 0 other; cttacaataa ttaggaggaa acattgattt gaatcacatt gagacacatc tgtattaatc 60 ctctgaagcc atttaaaaga aaaaaagtgt ttacatttca gtcaaatcat tacattgcat 120 agtaatatct atcaattcac catcaaataa tgaatgaata taatatgagc tgtgagttgt 180 aagtgaaaag ttgctaaagt gcatgggtgt gtatgcatgt gttttgtgca tttatcagta 240 gggatggg 248 // ID LE402509; SV 1; linear; mRNA; TSA; VRT; 210 BP. XX AC LE402509; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637202_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-210 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ee36034c99ddd610d9213309c3b1b985. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..210 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637202_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 210 BP; 72 A; 48 C; 32 G; 58 T; 0 other; gatcattctg cagaaggcca ttaaaagcaa gttatatctt gatctcaagc aaggtcgctg 60 attttttttg cttcctaaaa gccataaaat caaacgccca acctatgacc attttcttag 120 caaatcaaaa tgtagaggta ctagctgact aagggaaaaa tcacatattc acttaattct 180 agagccccat ttccagccac agagtatcac 210 // ID LE402510; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402510; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637224_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; de2cc62fa483f1ac78d9cae454f62e99. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637224_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 81 A; 19 C; 74 G; 50 T; 0 other; aggatatgca gagtagaatg gttcaatcaa acagttgaag aagtgtcata aaacagccag 60 tgcatgttta ttgtcaagtg tgtggtttag ataactaggc tcattggagg ctgtagtcca 120 agagataaat atgatctgag atgggaaagt aatgctaatt taacaggaag tatttggaag 180 gaaggaaggg aaggagggaa ggagggagga agggaggaag gaag 224 // ID LE402511; SV 1; linear; mRNA; TSA; VRT; 350 BP. XX AC LE402511; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637232_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-350 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ddb6b9bdb2dee1e769d1176692befb00. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..350 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637232_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 350 BP; 96 A; 58 C; 100 G; 96 T; 0 other; gggtggaata tcgaaacaaa catactctgg tcaaaacata tacaaacttg tgacattgta 60 cggtacagtg caagacactg cagtttggag gcttatgata actggtccat gttagttaag 120 tgggtatgta tcctaacagt gtctcaggtt gcccattcat tgagaagttg tgtattatta 180 gggtgtgatt caggagcaga gaaaaggctt ttgcagctgt gtaggtaaca gaccctgttc 240 caccagtagt catgtgacag gaaggaggta tgcttccatg tgcagacgat ggtttacagc 300 agtgtatcgc ggagtgtgtc aaatgcgcgt acctgggagg gagggaattt 350 // ID LE402512; SV 1; linear; mRNA; TSA; VRT; 202 BP. XX AC LE402512; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637235_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-202 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 114e6d6c55916132f8d573a161af6d19. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..202 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637235_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 202 BP; 67 A; 21 C; 33 G; 81 T; 0 other; acaatatttg tattcagttt gcatctacac tggaaatata aatagaaggc agtagctatg 60 aaaaaattca ttttaaatta tttgtactcc agatgtatag acagagctag gatttttgca 120 caatattaag ctacttttat ttatattgaa gatatgttaa ggtttgttat ttttgtatta 180 tattcattag agctttagcg tg 202 // ID LE402513; SV 1; linear; mRNA; TSA; VRT; 217 BP. XX AC LE402513; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637240_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-217 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ab9d5ee14e91d5972bcedf3d80db71f8. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..217 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637240_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 217 BP; 93 A; 32 C; 31 G; 61 T; 0 other; gcaagaaatc ataaatgaga cactataata aagcatttgt ttaactctct ccaatgtata 60 aaacttttat atttacaaac tcacaagata atgcatcttt aaaacagatt aaaacttttt 120 taaaaagata aagaggggga aatagagcag agagaaaaag catatctgtg gcaagcactc 180 ttcaaaacaa tttaaagtct cagggactaa attcttt 217 // ID LE402514; SV 1; linear; mRNA; TSA; VRT; 221 BP. XX AC LE402514; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637243_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-221 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 81e9185aae97bb33298c8c81ca8bc3b7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..221 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637243_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 221 BP; 74 A; 43 C; 28 G; 76 T; 0 other; ttttcatatt ctctgtatta ttctttaaac accccttctc caactctttt tttaaaaagc 60 aactgcctat tttcaatgtc ttctaaaaca atgtgtgatg tatctaactt ggttagaaac 120 agaaagttat gggaaagata aaaactacaa tcatatggcc ctcacaactt gtgtatctag 180 tttacaactt tagaaagaga cttaggacaa ccaaagtctc t 221 // ID LE402515; SV 1; linear; mRNA; TSA; VRT; 272 BP. XX AC LE402515; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637253_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-272 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 5641623f29a2936c48f2354b1578ae4f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..272 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637253_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 272 BP; 59 A; 68 C; 97 G; 48 T; 0 other; caggagtggc cggacagcac acagtggatg cgtagctttg ttgccaacaa gcctttgtgg 60 attcattttt ccccaccaca agtgtctaca aaatcccagc atgcactgtg ctgtgggctg 120 acaagtcagg actggctgca gaaggcacag cagcaggcag agctggggcc cagcagccca 180 caggaggggc cttaccaggg aggcacactg tggaggcatg gggggggata gagggggtta 240 ctgtgcctct gtcccgggac aggggcgtgg gg 272 // ID LE402516; SV 1; linear; mRNA; TSA; VRT; 241 BP. XX AC LE402516; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637262_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-241 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 748341a28ca828a11a93ef388bb8e1cc. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..241 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637262_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 241 BP; 62 A; 43 C; 35 G; 101 T; 0 other; ttttagcttt aggtgaagga tcaaaaattg gcgcagtttc cattccttcc cttgttttat 60 atgccatggt atactttctt tgtacaaaat cttttccttt atctcaaaaa gtaccttttc 120 ccttttaagt accatagatt tttacatgca atttgtagga gttacttaat tttgtacttt 180 gtagtgctgt ctttagcaag tcaatgatct agaattcagc tatgatactt aaatctcctt 240 g 241 // ID LE402517; SV 1; linear; mRNA; TSA; VRT; 317 BP. XX AC LE402517; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637287_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-317 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c06b25d26dbbb2bf8266ae24957af4f8. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..317 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637287_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 317 BP; 83 A; 60 C; 49 G; 125 T; 0 other; aatatactca tatatatatt tcattacatt tttccttaaa aactcttttt gaccgttgcc 60 cattctccca cagatttcaa agggaagttt gtggtttaac atttttcaaa gccctgaaaa 120 acgtggctcc ggtgcattat acattgtaaa tcagtttttc ttttctcttt tagtcaagca 180 ggttgtattg ttgagtaggt tcccttccca caattgcagg tatttgtttt tgtgtgaaag 240 ttgttttcat ttcaatacaa ccacgcccct ttgttcagtt cacttttcaa attgctaaaa 300 tgtgaacttg agtgaaa 317 // ID LE402518; SV 1; linear; mRNA; TSA; VRT; 209 BP. XX AC LE402518; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637301_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-209 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 313c7d8e018d017d574d30c0f1d95ce1. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..209 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637301_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 209 BP; 57 A; 49 C; 59 G; 44 T; 0 other; gcacggaccc caagccttcg gtatacttcc ccccaatgcg ggagccgtag tggtcacttg 60 atttgatcag gcacactcaa gtttagtgcc aagacacccg agcaatgaaa gttgacagag 120 cgggcggggg aatcaacagc aggttgaata ttgtttagca cattactcaa gtgatatggc 180 gttacctggc gtcaaaagag gggtacgga 209 // ID LE402519; SV 1; linear; mRNA; TSA; VRT; 359 BP. XX AC LE402519; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637304_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-359 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 185fc0e97fa6c005691171cf78fd9b21. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..359 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637304_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 359 BP; 71 A; 101 C; 98 G; 89 T; 0 other; cgatgctgct cacctaaagg aggattgtcg ggctggaaag ggaagagcgc agaagcacgt 60 tcccctcccc caatcgatgc tgatggatcc ctgcctctac ccaagtggtc ccacctagcg 120 ccccccatca gccgggctgt gatggggaca ggctccttcc cttgcacttt cggcttggct 180 agatcttgct aaaatcgttt tacccgtccc caaatatcag gaatccggag gtaaaccagc 240 cgcctttgtt ttgtgtggtg cttcaacttt caggacagct cgttaggaga gcgacgcttg 300 gcttctaact tttggagaga tcttccatcg ggatccaggt gtctgcagct ttgaggggg 359 // ID LE402520; SV 1; linear; mRNA; TSA; VRT; 237 BP. XX AC LE402520; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637307_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-237 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ae0892fe207d0a776282abd60f99a496. