Fish Transcriptome and Expression Database

XLOC_009691

Basic Information

Item	Value
gene id	XLOC_009691
gene name	NA
gene type	non-coding
species	zebrafish (Danio rerio)
category of species	model fish

Chromosome Information

Item	Value
chromosome id	NC_007127.7
NCBI id	CM002900.2
chromosome length	55266484
location	8355479 ~ 8372570 (+)
genome version	GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00021886
aatgaattaatgttttattcTAGACAGAATATATCAGTCCCTTATTTGTACAAAAATACCTGAAAAGGTTACAATTAAAATTTGTAAGCCATTCAGCTATGTACAGAGCCAAGCAGAACACATTATTAAGACAGAATCGGGAAACAAGAAACCTTTATCtattcatgtttgtgtttgtttgtttgtttatttcattccCTGAAAGACATAAATTcagattcatttttatttacttacatttatggtcatgatgatgattattattatttttttaaattgagaatACATATGCAAAGCTCAGGAAATATAAGGGGAGATTTTCTGATAGACCAGTGTTGCTTTGCATTACAGTGCTCAAGTTACAATTGTAACATGTTGCTGATATTTCTGAAAACAGTCATAACTAAAAAGCACATCTACAAAATTACACATTAAGTGTGTTTCCACTTAGAAACAACTATTGTGTCTATTGCAATTACATTGTAACACAAACACTGTAATAAAAAAGCATGACTTCCTTTTCAGAACTAATACTAGTGACGTAAATCCTAAATCAGTAACATTAACCTGAGTAGGAGCACCCTCTCAGGTCCACATTCGAGAGGATGGGCAGTTGGGTTTTGAGGCACCTGATTTATATAAGCTTTTATAAGGAGTGAAacagcaaaaatgaaaattctgttattaattgctCACGCTCATGCCGTTCTGATCCCCTGAGGCCTCTgtcatcttctgaacacaaattgagatattttagatgaaatcctggagctctcctATCCCCCATTGACTGCAATGGACACAAGATATTCAAAGTccaaaaaaggaaacaaaacatCGCATGCACCTTTAATGGTTCGGCTCCAATCATATAAAGCTCCAAGAAATCTTTTGTGCACAAAAAagactgcttgtttaaactactcaattaaaatgagctgcaaccaaaaagtccagaaaaggaaccaaaaaaaaaaaaaacattgcatgtgGTTCAACTGCTAttatatgaagctccaagaactcttttgtgcacaaaaaagtaaatacaacGTTGTCTTCTCTCCTGCctcaggtcagtgtgtgtgtttactacagTCACATAcattcagaaaattacatttgctcTTTGTTCGaaatactcatttaaaataagctgcAACCAAACAAttcttgagtaaaaaaaaacttttaaaaagttaatttaattccttcatgttgtcccaacacaaatcgattgtgtgaaacccagtcATTTTTTACAGTTAAGGTGAACAAATCTGTACTGTAACTTAGAACAGTTAAGTTGACATAATTTGTATAAATATGCTAATTGCACTAACATTTTTAAGGTCAACTAATCCCTTTGtacagtgtcagactattttagcacatctgtttttaaataattactgtaattattacaatattaaacaTTTGGTGCTTCATTACTGTAtgtctataaaatctacaattacagcctgtattgaatttagaagatAAACtggagcagatttattttagttactgtcatGTTGCTTGATACAGAAAAACTGGGGAAAAAAACTAGTATAATAAAGGTGTATCatgattagtttacttttatttttaaaaagtgagtacaattggcataattataaaaacgtataggtcacactttacaataaggttcattagttaatgttaattaatgcatttactaacatgaacaaacaatgaataatacatttactactgtatttgttcatgttagttaattaaaatacagtagttcattgttagttcatgttaactcatggtgcattaactaacgttaacaagcatggacttgaatgttaataatgcattattaaatgttcaattatgattaataaatgctgtacaagtgttgttcatgattagttcatgttagtaaatgcattaactaatgaaccttattgtaaagtgttaccaaacttaTAACAGTTGCAAGTTACAGTGGGTTTACTTAcgttatttttgtaaagtcaacttgctgcttttaaggcaattagtttgctcgctttaagtaactaatcacttttaacagTGTACAGGCAAATACACACAATAAATTACTTTTGCTGGTTGGTCAAactgctcatttaaaataagctgcAACCAAGTTTTTTGGAGAACAACTTAATTATTAATGAGCAAtctgcttaaatttgtaaaaactaaacttaaagaagttaacttaattccttcatgttgtcccaacataaattggTTTAGTGTAACTCATCAGTTTTTACAGTATACATAAACaaacttgttgttgttgtttttttacacacattttttttttcttaaaagctTTGAATGGttacaattgaaccactaaaTCACATGGAATgctttaacaatgttttttttggtTCCTTTCAGAACTAAATGTATTTAcatcattgctgtctatggaggataagagagctccaggatttcatctaaaatcgtaatttgtgttctgaagatgaacgaaaCTCTATAGGGATTGTAATGATATGAGTGTGAGTAactagtaacaaaaaaaaaaaaaaaacctaaaagaaCAGTTCTCTCAAAATTGCTAAGTTTATCATCATGTAATTATTCTTATGTCATTTTAACTTGTTTCTGCTTTCCTTTTTATTTCTTGAAAAAAAGTAAATGAtgtacattttgggtgaactgtccctttgagGATGAAAACTATACAGAATATGATAAAACTCATCCTACTGTCATTTCAGACAAAACTAGAATACGTTGAAGGCCAGAAAAAACGGAGGAAACAGAGGACTGGTGTGGTCAAAGACTAAATAAAGGAAGTACACTGTTAGTTTAATAAAACGACAGAGATAAAATACAGAGAAGAAGTTTTCTGGTCCATAGGACCAGTTTTAAACAGCCTCCACTTCAACCCTGAGCAACCcagttacattcatttattttaaatataaaaatgacatttatttctgATAAACTCTCAACAGATCACACATTTCGCAAACGCTGCTACCAGCTCCTTTCAACAACaacaggggaaaaaaaactttctttgATTCATAATAAAGAAACATCTCTACAATATCTACAAGGCATAAACTTGTTAGCATTTTCATGATAAGTGTATTTGTGAAAATAAGtgagtttaaaaaacaaaacaaaatgtagctTAATAATGACCTTCAATGACTAAAAAAGTCCAGTTTTCCTGCAAACATAACATATTCTTTAAGGTCAATTAGCATGACGAAGCAACATAAAACAGAATAGATTCAATATTTACACACTTAACCAAATAATAAAAACGCACTAAAAATAAGTCAAGTTTCTTCATGTTATTTGCCATTGAAAATCTGCATCCAAAAATTCAGTGTGGTATCTACAAACTCGAATAGCTGTACTGTACATGAAAGGAGTGTAACTAAAGAGTCCTGCTGAGCTGCATGTCACAtgatatattgaaaaataaaacaatgtatgGACAATGTGATTGTAAAGCATTACTGTGTTAACCCAGAAATGACACCCCGAGTATTTAGTGAACAGGTTTTCTGCTCACