Fish Transcriptome and Expression Database

XLOC_002505

Basic Information

Item	Value
gene id	XLOC_002505
gene name	NA
gene type	non-coding
species	zebrafish (Danio rerio)
category of species	model fish

Chromosome Information

Item	Value
chromosome id	NC_007121.7
NCBI id	CM002894.2
chromosome length	45420867
location	1669144 ~ 1718637 (-)
genome version	GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00005971
CACGCCCCCGCCCACCGTCGGGTAATCATCGGTCTGTCTGAACCGAACTGCAGTGCAGAGCCGGAATGGGGGGCTTGGCCCCGGTCCAGCACGGTCAAAATTAGCTCTCTGTTGAATTACATGCAGTCAGCCAGTGGAAGCGGCTGAGCTCCAGTCCGGCAGCCTTGTATGGGGAGTCCAAACCCCGCAAGGCTGCCGCTCGGCTCCGCGTTCGTCCACAGACGCCTTTTCCAGCAGCAACTTTACAGCGACAGGACAAGAACAAAGGCTTCACCAGTCCCGTTTTCAGGATGACGTCGACTGGAGCAATGGGGGATCCCATTAGAGTCGACAGCTGTGTTCCTGAACCCGCCGGAGCACAGAGGAACGTCCACCAGACATCCACATTCCCTCTGTCTGATGCTGGATAAAGAACGGCCCTCAGGAGGGGGGGGAAGCGTATTCTCCgtgtatattgttttttatttcctaaaatcATGTATATCCTTATTTTGTATGGTTCTGgcgtgcggtacaggtgaaatatGATGCTGGGGCTCTTCCCTCATCTATGTGATTAATAACATTTAGACAAAACCTGGGACTCTAAGCCTTGATGATATGCTCTTCAGAGGGAACGGCAGTAAAGACACAAAAGCACCTCAAGACAGACCTGACAGACTGGAGCTTCACATGTCTGTGTTTGCAAACTGCGGGGGTCCGGGACCCTCGTGGCGGCGGCAGCAGCACGTCTTCCACTTGTCCACTTCTACTTTGCACGGCTGGACTCTTTCATACCTCtgtgaaaaaacacaaaacaaaaaaaataataatcatccaCCGGTGTTTAACAGTGTTCATGCGGTAATGATGCGATGTGGGAAACTCGAGCAGTGTTTTCTTTAGGAGGCCGATTCCAGTGTCAGGGTTCCCATAGAAATGTTAATCGATtcttaaaatgagcatttatagATCTGGTATGGTCACGGAATTTATTAGATTTGCATAAGGAGTCATGAAAAGTGCACTTGATTGGGAGCTTTTCTTTCTGAGTTTGTGCTGCTCTCAGTTATTTAATCAGCGTGACGCTAGATTTgtttcaaatacaaaaaaaaattgtattaaatcaaTGCCGAAGTCCACGTGAATTAGAAAGTAGAAGTACAGAAACTTTCATCTCAGTGTGTTGATgcatttccaactgaaactgaatatggAGTAGGGGGTGGAGCTTTATTTCAGAATGTTGATGTAcctccaactgaaatggaatatagagtggggggcggggctttatttcattgtgttgatgtacttccaactgaaatggaatattgagtagggggtggagcTTTATTTCATTGTGTATATGAACTTtcaactgaaattgaatattgagtagggggcgtgGCTTTATTTCAttgtgttgatgtactttcaattGAAATGGagtattaagtagggggcggggctttgttTCAGAACGTACTTCCAATTGAAATGGAGTATTGAGCAGGTGGTGGAcctttatttcagtgtgttgatgtactttcaacggaaatggaatattaagtagggggcggagCTTTATTTCAGAATGTACTTCCAATTGAAATGGAGTATTGAGTTGGGGgcggggctttatttcagtgtgttgatgtactt
>TCONS_00005972
CCTCACACGCCCCCGCCCACCGTCGGGTAATCATCGGTCTGTCTGAACCGAACTGCAGTGCAGAGCCGGAATGGGGGGCTTGGCCCCGGTCCAGCACGGTCAAAATTAGCTCTCTGTTGAATTACATGCAGTCAGCCAGTGGAAGCGGCTGAGCTCCAGTCCGGCAGCCTTGTATGGGGAGTCCAAACCCCGCAAGGCTGCCGCTCGGCTCCGCGTTCGTCCACAGACGCCTTTTCCAGCAGCAACTTTACAGCGACAGGACAAGAACAAAGGCTTCACCAGTCCCGTTTTCAGGATGACGTCGACTGGAGCAATGGGGGATCCCATTAGAGTCGACAGCTGTGTTCCTGAACCCGCCGGAGCACAGAGGAACGTCCACCAGACATCCACATTCCCTCTGTCTGATGCTGGATAAAGAACGGCCCTCAGGAGGGGGGGGAAGCGTATTCTCCgtgtatattgttttttatttcctaaaatcATGTATATCCTTATTTTGTATGGTTCTGgcgtgcggtacaggtgaaatatGATGCTGGGGCTCTTCCCTCATCTATGTGATTAATAACATTTAGACAAAACCTGGGACTCTAAGCCTTGATGATATGCTCTTCAGAGGGAACGGCAGTAAAGACACAAAAGCACCTCAAGACAGACCTGACAGACTGGAGCTTCACATGTCTGTGTTTGCAAACTGCGGGGGTCCGGGACCCTCGTGGCGGCGGCAGCAGCACGTCTTCCACTTGTCCACTTCTACTTTGCACGGCTGGACTCTTTCATACCTCtgtgaaaaaacacaaaacaaaaaaaataataatcatccaCCGGTGTTTAACAGTGTTCATGCGGTAATGATGCGATGTGGGAAACTCGAGCAGTGTTTTCTTTAGGAGGCCGATTCCAGTGTCAGGGTTCCCATAGAAATGTTAATCGATtcttaaaatgagcatttatagATCTGGTATGGTCACGGAATTTATTAGATTTGCATAAGGAGTCATGAAAAGTGCACTTGATTGGGAGCTTTTCTTTCTGAGTTTGTGCTGCTCTCAGTTATTTAATCAGCGTGACGCTAGATTTgtttcaaatacaaaaaaaaattgtattaaatcaaTGCCGAAGTCCACGTGAATTAGAAAGTAGAAGTACAGAAACTTTCATCTCAGTGTGTTGATgcatttccaactgaaactgaatatggAGTAGGGGGTGGAGCTTTATTTCAGAATGTTGATGTAcctccaactgaaatggaatatagagtggggggcggggctttatttcattgtgttgatgtacttccaactgaaatggaatattgagtagggggtggagcTTTATTTCATTGTGTATATGAACTTtcaactgaaattgaatattgagtagggggcgtgGCTTTATTTCAttgtgttgatgtactttcaattGAAATGGagtattaagtagggggcggggctttgttTCAGAACGTACTTCCAATTGAAATGGAGTATTGAGCAGGTGgcggggctttatttcagtgtgttgatgtactt
>TCONS_00005974
tagttattttgatagaatatttattgtaatattaatttggtGATTTTTGGGGGCATATaccttatttttacatcccaatgttgacagatatGAACTCACCCAAACACTGATCATGTCAgaattaaatttttgggtgaactatccctttaaaaaagtcGATTTCCGCGGACTTGGCAACCCTGAATCCGACGCCCGCACGCAGAAGGGGAGGAGCCTCACACGCCCCCGCCCACCGTCGGGTAATCATCGGTCTGTCTGAACCGAACTGCAGTGCAGAGCCGGAATGGGGGGCTTGGCCCCGGTCCAGCACGGTCAAAATTAGCTCTCTGTTGAATTACATGCAGTCAGCCAGTGGAAGCGGCTGAGCTCCAGTCCGGCAGCCTTGTATGGGGAGTCCAAACCCCGCAAGGCTGCCGCTCGGCTCCGCGTTCGTCCACAGACGCCTTTTCCAGCAGCAACTTTACAGCGACAGGACAAGAACAAAGGCTTCACCAGTCCCGTTTTCAGGATGACGTCGACTGGAGCAATGGGGGATCCCATTAGAGTCGACAGCTGTGTTCCTGAACCCGCCGGAGCACAGAGGAACGTCCACCAGACATCCACATTCCCTCTGTCTGATGCTGGATAAAGAACGGCCCTCAGGAGGGGGGGGAAGCGTATTCTCCgtgtatattgttttttatttcctaaaatcATGTATATCCTTATTTTGTATGGTTCTGgcgtgcggtacaggtgaaatatGATGCTGGGGCTCTTCCCTCATCTATGTGATTAATAACATTTAGACAAAACCTGGGACTCTAAGCCTTGATGATATGCTCTTCAGAGGGAACGGCAGTAAAGACACAAAAGCACCTCAAGACAGACCTGACAGACTGGAGCTTCACATGTCTGTGTTTGCAAACTGCGGGGGTCCGGGACCCTCGTGGCGGCGGCAGCAGCACGTCTTCCACTTGTCCACTTCTACTTTGCACGGCTGGACTCTTTCATACCTCtgtgaaaaaacacaaaacaaaaaaaataataatcatccaCCGGTGTTTAACAGTGTTCATGCGGTAATGATGCGATGTGGGAAACTCGAGCAGTGTTTTCTTTAGGAGGCCGATTCCAGTGTCAGGGTTCCCATAGAAATGTTAATCGATtcttaaaatgagcatttatagATCTGGTATGGTCACGGAATTTATTAGATTTGCATAAGGAGTCATGAAAAGTGCACTTGATTGGGAGCTTTTCTTTCTGAGTTTGTGCTGCTCTCAGTTATTTAATCAGCGTGACGCTAGATTTgtttcaaatacaaaaaaaaattgtattaaatcaaTGCCGAAGTCCACGTGAATTAGAAAGTAGAAGTACAGAAACTTTCATCTCAGTGTGTTGATgcatttccaactgaaactgaatatggAGTAGGGGGTGGAGCTTTATTTCAGAATGTTGATGTAcctccaactgaaatggaatatagagtggggggcggggctttatttcattgtgttgatgtacttccaactgaaatggaatattgagtagggggtggagcTTTATTTCATTGTGTATATGAACTTtcaactgaaattgaatattgagtagggggcgtgGCTTTATTTCAttgtgttgatgtactttcaattGAAATGGagtattaagtagggggcggggctttgttTCAGAACGTACTTCCAATTGAAATGGAGTATTGAGCAGggggcggagCTTTATTTCAGAATGTACTTCCAATTGAAATGGAGTATTGAGTTGGGGGCGGAGCTTTATTTCagaatgttgatgtacttccaactgaaatggaatattgagtagggggcggggcttcatttcagaatgttgatgtacttccaactgaaatggaatatagagtagggggcggggcttcaTTTTTGCATACAAttcccttgtagcaaactaacTCTAAAAGAGATGTGGCTAAGAATTTCATTTCTGAAGCGTcaaagcatacctgccaacattcccGTTTTCCCCGGTAGTCTccagtatttcagacccatctcccgtattgttctgtctccccGAAATAGACCCCCTCACCTCCCCCCAccacaaatgttggcaggtatgcgtCAAAGTGATGTCAACAAAAGAACCGCCAATCAAaacgcagaagcaaatggtcagatattgcgatactggaattcaatacctgtactgatattttaaaaatgttgaccttaaacagtgctgatgatcttaaacagtgctgatgaTCTTAagcagtgctgatttgccattgtgttcatgtacTCAACAGaattgactgtgattggccatgacggtcatcagttcaccaaactcaccgctgtttactgagtgatcttcatggctttaaaatgctccagtgttcaTATTTATGTTTACAGCGGTGagttggtgaactgatgaccttcaggaccaatcacagtcatttctgctcAACAGCGCTCGAATTAAATAGACGTTTTAAAATTCCATTAATGATCGTTATTGAATTCTAGTATAATGACAACACTACGATCagaaaacaaacagtttttttattgcacacctaggaaaataaacaaattaaatttccatttcacacagactttaagttCTGTGGGAACCCTGCAGTATtgaatgttgtttttgttgccaTTTTTGTTTAGTTGAAATCTCTAAGAAGTATTTGAAATCAAAACTCGCACCTTAATGTTAATTGATCATGTGGTTATCGACTGGTGACCATTACCAAGTCATTGCCAAACATGGTGGTCTTTCACTACCAAATAAGGCACACTGACTCAAGCACTTTGAGGTCCCTCCTAGATCCTCCATTCTTACGTCGTTTTCATCACTAAAACACATCGCCATCAGTCAAAACTCACACCTTACAGTATTTACTAAGGCTAAGAGTCCCCACTTCTCATGCGGTTACTAAAAACTTAAAGCTACAGAGTTCATCTTTTTTCGATTGGTTGATTTTTGTAGGTTTTCGCTTCAGTTTAGCTTTTTAATTTTGATCGTTTTTGTTTGCTTTGCCAGTATATTAAAGTGTAATCATGTACGTTGTGCTATAGAAATAGCTGTACAGACGCATTGTTTCCTTGTGGTAAGTGACTGAGATGCTGCCACGGATTTGAGACACTGATGAATGGTGCTATTTTGGACTTTAATCTGCTCCTTGGTAAGGAAGCTCAGAtgggttttgttttatattttcatgTTCGGAAAAGGAGGTTGTTGGTTCTTTGTTGTCTGGTTGTCGTAATTCGGATCGGATCGACTTTATTCCCCccttgttgtttctgtgtggctTTCTCATTGGACAGACAAAAACTGATTTGTTGAAGAGTTGGCGTTTCGTTTTCGTTtctttactttaaattaaaaaaaaagacaaagggtaacactttacagttgggttgcattagttaatgctaaTTTACTAACACGAACAAACAGCAGTCAATgcgttacagtatttattaattagttaaagtCGTTCATTGTTGGCTCTTGTTAACTAGCAGTATATTAACTAAAAGTGAAAGTTGAACTAATAttgaaggtgctgtatgtacgtttttgactcttttaaagcgtaaaaataccttaatatgtttgcagatatttaaggtgcttttacacctgttaatcgattcatttgttccgaaacagggattaaaagcgtcacattgttgctctttgttcttagTGCGGTTCattttcacacggcaaagtttttAAACGAACCCAAATAGCTAAAACAGCTAAAACTCGCAATTTCCAtgagattatcacttgtttgcgggtATCCGGGGGTCTCTGCATTTGTGGGAGACTAACGGAaattccaggagacttgggatgtctggaatgacctcccgccctactcataactctctcttcatatagccatatgcctCTTACAAATCCATAAaccactgtgatatagccgggcttgAATCGTATCACTTTCTCACAACAATCAATCCACTCcggagttcgtttcaatcgagctgagacctCCTCATTCAGGCGATTGTTTAGGCGCGGATCCAAGCGCagttgctggattcacatatcacaaacgaaccgcgctaacagGGCAAACGAGACtaatctaggtgtgaaagcaccctaagaaacaTGATTAGCTTTGGAAATGTGCGTTACGTGGTGGAACGTCTGCCTTCGTTTTGGTTGATttacccgcccaatgccagtttagccaattatatttcagcagcccGGGTTACCTtgatggaaaacagcatatttcgtTCATTCAGTCATCAGGGCTTAAATACAACCTCCGATGGACACTAAACTCTCGgaaatgagaagcagattcagGGTTCCACTTGAGGTTATTTATTAGCGTTAATATAGTTATtacaaaagtaaacattaaatcagcaggttacattgtaaccccgttcCCTAACAACAGGCAATTTGGCGGTTTTCACCAGATAAAACATtgtagaaacatttaaatacagctattcagaagcacagaatagtgcactcgctGCACTCCAACGAGATAGCAAGGTTTATAATCGAATGAATACATATTAATCCTTTAACATTACTATATGTAGATGCTGAATGATTGAAGTTTGTTAACTAGGCTTGCACTGAGTGTCAAACGTACACACTGCACCTTCATTAAATACTGTAACACTAGTATTGATCATGAGTAAATCCATTACCTAATGAAAACTGTAAATTGTGACCCAAACGTTTTCCTCAAAGATGATTATTTGCGAAACTCAGAAATCCAAGACGGTCGGAGCAATCACAAAACTGCAATTAATAACACTATTTACCCTTTAATCTAAAGGTTTAATTCAAGGAGTAGTTACAGTTCCTGGCACTAGTCACTTCGGGATTTAGCGAACTCGGTCTATAGTAGATCTCATGCATACAAAAGCGGGAGCGAAGTTCATGATTTTCGTTCCTTAAATACATCGAGGACGCTTTCAGATACATGAAACATCGCTGCAAAAACACGAAGGACGTCTGTGATTGCTGTTGTATTCCGCTGCGCACGGCCCCAGAGCGACGGCGGTCTATGTAGTGTATATAAACCAGGGCAGATTTCTCATCAGCTGTTTCCTACACCAGCTGGGAATGTCTTAAtacgcattaaaaaaaagaaacaatcatCCGTTTAGCGACACCGGGTCCTCCGATGTATTTTCTACCGCAAAAAAATGTAGCATCGAAGAATAAAcaaaccattgacatctatagcaACTGGTTTTCTAAACGAGTTAAACGCCTAAAGCGctctgtttattgtttatttgttcgttTAATTTAAGTAGCATGATATCGTCACTTGGTATTTGCAGTTTTGTCTTTGCTTCCAGTTCACATTTAACAGTCCTAATTCAAAGACCAACTGGAAAGCCCACATTAGTTTCGTAGTCTtccatttattgtttatttccacTACAATGGGAACCGTCCCAGCTTGCTCTAGTCTTTCCTTAGTGCTTTACGGCATATCGACTGCATGCTCTCGGCTCTTCCTTCTTTCTCTTTTTGGTTTCTGATCTGAATAATTCtccttgcgttttttttttttttttcctccatagATTAGGTATTGCCTACTGTGTTGTAAATAGCCAGTGAATAGCTTTTAGTATGTTGAATTATTCTGTAACAATTGTGTATGATTGGTGTACAACACATGAAGTCCGGCCTGGTCATCTATATGAAGATGTACTGGTGGTTCATGTCATTTTTGCAACTTATGCTGTAGTTGAATAAATATGCATGCTCATCGCTATTCTTGGTGGTGTTtattttggttg
>TCONS_00004680
ATCATCGGTCTGTCTGAACCGAACTGCAGTGCAGAGCCGGAATGGGGGGCTTGGCCCCGGTCCAGCACGGTCAAAATTAGCTCTCTGTTGAATTACATGCAGTCAGCCAGTGGAAGCGGCTGAGCTCCAGTCCGGCAGCCTTGTATGGGGAGTCCAAACCCCGCAAGGCTGCCGCTCGGCTCCGCGTTCGTCCACAGACGCCTTTTCCAGCAGCAACTTTACAGCGACAGGACAAGAACAAAGGCTTCACCAGTCCCGTTTTCAGGATGACGTCGACTGGAGCAATGGGGGATCCCATTAGAGTCGACAGCTGTGTTCCTGAACCCGCCGGAGCACAGAGGAACGTCCACCAGACATCCACATTCCCTCTGTCTGATGCTGGATAAAGAACGGCCCTCAGGAGGGGGGGGAAGCGTATTCTCCgtgtatattgttttttatttcctaaaatcATGTATATCCTTATTTTGTATGGTTCTGgcgtgcggtacaggtgaaatatGATGCTGGGGCTCTTCCCTCATCTATGTGATTAATAACATTTAGACAAAACCTGGGACTCTAAGCCTTGATGATATGCTCTTCAGAGGGAACGGCAGTAAAGACACAAAAGCACCTCAAGACAGACCTGACAGACTGGAGCTTCACATGTCTGTGTTTGCAAACTGCGGGGGTCCGGGACCCTCGTGGCGGCGGCAGCAGCACGTCTTCCACTTGTCCACTTCTACTTTGCACGGCTGGACTCTTTCATACCTCtgtgaaaaaacacaaaacaaaaaaaataataatcatccaCCGGTGTTTAACAGTGTTCATGCGGTAATGATGCGATGTGGGAAACTCGAGCAGTGTTTTCTTTAGGAGGCCGATTCCAGTGTCAGGGTTCCCATAGAAATGTTAATCGATtcttaaaatgagcatttatagATCTGGTATGGTCACGGAATTTATTAGATTTGCATAAGGAGTCATGAAAAGTGCACTTGATTGGGAGCTTTTCTTTCTGAGTTTGTGCTGCTCTCAGTTATTTAATCAGCGTGACGCTAGATTTgtttcaaatacaaaaaaaaattgtattaaatcaaTGCCGAAGTCCACGTGAATTAGAAAGTAGAAGTACAGAAACTTTCATCTCAGTGTGTTGATgcatttccaactgaaactgaatatggAGTAGGGGGTGGAGCTTTATTTCAGAATGTTGATGTAcctccaactgaaatggaatatagagtggggggcggggctttatttcattgtgttgatgtacttccaactgaaatggaatattgagtagggggtggagcTTTATTTCATTGTGTATATGAACTTtcaactgaaattgaatattgagtagggggcgtgGCTTTATTTCAttgtgttgatgtactttcaattGAAATGGagtattaagtagggggcggggctttgttTCAGAACGTACTTCCAATTGAAATGGAGTATTGAGCAGGTGGTGGAcctttatttcagtgtgttgatgtactttcaacggaaatggaatattaagtagggggcggagCTTTATTTCAGAATGTACTTCCAATTGAAATGGAGTATTGAGTTGGGGGCGGAGCTTTATTTCagaatgttgatgtacttccaactgaaatggaatattgagtagggggcggggcttcatttcagaatgttgatgtacttccaactgaaatggaatatagagtagggggcggggcttcaTTTTTGCATACAAttcccttgtagcaaactaacTCTAAAAGAGATGTGGCTAAGAATTTCATTTCTGAAGCGTcaaagcatacctgccaacattcccGTTTTCCCCGGTAGTCTccagtatttcagacccatctcccgtattgttctgtctccccGAAATAGACCCCCTCACCTCCCCCCAccacaaatgttggcaggtatgcgtCAAAGTGATGTCAACAAAAGAACCGCCAATCAAaacgcagaagcaaatggtcagatattgcgatactggaattcaatacctgtactgatattttaaaaatgttgaccttaaacagtgctgatgatcttaaacagtgctgatgaTCTTAagcagtgctgatttgccattgtgttcatgtacTCAACAGaattgactgtgattggccatgacggtcatcagttcaccaaactcaccgctgtttactgagtgatcttcatggctttaaaatgctccagtgttcaTATTTATGTTTACAGCGGTGagttggtgaactgatgaccttcaggaccaatcacagtcatttctgctcAACAGCGCTCGAATTAAATAGACGTTTTAAAATTCCATTAATGATCGTTATTGAATTCTAGTATAATGACAACACTACGATCagaaaacaaacagtttttttattgcacacctaggaaaataaacaaattaaatttccatttcacacagactttaagttCTGTGGGAACCCTGCAGTATtgaatgttgtttttgttgccaTTTTTGTTTAGTTGAAATCTCTAAGAAGTATTTGAAATCAAAACTCGCACCTTAATGTTAATTGATCATGTGGTTATCGACTGGTGACCATTACCAAGTCATTGCCAAACATGGTGGTCTTTCACTACCAAATAAGGCACACTGACTCAAGCACTTTGAGGTCCCTCCTAGATCCTCCATTCTTACGTCGTTTTCATCACTAAAACACATCGCCATCAGTCAAAACTCACACCTTACAGTATTTACTAAGGCTAAGAGTCCCCACTTCTCATGCGGTTACTAAAAACTTAAAGCTACAGAGTTCATCTTTTTTCGATTGGTTGATTTTTGTAGGTTTTCGCTTCAGTTTAGCTTTTTAATTTTGATCGTTTTTGTTTGCTTTGCCAGTATATTAAAGTGTAATCATGTACGTTGTGCTATAGAAATAGCTGTACAGACGCATTGTTTCCTTGTGGTAAGTGACTGAGATGCTGCCACGGATTTGAGACACTGATGAATGGTGCTATTTTGGACTTTAATCTGCTCCTTGGTAAGGAAGCTCAGAtgggttttgttttatattttcatgTTCGGAAAAGGAGGTTGTTGGTTCTTTGTTGTCTGGTTGTCGTAATTCGGATCGGATCGACTTTATTCCCCccttgttgtttctgtgtggctTTCTCATTGGACAGACAAAAACTGATTTGTTGAAGAGTTGGCGTTTCGTTTTCGTTtctttactttaaattaaaaaaaaagacaaagggtaacactttacagttgggttgcattagttaatgctaaTTTACTAACACGAACAAACAGCAGTCAATgcgttacagtatttattaattagttaaagtCGTTCATTGTTGGCTCTTGTTAACTAGCAGTATATTAACTAAAAGTGAAAGTTGAACTAATAttgaaggtgctgtatgtacgtttttgactcttttaaagcgtaaaaataccttaatatgtttgcagatatttaaggtgcttttacacctgttaatcgattcatttgttccgaaacagggattaaaagcgtcacattgttgctctttgttcttagTGCGGTTCattttcacacggcaaagtttttAAACGAACCCAAATAGCTAAAACAGCTAAAACTCGCAATTTCCAtgagattatcacttgtttgcgggtATCCGGGGGTCTCTGCATTTGTGGGAGACTAACGGAaattccaggagacttgggatgtctggaatgacctcccgccctactcataactctctcttcatatagccatatgcctCTTACAAATCCATAAaccactgtgatatagccgggcttgAATCGTATCACTTTCTCACAACAATCAATCCACTCcggagttcgtttcaatcgagctgagacctCCTCATTCAGGCGATTGTTTAGGCGCGGATCCAAGCGCagttgctggattcacatatcacaaacgaaccgcgctaacagGGCAAACGAGACtaatctaggtgtgaaagcaccctaagaaacaTGATTAGCTTTGGAAATGTGCGTTACGTGGTGGAACGTCTGCCTTCGTTTTGGTTGATttacccgcccaatgccagtttagccaattatatttcagcagcccGGGTTACCTtgatggaaaacagcatatttcgtTCATTCAGTCATCAGGGCTTAAATACAACCTCCGATGGACACTAAACTCTCGgaaatgagaagcagattcagGGTTCCACTTGAGGTTATTTATTAGCGTTAATATAGTTATtacaaaagtaaacattaaatcagcaggttacattgtaaccccgttcCCTAACAACAGGCAATTTGGCGGTTTTCACCAGATAAAACATtgtagaaacatttaaatacagctattcagaagcacagaatagtgcactcgctGCACTCCAACGAGATAGCAAGGTTTATAATCGAATGAATACATATTAATCCTTTAACATTACTATATGTAGATGCTGAATGATTGAAGTTTGTTAACTAGGCTTGCACTGAGTGTCAAACGTACACACTGCACCTTCATTAAATACTGTAACACTAGTATTGATCATGAGTAAATCCATTACCTAATGAAAACTGTAAATTGTGACCCAAACGTTTTCCTCAAAGATGATTATTTGCGAAACTCAGAAATCCAAGACGGTCGGAGCAATCACAAAACTGCAATTAATAACACTATTTACCCTTTAATCTAAAGGTTTAATTCAAGGAGTAGTTACAGTTCCTGGCACTAGTCACTTCGGGATTTAGCGAACTCGGTCTATAGTAGATCTCATGCATACAAAAGCGGGAGCGAAGTTCATGATTTTCGTTCCTTAAATACATCGAGGACGCTTTCAGATACATGAAACATCGCTGCAAAAACACGAAGGACGTCTGTGATTGCTGTTGTATTCCGCTGCGCACGGCCCCAGAGCGACGGCGGTCTATGTAGTGTATATAAACCAGGGCAGATTTCTCATCAGCTGTTTCCTACACCAGCTGGGAATGTCTTAAtacgcattaaaaaaaagaaacaatcatCCGTTTAGCGACACCGGGTCCTCCGATGTATTTTCTACCGCAAAAAAATGTAGCATCGAAGAATAAAcaaaccattgacatctatagcaACTGGTTTTCTAAACGAGTTAAACGCCTAAAGCGctctgtttattgtttatttgttcgttTAATTTAAGTAGCATGATATCGTCACTTGGTATTTGCAGTTTTGTCTTTGCTTCCAGTTCACATTTAACAGTCCTAATTCAAAGACCAACTGGAAAGCCCACATTAGTTTCGTAGTCTtccatttattgtttatttccacTACAATGGGAACCGTCCCAGCTTGCTCTAGTCTTTCCTTAGTGCTTTACGGCATATCGACTGCATGCTCTCGGCTCTTCCTTCTTTCTCTTTTTGGTTTCTGATCTGAATAATTCtccttgcgttttttttttttttttcctccatagATTAGGTATTGCCTACTGTGTTGTAAATAGCCAGTGAATAGCTTTTAGTATGTTGAATTATTCTGTAACAATTGTGTATGATTGGTGTACAACACATGAAGTCCGGCCTGGTCATCTATATGAAGATGTACTGGTGGTTCATGTCATTTTTGCAACTTATGCTGTAGTTGAATAAATATGCATGCTCATCGCTA
>TCONS_00005975
ATGTGACCTCGTTTGACTGGATTTGGAAGCGCTCCAAGCTGCAGTCAGGGAAGCGGAATGGGAGGTCCCGTTTTCAGGATGACGTCGACTGGAGCAATGGGGGATCCCATTAGAGTCGACAGCTGTGTTCCTGAACCCGCCGGAGCACAGAGGAACGTCCACCAGACATCCACATTCCCTCTGTCTGATGCTGGATAAAGAACGGCCCTCAGGAGGGGGGGGAAGCGTATTCTCCgtgtatattgttttttatttcctaaaatcATGTATATCCTTATTTTGTATGGTTCTGgcgtgcggtacaggtgaaatatGATGCTGGGGCTCTTCCCTCATCTATGTGATTAATAACATTTAGACAAAACCTGGGACTCTAAGCCTTGATGATATGCTCTTCAGAGGGAACGGCAGTAAAGACACAAAAGCACCTCAAGACAGACCTGACAGACTGGAGCTTCACATGTCTGTGTTTGCAAACTGCGGGGGTCCGGGACCCTCGTGGCGGCGGCAGCAGCACGTCTTCCACTTGTCCACTTCTACTTTGCACGGCTGGACTCTTTCATACCTCtgtgaaaaaacacaaaacaaaaaaaataataatcatccaCCGGTGTTTAACAGTGTTCATGCGGTAATGATGCGATGTGGGAAACTCGAGCAGTGTTTTCTTTAGGAGGCCGATTCCAGTGTCAGGGTTCCCATAGAAATGTTAATCGATtcttaaaatgagcatttatagATCTGGTATGGTCACGGAATTTATTAGATTTGCATAAGGAGTCATGAAAAGTGCACTTGATTGGGAGCTTTTCTTTCTGAGTTTGTGCTGCTCTCAGTTATTTAATCAGCGTGACGCTAGATTTgtttcaaatacaaaaaaaaattgtattaaatcaaTGCCGAAGTCCACGTGAATTAGAAAGTAGAAGTACAGAAACTTTCATCTCAGTGTGTTGATgcatttccaactgaaa

Function

GO:

id	name	namespace
GO:0000028	ribosomal small subunit assembly	biological_process
GO:0008152	metabolic process	biological_process
GO:0043009	chordate embryonic development	biological_process
GO:0019538	protein metabolic process	biological_process
GO:0043603	cellular amide metabolic process	biological_process
GO:0043604	amide biosynthetic process	biological_process
GO:0030163	protein catabolic process	biological_process
GO:1901564	organonitrogen compound metabolic process	biological_process
GO:0009057	macromolecule catabolic process	biological_process
GO:1901566	organonitrogen compound biosynthetic process	biological_process
GO:0009058	biosynthetic process	biological_process
GO:0009059	macromolecule biosynthetic process	biological_process
GO:0043043	peptide biosynthetic process	biological_process
GO:1901576	organic substance biosynthetic process	biological_process
GO:0043632	modification-dependent macromolecule catabolic process	biological_process
GO:0006412	translation	biological_process
GO:0048562	embryonic organ morphogenesis	biological_process
GO:0009653	anatomical structure morphogenesis	biological_process
GO:0048592	eye morphogenesis	biological_process
GO:0010467	gene expression	biological_process
GO:0044237	cellular metabolic process	biological_process
GO:0044238	primary metabolic process	biological_process
GO:0044249	cellular biosynthetic process	biological_process
GO:0042255	ribosome assembly	biological_process
GO:0044260	cellular macromolecule metabolic process	biological_process
GO:0044267	cellular protein metabolic process	biological_process
GO:0044271	cellular nitrogen compound biosynthetic process	biological_process
GO:0010499	proteasomal ubiquitin-independent protein catabolic process	biological_process
GO:0019941	modification-dependent protein catabolic process	biological_process
GO:0071704	organic substance metabolic process	biological_process
GO:0006518	peptide metabolic process	biological_process
GO:0043170	macromolecule metabolic process	biological_process
GO:0006807	nitrogen compound metabolic process	biological_process
GO:0002181	cytoplasmic translation	biological_process
GO:0034641	cellular nitrogen compound metabolic process	biological_process
GO:0034645	cellular macromolecule biosynthetic process	biological_process
GO:0048704	embryonic skeletal system morphogenesis	biological_process
GO:0048705	skeletal system morphogenesis	biological_process
GO:0048706	embryonic skeletal system development	biological_process
GO:0009790	embryo development	biological_process
GO:0009792	embryo development ending in birth or egg hatching	biological_process
GO:0044391	ribosomal subunit	cellular_component
GO:0019773	proteasome core complex, alpha-subunit complex	cellular_component
GO:0044424	obsolete intracellular part	cellular_component
GO:1990904	ribonucleoprotein complex	cellular_component
GO:0022624	proteasome accessory complex	cellular_component
GO:0022625	cytosolic large ribosomal subunit	cellular_component
GO:0022626	cytosolic ribosome	cellular_component
GO:0022627	cytosolic small ribosomal subunit	cellular_component
GO:0044444	obsolete cytoplasmic part	cellular_component
GO:0044445	obsolete cytosolic part	cellular_component
GO:0005829	cytosol	cellular_component
GO:0005838	proteasome regulatory particle	cellular_component
GO:0005839	proteasome core complex	cellular_component
GO:0005840	ribosome	cellular_component
GO:0008540	proteasome regulatory particle, base subcomplex	cellular_component
GO:1905368	peptidase complex	cellular_component
GO:1905369	endopeptidase complex	cellular_component
GO:0032991	protein-containing complex	cellular_component
GO:0015934	large ribosomal subunit	cellular_component
GO:0015935	small ribosomal subunit	cellular_component
GO:0005622	intracellular anatomical structure	cellular_component
GO:0000502	proteasome complex	cellular_component
GO:0043226	organelle	cellular_component
GO:0043228	non-membrane-bounded organelle	cellular_component
GO:0043229	intracellular organelle	cellular_component
GO:0043232	intracellular non-membrane-bounded organelle	cellular_component
GO:0005737	cytoplasm	cellular_component
GO:0070003	threonine-type peptidase activity	molecular_function
GO:0019843	rRNA binding	molecular_function
GO:0004298	threonine-type endopeptidase activity	molecular_function
GO:0005198	structural molecule activity	molecular_function
GO:0003723	RNA binding	molecular_function
GO:0003735	structural constituent of ribosome	molecular_function