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..237 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637307_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 237 BP; 53 A; 57 C; 52 G; 75 T; 0 other; gggtggatgg cacctccgat gcggagtttg acatgtagga atttgccttt tttttgcttt 60 gaaggaaacc accattattt ctgtcaccaa cacgatgatg gtctatcgag tcctcatgtg 120 atactccctg cctcttctct gatggatgag caattctgct cctttatctc atgggaaaga 180 taactgatta tactgctgac agcggggaat gccgattctt cctcatttaa acccccg 237 // ID LE402521; SV 1; linear; mRNA; TSA; VRT; 282 BP. XX AC LE402521; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637310_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-282 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; f98fbce64928d8ffd1484fef8c2cb314. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..282 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637310_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 282 BP; 63 A; 42 C; 54 G; 123 T; 0 other; tttcttcata gcagtgcaag gatgacagaa tacagtatcc ttttgtgtgc ttagccattt 60 gtacatcgtt tcttatagtt tgtctgttca acgttttgtc cgtttatgaa actagttgat 120 ttgctttctt attgagttgt aagtgttttt tatgtattgc ggggaaagtc ctttgtcatt 180 tataggcatt gcaattattt tctcacagtc tgtggcttgt cttctcattg tcttgacatt 240 atcttttgca gacaagaaga ttttaatttt aatgaagttc ag 282 // ID LE402522; SV 1; linear; mRNA; TSA; VRT; 427 BP. XX AC LE402522; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637314_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-427 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 18d8f0544b2c2359d23cb20520314e71. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..427 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637314_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 427 BP; 148 A; 62 C; 68 G; 149 T; 0 other; gaaaaagtta aactaaaggt aaataaatta tcatctggaa aatctctgta agctgcagtg 60 agatttagtg ttgtgcactt gcctttcatc cttcttagaa ctagtgaaga atggatatag 120 aggattcacc acttactctt tctctttaag ccaaaaattc ttagacttgg gggagggggc 180 caacgaacca taattaactg aataactaaa atcctcactt gtatctaagc tctcattgtg 240 cttgaaaaag atgttcatat ataaaattga aatattttaa agtatgtttt tagtctaaat 300 gtgtacataa aaacataaaa gttttactaa ctggggcttg cttagctaca ctgaaatgaa 360 ttgtattcca ttttgtctac tttttaatta tacaaataaa tcatatattt tatagtgaat 420 agtcgtt 427 // ID LE402523; SV 1; linear; mRNA; TSA; VRT; 467 BP. XX AC LE402523; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637316_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-467 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 36e312402a8952a0a89ad336b6868739. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..467 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637316_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 467 BP; 152 A; 88 C; 98 G; 129 T; 0 other; gaaatgactg aaagaatgca tgagtctggt ttagatcaaa aatactttat tttcttttcc 60 aattctggct accccacctc cacagcccac gtgtcttttt tgtaacccaa cgggacaagc 120 ataaccacaa caggtggttc ttgggaagca ggccaggttt cagtaaggcc aataattcca 180 gaccttgatg aacggataac acattgggag cacgtttcac tgctttgtat tcaataggta 240 ccagctgaag attattctga ctcgagttcc ttattggggt aaaataccct cgttgaaaaa 300 ggaagtgaac tttcatcaca gtcttcggtg atgttataaa tagtagggtg gcctaattta 360 gagtacaagc agtgtcttaa cgtaaataaa atattaggaa taacactaac aaatggggcc 420 ttacggagat taagcaaacg tgaatgaata ttacagacag taagaat 467 // ID LE402524; SV 1; linear; mRNA; TSA; VRT; 207 BP. XX AC LE402524; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637319_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-207 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; d7633e8333541c548840bdb62e95045c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..207 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637319_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 207 BP; 35 A; 67 C; 63 G; 42 T; 0 other; gggattgccc aggtcccagt gccagcaggg cacacagcgc gtgcctgtgg gtaggaagaa 60 cccaagagat ggtcctggag cccggtgggg gctgcactgc cttccttggg gcctaggtgg 120 cgatgtgcac actcgtctcc ccagtccagt ccctgcagac gtccaccttc tgctcctgaa 180 ttcgatgccc tgaaaggcac ttctctc 207 // ID LE402525; SV 1; linear; mRNA; TSA; VRT; 231 BP. XX AC LE402525; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637337_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-231 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 0e6784f55152874d540670458f631311. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..231 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637337_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 231 BP; 54 A; 41 C; 59 G; 77 T; 0 other; cggaccaaga gtcaaaacga tacctggtca tgaaagcaat cgcgttagcg catcttaggt 60 ttaatgatga tgaggtgtat accttccttc cataggaatc tagttttcta ctctctgttt 120 ccgggggtac tagagaggat gctagtggtt gtcccttagt ggatttgact gtctccgtga 180 ttatagagtc tggtataggg tgttgtttta agaatagttt ctcctctgaa g 231 // ID LE402526; SV 1; linear; mRNA; TSA; VRT; 307 BP. XX AC LE402526; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637338_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-307 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; dcdeed97852dc6b1d4c9caca4bf22021. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..307 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637338_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 307 BP; 102 A; 57 C; 59 G; 89 T; 0 other; gatacataca atcctagata agagtccaat atggcccaag aggaggtaaa ataattagtc 60 tcctctactc agctctgcag tgctgtagac tcttccaact tcaggtttat tactgtcgaa 120 aagagaagca gaggctacct aagtgggcca gaacacctac cacataatga gttaggctgt 180 aaaaatggta ttatcactaa aaatttgaca tctacgaagt ttttatgtgt tctctattca 240 taacattttt agggcataag gatagacaaa tgtctttcta gagattacct gggataaaca 300 ctagtgt 307 // ID LE402527; SV 1; linear; mRNA; TSA; VRT; 316 BP. XX AC LE402527; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637339_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-316 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; a19e32e7cc3900a3dd652bc67e61f650. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..316 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637339_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 316 BP; 115 A; 45 C; 81 G; 75 T; 0 other; gcggaacaca agattttggg ttacggggat aagttatgca aatgattatg caacagattg 60 taaggtttgt aacattacta cagcactaca aattagagtt taaaaaatgt atctacaagt 120 taaaaatgcc ccttcaccag cacagatggt atgttgaaca gagtgaaaat aaatgaagac 180 ttgggggtag gccaaggtga acagatgaga ttttagatag ttgtaaaatc ggaacagtga 240 ggtatctgca caagtgggcg gggacatcta atggcaacag ttgaaggaga aacccgattg 300 atggacctca agaaag 316 // ID LE402528; SV 1; linear; mRNA; TSA; VRT; 243 BP. XX AC LE402528; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637346_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-243 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ffd8264f4f9563bbedb24b0d5699053d. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..243 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637346_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 243 BP; 84 A; 52 C; 41 G; 66 T; 0 other; gaaagatgtc accaaaacgt cctgatattt ggtcgaaatt cagcaataac tttgccaatt 60 ttcagtgcat tctatgggaa aaaaaacaca tccataactt tgaaatgcgg tcgacattta 120 gacaaaatgt caacagaaat tatcaattgc cagtgacata ttctttagcc aacaaagtgt 180 ctcggatacc agaagttttg caatatacct gacatcccag gtccgaccac cattggctga 240 att 243 // ID LE402529; SV 1; linear; mRNA; TSA; VRT; 241 BP. XX AC LE402529; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637352_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-241 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c674be411e0f433916736aafa4c07330. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..241 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637352_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 241 BP; 58 A; 58 C; 51 G; 74 T; 0 other; tcaaggaact aaatctgctt ggcacccgca cagaccgcac tatataggac attcccagta 60 tactctattt caagagatgg gtctttaata acttgcaaaa cttaatgtac tcctgacatg 120 tttggatatt ctctggaaca ctgttacact gtttggggcc tggcacggag aacctcctgt 180 ctcctcttgt tgtgagtctt gccttaggga ccactatcag gtttgctgtg cctgatctaa 240 g 241 // ID LE402530; SV 1; linear; mRNA; TSA; VRT; 205 BP. XX AC LE402530; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637354_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-205 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ead0bbca0db3e2c17f9aab789d8d8a45. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..205 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637354_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 205 BP; 61 A; 35 C; 46 G; 63 T; 0 other; tgtggatttt gtagtggagt aattaggtac ggtgcaagtg cgcatcctga atctcctgtt 60 caagaaaaga agagttattg atcagtgttg tgttattgaa agtatatgca gtcacaaaac 120 ttttgtacat gcaagtctta cctagcaacc agcaatcttt aaagagacct tgctcaaaat 180 tttcaggaag tccgctttgc cggaa 205 // ID LE402531; SV 1; linear; mRNA; TSA; VRT; 499 BP. XX AC LE402531; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637361_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-499 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 55d6405d630758405b4358c77895c979. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..499 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637361_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 499 BP; 126 A; 137 C; 138 G; 98 T; 0 other; acaggcccaa gtggaaagga aagccgccac cccaggagga tgccaaaggg cgtgggggca 60 cacgtccacg ccgcagccca agtttaggat ttttcacggc aggtgctgct ttcatcttct 120 ggaactgcca ccgtgaagta ccacaaactg ggcagcttaa aacaagagaa actgatcccc 180 tcatggtccc ggaggccaga agccccaaat caaggtgtgg gcagggcatg agtcctccta 240 gggggattct ccttgcctct ttctgcatct ggtggtggcc gtcaatccca gctcccagca 300 ctgcaagctg ctggcaaagg ccaggaagtc agagatggaa cctgagctgc tgctcagagg 360 agccgggctc agtcacacac acgatgcaga cagttcccag atcgactaag gaagcaagta 420 gccagaagca ctgtttgcaa caggctgtca ttctgctttt tagggaaggg atatttactc 480 agatacacac tgtctctgt 499 // ID LE402532; SV 1; linear; mRNA; TSA; VRT; 257 BP. XX AC LE402532; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637362_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-257 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ba310cf521bfbab4a674ad833f8acde4. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..257 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637362_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 257 BP; 70 A; 44 C; 79 G; 64 T; 0 other; ggaacttgga tagtaacgga gcaggattgt ctcaagcaat acatggattc cagggacaga 60 gagtactctg ggaaaaggcc ttactatgtg agacggataa gggagtccag aacatatgat 120 ctcaggagtg agccctttgt gtgttgaatg cgtgactgag acatctcttg actgtgtggg 180 atgcagagac ctctgggtgt ctcggttttg tgtacaagaa aagtcgtgga cggttgggtc 240 agttaaatca aaccgca 257 // ID LE402533; SV 1; linear; mRNA; TSA; VRT; 209 BP. XX AC LE402533; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637368_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-209 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; af68c34ea4e2423775eda8acca92db4e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..209 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637368_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 209 BP; 58 A; 55 C; 33 G; 63 T; 0 other; gcaagaaggg ggaggcatat gtgctgtcta caaagacaac ttaaactgca cagatcgatc 60 tttcctatga cctcattcga gttcctaccc atgaaatgta ctccttcatc caataactct 120 tttatatttc tcactatcgt cccccggggt acattgtgac tttacaaacc aaatttatca 180 acttggttac tggacactcc ctactgtca 209 // ID LE402534; SV 1; linear; mRNA; TSA; VRT; 339 BP. XX AC LE402534; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637375_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-339 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; bd8f8168b63c9f8900a4d91fdf2c3772. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..339 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637375_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 339 BP; 159 A; 55 C; 58 G; 67 T; 0 other; tcttgaaaac agggtatatg aaaattcaca gagagaacca aagaaaaaag aattaaaaag 60 gatgaaaaag atctgtaaga attatggaac accatcaagc aaactaacct cagcataata 120 gagatcccca aaggagacaa gagagtaaaa gacctagaga gcatatttta aaaaattatg 180 ttggataatt tctaaaaact ggagaaagat aacagcatcc agatacagga agctcagaga 240 tctccaaata gataaaattc aaaaaatctt ctctatgacc cattgaagtc aacctgtcaa 300 aagtcaaagg ctaacacaga attctaaaaa cagcaagag 339 // ID LE402535; SV 1; linear; mRNA; TSA; VRT; 231 BP. XX AC LE402535; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637376_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-231 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2b9233bb569d94c220595e4ccabe4991. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..231 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637376_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 231 BP; 83 A; 55 C; 51 G; 42 T; 0 other; gaaagtgcac ctcaactcga ctccctgctc aggcaagggc agacgggcaa gtccctagaa 60 aaccttcacc acacagaata gaaatcccag tccccgttac agaacgcata atgcgtataa 120 tgttcccgag tatacacgcg ccgtatatgc attaaggaag ggggaggcac attcaaaata 180 aaactctatg cgttgtagga aaataaacag tgaaggagag taaaacaact a 231 // ID LE402536; SV 1; linear; mRNA; TSA; VRT; 254 BP. XX AC LE402536; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637383_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-254 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 9f02ba14fd8b00a484f4cdd35dcd15f9. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..254 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637383_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 254 BP; 58 A; 55 C; 74 G; 67 T; 0 other; ggggatcttt cccttcttct ctacactgct ttagggctgt gtcagttgcc agagcagctg 60 tggtagtgcc ttgggtttgt tatggatcca tccataagca ggggtcagcc agacacactc 120 gtcagaggtg tgacccagtc aggaatggaa ctgcctttgt tcaatgaaga gcaggtgcag 180 gctctgatgg aaagctttgt cagtagagca gtctcccttg caatgaacaa agtgtgaagg 240 aagagaccgt gtct 254 // ID LE402537; SV 1; linear; mRNA; TSA; VRT; 235 BP. XX AC LE402537; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637388_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-235 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 40573700c5fb3785aaa23a517d597d9c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..235 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637388_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 235 BP; 65 A; 46 C; 57 G; 67 T; 0 other; agtgcatctt gcaacagaag tgcatcgttc ctccctgttt atataaaaca ttgtgttgtc 60 tgtctgaact aggatgttgg actctggatg aagcaaagat tagaaggccc gaagagacag 120 gctaatagct ctcagtttaa gatggatgtg cagcttctgt tctggagacc aagcatcctg 180 aactgagcga gctattatgt gggtagaggt ccatttcatc gccaaacatt tcata 235 // ID LE402538; SV 1; linear; mRNA; TSA; VRT; 390 BP. XX AC LE402538; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637397_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-390 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 72b4500eff4bd9cb680b1618d4b52a63. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..390 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637397_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 390 BP; 108 A; 60 C; 89 G; 133 T; 0 other; ggctacaccc ttcaggtttg tgctggctcc aaataggggc attggtactg attaccaaca 60 gattattcag aatcttgtct agagaggctg atgtgtttct ggactgcttg atagttaata 120 tgtaggcgcc tgaggttgct tttagtcttg tcaagatgat aattttagca ggtacttggg 180 atatattgtc ttttactagt tgagtccata ttggaatatt cagtgtcaga agatttccat 240 tgattaacat gatgtaggat cgatgctttg tggtaaagtt cccagtctgg gaaatgaaat 300 cctcccttaa tgataagagt atttattttc ttccagtata cagaagggac tttaaaagcg 360 aatgatctca agagataaaa cattcttgga 390 // ID LE402539; SV 1; linear; mRNA; TSA; VRT; 442 BP. XX AC LE402539; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637412_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-442 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 512f18a073b67c76a1b14d3e0734bc99. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..442 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637412_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 442 BP; 166 A; 57 C; 99 G; 120 T; 0 other; gaacttaaag tataataaaa aaagagaaac tactcaatac atattgaaaa agaaaatgaa 60 caatttatat aaaatatgaa cagtatgctt attggataat gacagctgaa gaggtagata 120 ttcagaatga gatttttagg ttagaataga gggggagatc aaccaggtac aactttacag 180 ggatagaagc aaagtcatgt ctatagtgga aagaaatatt gatgtaaata tcaggcagta 240 gcttgacagc agtacctgta aggaaggcta ggggatggag gtagtatgtg actcagcttc 300 tacaactatt aacttgcagg gactacagat tacttacatt ctaatcttta ggaattagcc 360 tggtatctgg gcatgaagag cactcatcaa aggtttgttg aatgtgggag attgtatttt 420 ccaaccaagt gttatcacaa ca 442 // ID LE402540; SV 1; linear; mRNA; TSA; VRT; 648 BP. XX AC LE402540; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637429_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-648 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; a90e5b1348ba380732722326199e88d9. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..648 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637429_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 648 BP; 211 A; 152 C; 137 G; 148 T; 0 other; caaacacaaa gatgaaagac acaactccaa aacgcaaaca gggaaaacta tccctacaca 60 gaaatgatct atgatgtcca atacctttca ggacaccatc ttcagcaaac ccctccaacc 120 cactgaaaat ggtggagcaa gggcttccca tatatcactc agcattaaag ccccgatctc 180 ccatgccctc tgcccgcata gacccccata acgtctataa tggagggaac ataaccttag 240 caaagtggaa gagtgatatc ctgcaatcca tctccttcaa acggtacaaa tatgtaagaa 300 aatgtaaccc acatctttag aacagagcac cttcgaaagg cacatgaaca atcagcttaa 360 gtcaaactgt aagtttccta gtaaggcccc ccaacgtatc aatgagtttg gctgggtgaa 420 gaattctgta ttttacccca gtgagaacgt aggtgaggtt acaggttcag gaacttttct 480 tggcacttga tagtttttct ggccaggtct gggagtatgg taagcctatg acctgagtag 540 gggacagcat ccagcacctt gaacacgcaa aagagctgcg atacctggtt actacttaga 600 atgtggaaga taaaggggaa ataatattta gaggtacgtg aggtctgg 648 // ID LE402541; SV 1; linear; mRNA; TSA; VRT; 236 BP. XX AC LE402541; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637437_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-236 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 3ec34247dee10389867f7bd62a940d24. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..236 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637437_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 236 BP; 73 A; 54 C; 52 G; 57 T; 0 other; gagcccacat ggaagggaca atgacaactt gcttcttctg ccccattcat accttcagtt 60 ccctgccaag gtaaacatcc aatttacata tacatcagta ggttagaaca gcactgttat 120 ctccatttta cagagagtaa gctgtggcat agagcagcca gaagatttgc ttctgggaag 180 acgttactca ggcaaggtcg gcagaacatg tggctctgag accagaagaa atataa 236 // ID LE402542; SV 1; linear; mRNA; TSA; VRT; 237 BP. XX AC LE402542; XX PR Project:PRJDB2409; XX DT 21-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 1) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637442_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-237 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; ac622092868ed1f5998c32d79151711f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..237 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637442_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 237 BP; 75 A; 59 C; 49 G; 54 T; 0 other; acgaagctgt ctgcaggagc tgcccttgtg cttacagtct aagcaagcat gtgttccctc 60 ttgcagggcc gccaattgta aaggatctca tttactcagg cactaaagct aaaagaggag 120 caccaaaaaa actcagaaat gaatagccta aagtggttac tatgatacat aatactcggc 180 tttgaatcta ggcctcgcat aactgagaat ccacaacctc ctagcaacac agcctgg 237 // ID LE402543; SV 1; linear; mRNA; TSA; VRT; 222 BP. XX AC LE402543; XX PR Project:PRJDB2409; XX DT 21-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 1) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637461_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-222 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 7771d8fcc2d4f141ac4bb0ab6d157a16. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..222 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637461_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 222 BP; 76 A; 52 C; 41 G; 53 T; 0 other; ctcaagccgt acttgtcaac aagatcaaaa tctaaaagag ccaaaagtac gtcactcatt 60 cttaacttgc agggcacaaa ccaaaaccgg atcatgatca tttgaatgtt ctcttgtttc 120 ttctggtaaa caaaaagctg actgtccacg ttggacttgc tccatcctca aaagcaatca 180 tcctggaaca gtgtgggaag aataaaggct acacagacag ag 222 // ID LE402544; SV 1; linear; mRNA; TSA; VRT; 276 BP. XX AC LE402544; XX PR Project:PRJDB2409; XX DT 21-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 1) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637463_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-276 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2e3cd2fcfaee56bfb33c41b8bd453366. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..276 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637463_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 276 BP; 70 A; 62 C; 66 G; 78 T; 0 other; ggaaccgaac caggtatggc gtgcacccgt gaggatgcct ccattgagtc atttctggaa 60 gattgtgtgg ggaacccttg ggctaccagc tgaaagagaa gaatgccctg ttttctgaag 120 agcccaactc tttgcttctg attggtggta ggctcacagt tgggagtggc attcatcgct 180 tggatccttt aagtatcagg accacaacaa catacttctt atgctaaaac attgccatgt 240 accttatttt gtctcaattc cagagcttgt aaaaac 276 // ID LE402545; SV 1; linear; mRNA; TSA; VRT; 308 BP. XX AC LE402545; XX PR Project:PRJDB2409; XX DT 21-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 1) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637474_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-308 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 109230026cd365249878eb8a8d6c59bb. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..308 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637474_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 308 BP; 68 A; 84 C; 80 G; 76 T; 0 other; aggtgcctgg gcccagagca cttgagagac aagtgtgata gctgttcctc cctgtcggag 60 atcaagtgac gccagagtgg agaggcttaa cgagtacctt taacagaaag gcaggagtct 120 agtttccctt tcaggtaagt ctgtcatttt tgcctttgac gtgcacgatc ccagttcctc 180 caaagccttc cctgactgca gaggagtccc ttgtaagccc cagcacactt gggtccgtgc 240 ctctgttgca gatgcctcgg tcttcacatc agaatgacag tcctctaacc gtgggctgca 300 aagtccag 308 // ID LE402546; SV 1; linear; mRNA; TSA; VRT; 534 BP. XX AC LE402546; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637481_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-534 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 97283a41dbbc3ac78faa173c2784e88d. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..534 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637481_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 534 BP; 126 A; 88 C; 156 G; 164 T; 0 other; gggggatgtt gtttttcttg agaataggtg ttattatgcc cttcttccac tcaggtggga 60 cccagccttc tctgagcgag agggagaaga ttttcttgat gcatgggctc agtgtggcca 120 gatgttggca cagaaaccaa cctggtacgg ggtctattgg ggaatcggtt ggtttgatgg 180 aggccaatgt tgttgccaaa atagtttcag agatagtggg aaatgaaaat tccggctgtg 240 gaatggcagc agaagatgat agtgtagaag tgggaggcgg taggattggt gaagtcgcac 300 aggcttccct aatagaaagg attttttcct gaaaagagtt ggctaaagaa tccaccgtgc 360 tctgggactc aggtggtttc ggggagtttt ttttgatccg atatcaggga tttggcagtg 420 gcaaaaagtt ccctggatca gttcttggcc aggtttattt tttccgccca gaatgccttt 480 ttggttttgc aaatagctgc gtgatatatt ctggttctaa ttttataaaa ttcc 534 // ID LE402547; SV 1; linear; mRNA; TSA; VRT; 315 BP. XX AC LE402547; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637487_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-315 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 2d9ff5eb84c3ef71ccee7ada8361762e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..315 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637487_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 315 BP; 92 A; 72 C; 71 G; 80 T; 0 other; aagtctcaga gaacccgcag catcagtgat catcctcttc tagtggaaga agtttagctc 60 tgattttcaa ggtccagatt ctcaactgga gccagaagga ctcagtggtt gtttcagagg 120 actttggcaa gagcagtgct ctttttcatt ctccagattt cctcttctct aatggcctac 180 tgacctcccc tagagagata tctttgggag agaagagggt acagaagaaa gattggagaa 240 gggcctctct agcagtcaac tccatttgtg ataaaaccct ggcactctgg aaaacaaaca 300 aacaaagagc actca 315 // ID LE402548; SV 1; linear; mRNA; TSA; VRT; 235 BP. XX AC LE402548; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637490_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-235 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b8f25b8bbc19e6ed8aedab3ec7cb6697. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..235 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637490_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 235 BP; 74 A; 53 C; 48 G; 60 T; 0 other; agggccatac gcttgatgtc ctcttcgtga ataataatct catcgtcgac caactatcct 60 tagtagagac tatctggact gatcatgtcc taattaaagt tcaactacca aagtttgccc 120 ctaggcgaaa tacggctgga aaccctatga tacaatcatt acccttcaga aaactgtcaa 180 aggtctctga gacagcattt agagaggctt atgaggatgc agaggaagat ccaga 235 // ID LE402549; SV 1; linear; mRNA; TSA; VRT; 221 BP. XX AC LE402549; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637500_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-221 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; c508f680155b75f479ff73cfeb9f1c6e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..221 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637500_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 221 BP; 58 A; 70 C; 49 G; 44 T; 0 other; cagaggagaa ggtggcggtt tcctgggacg aaaaaggaca gctgtgagca aaacacagct 60 gaagactcgg agccaagctc caaggacccc cttctcccca ccaccctgcg atctgtcaca 120 ttgcttgatg caccctacac atcaaagtcc ctcctctccc cccacgccaa cgtagtaatt 180 caaacacaat tggctttagg tgtcctgctg tgcacaatgt g 221 // ID LE402550; SV 1; linear; mRNA; TSA; VRT; 256 BP. XX AC LE402550; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637505_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-256 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; b0436aaedb35d33e0afa99e931e755c9. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..256 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637505_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 256 BP; 55 A; 71 C; 64 G; 66 T; 0 other; cagatctcgc ttcgctcata ctcatgatgg ctgctcggtc cacttttcct gctacgcccc 60 aacctgaccc taaacaaagt ctccacccag tgaaaataac atcctcttag ccttggtgtt 120 cttaccctgc tgagggatcg cccacagaat gaattccaga aacagaatca gagttacccg 180 gtttgtggat gcgcacgcgg tcgtggtacc ggttggtcca gtggtgtgga acagttggta 240 ttggctctgg tgcagg 256 // ID LE402551; SV 1; linear; mRNA; TSA; VRT; 268 BP. XX AC LE402551; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637506_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-268 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 13c727afd3a0176059f8109b1fc53d57. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..268 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637506_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 268 BP; 89 A; 53 C; 61 G; 65 T; 0 other; agagactgac tttctttggg ttatccctta gtggtcagat gggatctagg tttgaaggac 60 ctctacctga gaggtttcac cgcgcatcac acaatgcaca caccacgtac tactagatat 120 tagacaggca ctgatagatt aaccaaacag gggttgaata actgtgcaca ctatgcaata 180 caacttccaa ggaagcaaat caaatgtaag gatgggtatg gggaatacag aagataaata 240 cttagggcca gattcatgaa gcacttat 268 // ID LE402552; SV 1; linear; mRNA; TSA; VRT; 303 BP. XX AC LE402552; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637515_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-303 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 0d42940ee8703a4b64d2ab9c4867c338. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..303 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637515_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 303 BP; 77 A; 71 C; 55 G; 100 T; 0 other; gggacgcccg ttctttgagt ttccatgcca atagacgaag tgatcgctct ccttaaatga 60 aagcggtttg catggaatct atccctatcc aatgaagttt taagagccta ggaaatctca 120 cttattgtct tctggatttc tacttcaagt tttaacttta ctatggatca ccctcatact 180 gaacgttttc ctgttaagct agagaacact cttgagcctt ttcggttcct taacaaaact 240 tgtttttcct ggggaacgta ataacaaatc aatccttgac atgcttccca tctcgccgag 300 gtg 303 // ID LE402553; SV 1; linear; mRNA; TSA; VRT; 231 BP. XX AC LE402553; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637519_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-231 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; e9ce6baf9cd3bef65751d241b2613089. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..231 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637519_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 231 BP; 53 A; 67 C; 55 G; 56 T; 0 other; gcacaggcag gtggcaccag tgttatccta aacggaatga cgtggcccaa tcagcctctg 60 ccccttccct gtctccatgc cccttccact accactctct aggcagaccc aggagcgaga 120 ccttaggtca atcccagaac acattgtgta gagattctat gttgggagag cacagtgagg 180 gatcctggga cctctgccca actgttcttt gtttaaagga tagatcctgt t 231 // ID LE402554; SV 1; linear; mRNA; TSA; VRT; 225 BP. XX AC LE402554; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637524_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-225 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; d0c6671c54e5d61c587aa61e9bbe15fa. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..225 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637524_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 225 BP; 81 A; 39 C; 37 G; 68 T; 0 other; agaaatacac ccacacatat gtggccaatt agttttcaag ggtgccaaga tcattcaatg 60 caggaaaaag gagtcttgcc atgaagtgat gttgagaaaa ttagagattc attcacgtgc 120 aaaagaatga agatggacgc ttaccttcta ccacgtataa atattactta atagtaatta 180 ccctatatga atacacttac attagttatc attttaactc ttatt 225 // ID LE402555; SV 1; linear; mRNA; TSA; VRT; 386 BP. XX AC LE402555; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637529_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-386 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; e7c142427fae014cd764e3d81ef52572. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..386 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637529_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 386 BP; 123 A; 77 C; 88 G; 98 T; 0 other; ctcctacaaa aatgagtaag gcactcaatg gtgatgggaa cattcttact caaaacccaa 60 tccatattat ggtccggaat atgggtaggg ggagaattgt gttcagagaa tacaatatct 120 gttaaagaat gggtgaactt ctgaacattc agatttgaca ggttatctgc ccaggtatca 180 gcatcaccca agatgacagg agaagttcaa atggggtgga tgatgcacta caacaacatt 240 tatggagtaa ttgactccta attgacacta agatctgtaa ttccctcagc aaacccgaat 300 gcaccaagct tcctcttgtg caatcgcaac ttctctgcca ggagatggct gactattttg 360 ccgagaagat agtcaggata agggag 386 // ID LE402556; SV 1; linear; mRNA; TSA; VRT; 339 BP. XX AC LE402556; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637535_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-339 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 8a1a6259371e469d42a59f2aff631d30. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..339 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637535_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 339 BP; 101 A; 69 C; 53 G; 116 T; 0 other; aaaaaaaaaa ttcctactga aaaaactgtc atcgtttcac atttctggct acgttagtgc 60 aaaagggaat aaataaaggt gagatttgtg tgacagtgtg gatatggtac tgtgtgacaa 120 ctcagttctc ccatcacttc cacctgtttg aatcatcggg atcctttatt tgtacaccat 180 gttatcggta tttgccctta agcaccacca atgcaccact tttatattaa gtctgcccgt 240 tttccttagt actccataaa atttaagtca catattactc tgcctcacca tgttacttca 300 ataattctga atcaaagttt aagtttgtga ataattttg 339 // ID LE402557; SV 1; linear; mRNA; TSA; VRT; 283 BP. XX AC LE402557; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637550_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-283 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 47f5394db651615ad9169d7a7ff41e54. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..283 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637550_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 283 BP; 114 A; 42 C; 41 G; 86 T; 0 other; gtttttgtaa ggatctttgt tagaggattt tatcaaagtg attataattg aataatattg 60 ctttcaggga ttcttgcaaa atgatgatga caatgatcat tcaaattagc aaaaggcttc 120 tctacattac ctttgaagta caaaaaaccc caaaaccaaa taaaaatatc tatggccact 180 tccaggaacc aataattccc tgtaaaaatg gatgggaatc aaaatgagat ttttagtgct 240 actataacaa aaattaaata cacaatgcaa aacttgaata aat 283 // ID LE402558; SV 1; linear; mRNA; TSA; VRT; 345 BP. XX AC LE402558; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637557_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-345 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 9bab2ec8f0120129d6b283fc10c4e1a1. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..345 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637557_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 345 BP; 123 A; 69 C; 49 G; 104 T; 0 other; atacaatctc ccacatcatt cgaagtcatg actgctagat gccacacctc ccataataaa 60 tcatttattt tgtctaccat ctactgccca ccagggtata atgccaattt taatgatgat 120 ctattttcat atatgctaca aataatgtct ctaggtgata aattaattat tcaaggcgat 180 ctaaacatta gattagaaga tcacacaaac actaaagtaa gagaactttt acatgatatg 240 gaagcattag gctgcatctt acactgtaat ggacctactc atgagttagg acacacaatt 300 gatgcacagt tttccttaaa ttgtaaaagt gaacacatac agaat 345 // ID LE402559; SV 1; linear; mRNA; TSA; VRT; 232 BP. XX AC LE402559; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637568_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-232 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 5dea4c4805123fb180011c38f25436cb. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..232 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637568_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 232 BP; 69 A; 67 C; 35 G; 61 T; 0 other; ttcgctccac actcacgccc attaccatac ccaagccacc cttaactttg tgatctcagc 60 cagttaatag aaagggccac aactaaaccc aacccataat gccacgaaac ttcgcccata 120 ttttaagttg gttcgctctc cgcttggaga tcctaggatc cccttccaag acatcttttg 180 caaaatattt agcaagtttg aaaagctcaa atcaaaggat gctcatatgt tg 232 // ID LE402560; SV 1; linear; mRNA; TSA; VRT; 281 BP. XX AC LE402560; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637570_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-281 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 6d3411a579a3c3da7b78b2d751a35302. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..281 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637570_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 281 BP; 98 A; 47 C; 50 G; 86 T; 0 other; taagattaat aaggcaattg atctattgta gtataaggca aatgatggtg ctaaaaaatt 60 gctcctgtaa tttaaccaat aactagttcc tgttgatcat gccagaggat ttcgaaaaat 120 caacaaagtc ttatgatggt tccagtggtc ttgatcttac agtgctccaa aatatgctgg 180 agcttaacat taatcatact acaccaagct ctcacgtaga attttggcct aaagagaaaa 240 acttgacagt ttatcaccaa gaaaagtgct atgtatttta g 281 // ID LE402561; SV 1; linear; mRNA; TSA; VRT; 268 BP. XX AC LE402561; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637572_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-268 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 15a8d19eb4b8d26a5261940dc9fa7b32. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..268 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637572_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 268 BP; 79 A; 64 C; 60 G; 65 T; 0 other; tagagtaaag cacctttacc catttaataa agttgggacc aagcccgtag gcctcaagaa 60 aggcccaaag caaggaccag cttatggtat tgaatgcctt ggctacttcc aaaagacata 120 gcttcaccca accggtgttt gtgtggctat aaagaatcag tcaccatgga gagattgtcc 180 ctaacttcgt gtccctggat aaatgccgcc tggtgcgagt gaacaatttg ttatgctaat 240 cagggccaac ctcatgaaca gaactctg 268 // ID LE402562; SV 1; linear; mRNA; TSA; VRT; 232 BP. XX AC LE402562; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637585_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-232 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 69820782353e1b2c59616d10dda4bf93. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..232 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637585_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 232 BP; 64 A; 58 C; 67 G; 43 T; 0 other; aagaaacctt gcttgcacat tggcggcaag ggcaactgac acaaccagtg tctcacaccc 60 agggatcggg acttgggatc tagtgagaca cctcgagggc aagattaaag cagactgcga 120 ccccccctcc tctaccggaa gagcgatctg cccggaggat ggaatagttg gggggaggag 180 gtcattaatg gccacattca tgtgcgccag aaaccaggtt tctgttaaaa ag 232 // ID LE402563; SV 1; linear; mRNA; TSA; VRT; 326 BP. XX AC LE402563; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637589_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-326 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 57f5949236e9f55d59007ca0e4c1a689. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..326 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637589_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 326 BP; 83 A; 85 C; 92 G; 66 T; 0 other; gaagaggcaa ggagagtccc ctacaggttt cagagggacc agggcctgct aacactttga 60 ttttggactc tagcctccag aactgagaga caatacattt ctgttgtttt cagccaccca 120 agcttaggaa atgggttgca gcagactggg aataagacag gcagccaggc agcctccgtg 180 gaattcccag gcagcttgca ggagccacag tgggccctgg gctctgagaa ggtctgaggc 240 ccagcaggcg caggggccta aactatttct ctgcaaggag gaaggaaggt tcatccagaa 300 cgtagatccc cttcctcctt ctcaca 326 // ID LE402564; SV 1; linear; mRNA; TSA; VRT; 238 BP. XX AC LE402564; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637600_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-238 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 373f52e7947187157c5cb3dd20cd8976. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..238 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637600_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 238 BP; 45 A; 60 C; 56 G; 77 T; 0 other; ggacgctgga ggttggaaat caaggtgaag gcaaggccac actccctctg aagatgctag 60 ggatgagccc atcctggcct cttccagctt ctggtagctg tcagcattcc ttaacatttc 120 ttggctgtag ccacattact tcaatctctg cctatggctt tacattactg tctcctgtgt 180 gtatctgtgt cctccttgct gtcattgagc gtctgtgtct gtgttaatgt cctataag 238 // ID LE402565; SV 1; linear; mRNA; TSA; VRT; 262 BP. XX AC LE402565; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637603_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-262 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 7ef5468f1bf951b7263894967c410900. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..262 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637603_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 262 BP; 98 A; 51 C; 36 G; 77 T; 0 other; gggatactat tttatctaca ttatcctcac aagcaatcca gacaagacaa acattgatcg 60 cagcaaacaa aacatgcttt atgcatagct aagggagcac aatccattct ttatgcaaac 120 ttcatcacaa tttgtctaga aaacaatatt tattttacat agcagtttaa actgttcagt 180 accatgaaat gagattgcat ttcatgttgc aacgctgatg ccataaaagc aaatacgtta 240 ctgtatttaa atagtaaaac ac 262 // ID LE402566; SV 1; linear; mRNA; TSA; VRT; 204 BP. XX AC LE402566; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637617_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-204 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 1931aae8246a22f65e1c827485db3167. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..204 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637617_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 204 BP; 50 A; 58 C; 32 G; 64 T; 0 other; caacaacgca cctcaccttt tccctctccc ccaccccgtt ctttacctta attggaaggc 60 ttaatgttca cataccagct ttcccaggtc agatcctcaa tgttggctgt ttgcctgaag 120 tgcccatttt tattatttgg agaatagcta cttataacaa atattaccca tgaagcaatc 180 tctgaccttc taggcagagt tcgg 204 // ID LE402567; SV 1; linear; mRNA; TSA; VRT; 372 BP. XX AC LE402567; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637642_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-372 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; bfc3665a8de30b72699b13c9a25beae7. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..372 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637642_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 372 BP; 102 A; 67 C; 87 G; 116 T; 0 other; gaaaaataca agcactgaga gttaccatgt aactcctaat cgcagtagaa aatgagagtg 60 tggacatggt attgagccac agatctatta tggtgcaaaa cggttcatga aaaggggtgt 120 aaccatttct agtattcctg cttcccaact ttgtggcgac ttcttccaga ttactgtatt 180 gtgtgcacag tcatcatcag aaagttcttt cctttggagc gtaggttgtc gcttttggtc 240 ctcgaacatt gaatccagtc tggggtctca ggatcaccac aattcatatt tatgagctat 300 atttgcatac aatggattgg agtggggata atttgcatag tcattggtta tccggagaat 360 cttaattgag gg 372 // ID LE402568; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402568; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637646_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; f0ebe5dcb40736ee749540db15854705. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637646_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 68 A; 55 C; 62 G; 39 T; 0 other; gaaaaaggct ctccccctgc ccagacgata ttgtgtggga ttagatatag aggccagtga 60 gccactggaa tgcaagcaca caacccagaa tccccgattg cagggaaatg gcagaaagca 120 atgtgtacat gagaagaaat gttggtcact gcttcaccac cagctgagag tcgcttcgga 180 cggaatcgct cgtgtcgaag agccaacagg ggcctggaaa caca 224 // ID LE402569; SV 1; linear; mRNA; TSA; VRT; 283 BP. XX AC LE402569; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637647_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-283 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 03b5bff6908faa4294cdb05a0333ac50. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..283 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637647_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 283 BP; 90 A; 66 C; 52 G; 75 T; 0 other; agttaaatgt gttctcttat ctcactctgg gacaaatacg cccctacaac tatatttaaa 60 tattaattca cagcaccacc aggctataac tggtaattca gaattaaatg atgtccttaa 120 ataacaccct tgaacaggac accctagtaa caggaaataa atactaaaca cctttaatgg 180 ggaaaaatgg gtttggacca gtgacgtgca ataaggacaa ctgtctgtct ttaagggctt 240 tgctccaccc ccaggcgcat gcaggcggct ctgctactag tct 283 // ID LE402570; SV 1; linear; mRNA; TSA; VRT; 383 BP. XX AC LE402570; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637649_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-383 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 22ca573584a663891ab044c4b7b60543. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..383 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637649_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 383 BP; 118 A; 61 C; 115 G; 89 T; 0 other; tgatttaaac ctcctgtcat gtgattggct tctagttgac ggagtagtta gataagtata 60 tgatattcaa cctgacagta agtctttgca cagtggagga ggtcgtaaac aactgggaag 120 gggttgagac taatgataag ttggtgtcat tcactggcag gggtacaaca acaccagctg 180 acacatgctg atgggggcag ttagtagccc tcagaatctg agagaaaaat attaaatgag 240 aagcaagtgg ctctagcaca ggttggaggt ggaggcagat gtggacttga ggccgatggc 300 acacaatgag aactatgaag tggggcaaca ggaggggaat acctatcatg ttgagaaaag 360 taggaggaga ccctttaagc ctg 383 // ID LE402571; SV 1; linear; mRNA; TSA; VRT; 525 BP. XX AC LE402571; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637658_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-525 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 1dc0cba46cc8ff2a982755bbd0f62ab8. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..525 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637658_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 525 BP; 168 A; 86 C; 114 G; 157 T; 0 other; taagaaatgc cataacatat tttgaggtcg gcagagacaa tgacacatag ttaggaacat 60 ttagtcatgc ggttaagcaa aatgatgtat ttgcccaaaa atgccctcat atttatgaag 120 gcttggaatg gaagcaatag gagtggatta aaaataaaga acaggagttt tgacccagat 180 ataattggac ccctgggtct ttcactttcc tgcggtatca cattgggaac aagagcaggg 240 aaagacatta cttatacttc cagtttctct tttatacaat aggtgccaga ttaattatct 300 catggtattg ttgagaaaga gatgccatgt gtggccaaca cagttcctgc tacacagtag 360 gcatacagtc aatggcaggt ctctgttcat aattttatca tggttttggt tgaaaaattc 420 attgtgagtt taacttctgg ctttcagtgc taaataaata gtgcctcagt gataccacga 480 gaatcaaggt cagaaggaat tattttctag ggtactggat aataa 525 // ID LE402572; SV 1; linear; mRNA; TSA; VRT; 310 BP. XX AC LE402572; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637665_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-310 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 42be9dd8e7f35fa28d0de6653e124409. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..310 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637665_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 310 BP; 59 A; 111 C; 83 G; 57 T; 0 other; gttcgtaaaa cacatcttcg gagtattgtg aggcgcacca ctcgtgcaca tggcgcgagc 60 ccaatgcttc caacgggcag ctgcacaatg agacggtatc tgcacaaagg cggcccccag 120 gtgtcagtca cacgagtgta tcctcgtctc tcatcacggt atcctcgtcc cctgcacagg 180 ttaaaggctg ccccgcccgc tgtgtacagc agcgcggccg gcgtgcccct gtagctgcgt 240 cacacgctgc accgagctcc ccggcacacg tcactgcgcc gggagctctg ccgcaaacac 300 ccgtctctgc 310 // ID LE402573; SV 1; linear; mRNA; TSA; VRT; 222 BP. XX AC LE402573; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637668_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-222 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; f4feb23b41afcfd74f8091e3ce1753a4. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..222 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637668_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 222 BP; 64 A; 53 C; 45 G; 60 T; 0 other; gctcggtcta cattatatat acattatata tttatatttc tttttagcca attataactg 60 aaactatata agaatgaaag gcctgccatt ccaggctgct gcggaagttg agccaatgag 120 catcacccgc tcacaactct aagcgggcac agccaatcag tcagtggctc agcattctcc 180 tgcagggtct gctactatgg gacacgcttg agctaaaagg ca 222 // ID LE402574; SV 1; linear; mRNA; TSA; VRT; 333 BP. XX AC LE402574; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637669_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-333 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; aafbe321800617433185d95b9407ab3e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..333 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637669_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 333 BP; 104 A; 74 C; 37 G; 118 T; 0 other; ctggtgtaca aaatgcttcg atatacatat acatagtaaa atgattatta cagacaaatt 60 aaaatattca tcatcccaca tagttagcta tttttcatgg tgaaagtacc taaaatctac 120 cttcttagca aattttcagt atacagtgca atactattaa ctacagtctt gatgttatat 180 atcggctctc cagacttatt cattctgtat aactgtaact ttgtacactt tgaccaacat 240 cttctcattt gcccctcccc tcacaccctc acaacaccat ttgactctct acttttatga 300 gcttgactat tttagatttc acatataagt gag 333 // ID LE402575; SV 1; linear; mRNA; TSA; VRT; 359 BP. XX AC LE402575; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637674_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-359 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; f474b65e5bab5243cfd9af8d2aa7782b. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..359 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637674_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 359 BP; 87 A; 75 C; 90 G; 107 T; 0 other; agttggttcc acaccttggc tcccctcttg tagtttatag agaacctacg tttgtgtaaa 60 gttgtcagta ctcactgtat actccttgta tgtctgtttt ggactaccct tttataaaag 120 tcagtcgtcc aaagtatggg tgcacatgga ctgatgtctt gagtgagtgt tcacacttgt 180 aatgagcctt tacgaccaag acaacttctg ggctacttgc atctcttgtt aggacccaca 240 caacgctgct ctaccactga ggaaggctct atcagtggag gagttaggag aaagcccaag 300 tttttagtct ctttcagaag agactaaaga tgggagtggt cctgactgag gggggaggg 359 // ID LE402576; SV 1; linear; mRNA; TSA; VRT; 354 BP. XX AC LE402576; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637681_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-354 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; f95766707b0277842709227191fbc52e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..354 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637681_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 354 BP; 100 A; 81 C; 74 G; 99 T; 0 other; gtgtcaccct gaaaaaagaa aagcgcaaca aattaattcg ggtaaaaaga gcccgattag 60 agatgtcgca gaactgcacc tttttaaaat gcagggaatt tcacatacaa ttagacatcc 120 tttcgccgct cactgtttaa ccacagagac tgctcgccat ccccagctat ttctgtccca 180 ttctgtctcc ctgtatctgg taaggcagct cagtgggtta ccaagtctac tgcagaaatc 240 tgtacaatgt gaaccgcagg tttgaatctg gtgggttgac tcgacctgta actcttccaa 300 agtcagtaaa aatgaggacc agttgggtgt gtttttatat atccttgatt gcat 354 // ID LE402577; SV 1; linear; mRNA; TSA; VRT; 364 BP. XX AC LE402577; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637696_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-364 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 50f32f204c8b786dc4bcd7c3d796e97e. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..364 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637696_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 364 BP; 108 A; 75 C; 83 G; 98 T; 0 other; tttttttttt tttttttact gaagcagcct tgttaatttt taccagcagc aatcaatccc 60 ataaggcccc gcagcagtga tggccaaggt aaatagatcc tgtcaaatct tctccaaggt 120 atacagcatg gcactaactg ggctggtaag gcagatctgt cttgtaactg acagacgaca 180 cacaacttga gctactacat atttctagaa agctgaggaa tggtcataaa tatgctttaa 240 acttgtggat tttggaagcc ctaaagaggc cccgaaaata ccacacagcc atttaccagt 300 agatggcggg ggctggaggt ggagttagtg ttagggtccc aacgatggca agatactaca 360 aaag 364 // ID LE402578; SV 1; linear; mRNA; TSA; VRT; 320 BP. XX AC LE402578; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637698_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-320 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; a38af650f292fbabbe1713c13978757d. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..320 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637698_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 320 BP; 84 A; 80 C; 59 G; 97 T; 0 other; tgtaacaaaa tatcacagac tgggatagaa caggaattta ttatctcacg gttctggaag 60 tcagaagtcc gaaatcacag tgtcacaggg ctgtgctccc tacttaggct ccaggcaagg 120 ttcttctttg ctttcctgct tccagtagct ccaagcttgg ctcgtggctc tgatctctgc 180 ctccagcctc ccatagcctt ctcctctgtg tgtgtctctc cttttctgtc tcttacaagg 240 actgagtact caaacttata tctaacaaag tactggtatc aaaaatgtaa aaattactcc 300 tgcaattcaa taataagaag 320 // ID LE402579; SV 1; linear; mRNA; TSA; VRT; 248 BP. XX AC LE402579; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637699_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-248 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 1b20520f1b116bfa8dfb00780d29718f. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..248 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637699_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 248 BP; 54 A; 51 C; 64 G; 79 T; 0 other; aaatgtactc actcactcac atagcagatg gtgtaactgg cgtgctggat agcggatagt 60 ctgttttgat gatcttgcta gctatctcag ctttttcaac actatcaagg ggggtttaga 120 tgggatcatc atggtttggt tttcttcttt cctttcctta aagatagggg gcaatttgcg 180 tcccttatat gagccaggtc ggcaacagcc ccactatggt gtggagtacc ccagggatct 240 attgtggg 248 // ID LE402580; SV 1; linear; mRNA; TSA; VRT; 371 BP. XX AC LE402580; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637717_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-371 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 79d902a0c102d176a8635aee9b779114. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..371 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637717_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 371 BP; 110 A; 66 C; 106 G; 89 T; 0 other; caggggtgtt actaccgact gtttcaaaac cggggaacgt gctcggaaac aaaacaaatc 60 aatgatctct gattgatctg tttgatctct gcaataaggg gagcaaggat ggagatttgc 120 gattttatca gagaggcagg atactggtat aatggtgagg aggaggcaga gacaaggctg 180 gagaccagct cagtggagat gctttagagt ccctcagttg gataaaaggg cagctagcca 240 caaccttggg tctaggatca gagatggcaa taatatttcc ggataccttg caccttattg 300 tcaaaatatt cagcaaggtc ttgcaacgtt gggtcgaaaa cccagtgagt gcttggatac 360 agataggtga g 371 // ID LE402581; SV 1; linear; mRNA; TSA; VRT; 225 BP. XX AC LE402581; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637732_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-225 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 88d63e343ff702b2c9dbec1d88b6c470. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..225 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637732_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 225 BP; 71 A; 41 C; 56 G; 57 T; 0 other; ctgataccag gatagaatgg tgagttcttt gtctttgtct tactcatctc cgaatgcctc 60 ccccaccagt gctcaagtac ctgcctggca tggagtagat acaacagtta agatgtttga 120 atacattatt gaagacaaat gagtaagaag ttggcagaag gaagtagagg agaagagatc 180 cttggaatac aaagggctca tccaggacta agactgtggt taaag 225 // ID LE402582; SV 1; linear; mRNA; TSA; VRT; 232 BP. XX AC LE402582; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637755_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-232 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 54d788193a06a51d48f9a22b89c8a52d. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..232 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637755_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 232 BP; 77 A; 56 C; 15 G; 84 T; 0 other; caatctttta aaacaaatta tatcaaatga ctcgattgac aatgcaagta aaatacacag 60 ctgatccatt caccttctta ccaatctagc tacagtctga ccttactata cattatgttc 120 ttcctttcca aaacgtcatt tcacattctc ttccaattca ataatttctt acttcatttg 180 acttctcctt tcaaacatta atcccaatta tataatcatt tcaaaatgtc ag 232 // ID LE402583; SV 1; linear; mRNA; TSA; VRT; 224 BP. XX AC LE402583; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637756_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-224 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 7de5fd3be2d220e1f3cfc5d4b8c5c2d9. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..224 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637756_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 224 BP; 72 A; 40 C; 41 G; 71 T; 0 other; atattttagt ttcaggccta ctgtttgatt gatgtgtcag tgagaaatga atgactaggt 60 ggcatgcagt gaaagaatcc cagaaaggtt gtaatccaca ccctggataa tcacaggcaa 120 ttcgtggaaa gttggataaa atgctagctc aaaaatattt attgaatttt agaaaataac 180 cctaccataa ttacttgctt tcctctttgc acttactacc ttca 224 // ID LE402584; SV 1; linear; mRNA; TSA; VRT; 283 BP. XX AC LE402584; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637780_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-283 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; efc3bd9fc1eeb9b0ff9d6167dc4ff28b. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..283 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637780_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 283 BP; 111 A; 49 C; 48 G; 75 T; 0 other; ggctcacttt caaaaatcct cgccaaaaaa tgatttaaag caaatagttc ccttacaatt 60 gacaggttac tttaatagtg actcgggtac agcacaggca caggtaactc catttaaatt 120 taagaaaata tcatcatgcg aagttaagga tagcgaagaa aaagttgagc tcttaaatcc 180 tgaaattagt gacgagatga taagagagtt ctttgacaaa ttgtcccccc agaccctatt 240 actgtatata gaaaagctat aaaagatata gaaaaaaata ttc 283 // ID LE402585; SV 1; linear; mRNA; TSA; VRT; 264 BP. XX AC LE402585; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637788_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-264 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 053360ab9ccebf6127b78a59aec2079c. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experiment and sampled tissues from the CC brain and from those body parts that were changed drastically in CC the experiment (tadpole experiment, head excluding the brain; CC dragonfly experiment, gills and tail). We pooled the sampled CC tissues from 2-5 individuals. CC ##Assembly-Data-START## CC Assembly Method :: Trinity v. 2013-2-25 CC Sequencing Technology :: Hiseq2000 CC ##Assembly-Data-END## XX XX FH Key Location/Qualifiers FH FT source 1..264 FT /organism="Hynobius retardatus" FT /mol_type="mRNA" FT /country="Japan" FT /dev_stage="larvae" FT /tissue_type="mixture of brain, gill, head, tail" FT /note="contig: comp4637788_c0_seq1" FT /db_xref="taxon:36312" XX SQ Sequence 264 BP; 66 A; 71 C; 59 G; 68 T; 0 other; gttgagccac cgcagctccc atagcacgcc atttttccat aaattgtttg gcttctttga 60 cctcggagaa cagatctgtt ttgtctccca gggaaaccct caatcttgcc agatactaga 120 ccggggcttg cacttccgaa aggaactggt gaataaggaa tgccaacatt gccaccctct 180 tcccctgtga ggacggtcca aggtccggaa aaatctgaat tctgaccctt gtatgacaaa 240 aggcattttt tcagagccag gtcg 264 // ID LE402586; SV 1; linear; mRNA; TSA; VRT; 339 BP. XX AC LE402586; XX PR Project:PRJDB2409; XX DT 14-MAY-2015 (Rel. 124, Created) DT 21-MAY-2015 (Rel. 124, Last updated, Version 2) XX DE TSA: Hynobius retardatus mRNA, contig: comp4637792_c0_seq1, mRNA sequence. XX KW Transcriptome Shotgun Assembly; TSA. XX OS Hynobius retardatus (Hokkaido salamander) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; OC Batrachia; Caudata; Cryptobranchoidea; Hynobiidae; Hynobius; Satobius. XX RN [1] RC DOI:10.1111/mec.13228 Publication Status: Available-Online prior to print RX DOI; 10.1111/mec.13228. RX PUBMED; 25943778. RA Matsunami M., Kitano J., Kishida O., Michimae H., Miura T., Nishimura K.; RT "Transcriptome analysis of predator- and prey-induced phenotypic plasticity RT in the Hokkaido salamander (Hynobius retardatus)"; RL Mol. Ecol. 24(12):3064-3076(2015). XX RN [2] RP 1-339 RA Matsunami M.; RT ; RL Submitted (22-APR-2015) to the INSDC. RL Contact:Masatoshi Matsunami Hokkaido University, Graduate School of RL Environmental Science; N10W5, Kita-ku, Sapporo, Hokkaido 060-0810, Japan XX DR MD5; 3e3b10006b6b3ee5c04ba1604777eef3. DR ENA; DRR016729. DR ENA; DRR016730. DR ENA; DRR016731. DR ENA; DRR016732. DR ENA; DRR016733. DR ENA; DRR016734. DR ENA; DRR016735. DR ENA; DRR016736. DR ENA; DRR016737. DR ENA; DRR016738. DR ENA; DRR016739. DR ENA; DRR016740. DR ENA; DRR016741. DR ENA; DRR016742. DR ENA; DRR016743. DR ENA; DRR016744. DR ENA; DRR016745. DR ENA; DRR016746. DR ENA; DRR016747. DR ENA; DRR016748. DR ENA; DRR016749. DR ENA; DRR016750. DR ENA; DRR016751. DR ENA; DRR016752. DR ENA; DRR016753. DR ENA; DRR016754. DR ENA; DRR016755. DR ENA; DRR016756. DR ENA; DRR016757. DR ENA; DRR016758. DR ENA; DRR016759. DR ENA; DRR016760. DR ENA; DRR016761. DR ENA; DRR016762. DR ENA; DRR016763. DR ENA; DRR016764. DR ENA; DRR016765. DR ENA; DRR016766. DR ENA; DRR016767. DR ENA; DRR016768. DR ENA; DRR016769. DR ENA; DRR016770. DR ENA; DRR016771. DR ENA; DRR016772. DR ENA; DRR016773. DR ENA; DRR016774. DR ENA; DRR016775. DR ENA; DRR016776. DR ENA; DRR016777. DR ENA; DRR016778. DR ENA; DRR016779. DR ENA; DRR016780. DR ENA; DRR016781. DR ENA; DRR016782. DR ENA; DRR016783. DR ENA; DRR016784. DR ENA; DRR016785. DR ENA; DRR016786. DR ENA; DRR016787. DR ENA; DRR016788. DR ENA; DRR016789. DR ENA; DRR016790. DR ENA; DRR016791. DR ENA; DRR016792. DR ENA; DRR016793. DR ENA; DRR016794. DR ENA; DRR016795. DR ENA; DRR016796. DR ENA; DRR016797. DR ENA; DRR016798. DR ENA; DRR016799. DR ENA; DRR016800. DR BioSample; SAMD00010994. DR BioSample; SAMD00010995. DR BioSample; SAMD00010996. DR BioSample; SAMD00010997. DR BioSample; SAMD00010998. DR BioSample; SAMD00010999. DR BioSample; SAMD00011000. DR BioSample; SAMD00011001. DR BioSample; SAMD00011002. DR BioSample; SAMD00011003. DR BioSample; SAMD00011004. DR BioSample; SAMD00011005. DR BioSample; SAMD00011006. DR BioSample; SAMD00011007. DR BioSample; SAMD00011008. DR BioSample; SAMD00011009. DR BioSample; SAMD00011010. DR BioSample; SAMD00011011. DR BioSample; SAMD00011012. DR BioSample; SAMD00011013. DR BioSample; SAMD00011014. DR BioSample; SAMD00011015. DR BioSample; SAMD00011016. DR BioSample; SAMD00011017. DR BioSample; SAMD00011018. DR BioSample; SAMD00011019. DR BioSample; SAMD00011020. DR BioSample; SAMD00011021. DR BioSample; SAMD00011022. DR BioSample; SAMD00011023. DR BioSample; SAMD00011024. DR BioSample; SAMD00011025. DR BioSample; SAMD00011026. DR BioSample; SAMD00011027. DR BioSample; SAMD00011028. DR BioSample; SAMD00011029. DR BioSample; SAMD00011030. DR BioSample; SAMD00011031. DR BioSample; SAMD00011032. DR BioSample; SAMD00011033. DR BioSample; SAMD00011034. DR BioSample; SAMD00011035. DR BioSample; SAMD00011036. DR BioSample; SAMD00011037. DR BioSample; SAMD00011038. DR BioSample; SAMD00011039. DR BioSample; SAMD00011040. DR BioSample; SAMD00011041. DR BioSample; SAMD00011042. DR BioSample; SAMD00011043. DR BioSample; SAMD00011044. DR BioSample; SAMD00011045. DR BioSample; SAMD00011046. DR BioSample; SAMD00011047. DR BioSample; SAMD00011048. DR BioSample; SAMD00011049. DR BioSample; SAMD00011050. DR BioSample; SAMD00011051. DR BioSample; SAMD00011052. DR BioSample; SAMD00011053. DR BioSample; SAMD00011054. DR BioSample; SAMD00011055. DR BioSample; SAMD00011056. DR BioSample; SAMD00011057. DR BioSample; SAMD00011058. DR BioSample; SAMD00011059. DR BioSample; SAMD00011060. DR BioSample; SAMD00011061. DR BioSample; SAMD00011062. DR BioSample; SAMD00011063. DR BioSample; SAMD00011064. DR BioSample; SAMD00011065. XX CC We carried out two different experiments, a tadpole experiment and CC a dragonfly experiment, each consisting of a treatment group and a CC control group. In the tadpole experiment, 7-day-old salamander CC hatchlings were individually assigned to plastic enclosures CC containing 10 small tadpoles as inducers (i.e., tadpole-exposure CC treatments) or to enclosures without tadpoles (i.e., tadpole CC controls). CC In the dragonfly experiment, the sides of plastic enclosures were CC perforated with small holes and the 10 enclosures were put into CC tanks containing 2 L of aged tap water. Thus, all enclosures in the CC same tank shared the same water. We assigned a 7-day-old salamander CC larva to each of nine enclosures in every tank. In the CC dragonfly-exposure treatment, a dragonfly nymph was placed in the CC remaining enclosure. In the dragonfly control treatment, the tenth CC enclosure was left empty. CC We collected tissue samples for the transcriptome analysis at three CC census time points (0 h, 12 h, and 7 days). We dissected the CC salamander larvae from each experimen