KEGG:

id	description
ko00230	Purine metabolism
ko00240	Pyrimidine metabolism
ko03020	RNA polymerase
ko03230	Viral genome structure
ko05164	Influenza A
ko05169	Epstein-Barr virus infection
ko05016	Huntington disease
ko03200	Viral proteins

Ensembl:

ensembl_id

ENSDARG00000092467

RNA

RNA id	representative	length	rna type	GC content	exon number	start site	end site
TCONS_00005971	False	1644	lncRNA	0.46	4	1669144	1718419
TCONS_00005972	False	1535	lncRNA	0.46	4	1669144	1718424
TCONS_00005974	False	5831	lncRNA	0.41	4	1708092	1718637
TCONS_00004680	False	5624	mRNA	0.41	3	1708117	1718395
TCONS_00005975	True	974	lncRNA	0.45	3	1712579	1716550

Notice the +/- strand.
Display format: symbol/gene id: RNA id. (Except when gene id is similar to RNA id.)
You can browse transcripts by dragging.
A more detailed transcript can be viewed by the zoom button in the upper right corner.

Neighbor

gene id	symbol	gene type	direction	distance	location
XLOC_002504	NA	coding	downstream	1514	1666342 ~ 1667630 (-)
XLOC_002503	nup155	coding	downstream	32692	1597270 ~ 1636452 (-)
XLOC_002502	CABZ01066320.1	coding	downstream	116355	1544163 ~ 1552789 (-)
XLOC_002501	CABZ01066320.2	coding	downstream	125049	1541263 ~ 1544095 (-)
XLOC_002500	WDR70	coding	downstream	145855	1434956 ~ 1523289 (-)
XLOC_002508	gal3st1b	coding	upstream	3488	1722125 ~ 1733937 (-)
XLOC_002509	epb41l4a	coding	upstream	26838	1745475 ~ 1827225 (-)
XLOC_002510	NA	coding	upstream	229460	1948097 ~ 1953459 (-)
XLOC_002511	tdgf1	coding	upstream	236838	1955475 ~ 1961930 (-)
XLOC_002512	CU856539.1	coding	upstream	780746	2499383 ~ 2527342 (-)
XLOC_002499	NA	non-coding	downstream	236004	1423241 ~ 1433140 (-)
XLOC_002495	NA	non-coding	downstream	1011738	657051 ~ 657406 (-)
XLOC_002518	NA	non-coding	upstream	1179342	2897979 ~ 2899304 (-)
XLOC_002525	NA	non-coding	upstream	1603500	3322137 ~ 3332362 (-)
XLOC_002529	CU571170.1	non-coding	upstream	1787903	3506540 ~ 3506654 (-)
XLOC_002530	FP236598.1	non-coding	upstream	2050014	3768651 ~ 3768766 (-)

gene	XLOC_000007 f7
RNA	TCONS_00000019
bioproject	PRJEB12982

model fish

Basic

Function

RNA

Neighbor

Expression

WGCNA

XLOC_002505

Basic Information

Chromosome Information

Sequence

Function

GO:

KEGG:

Ensembl:

RNA

Neighbor

Expression

Co-expression Network

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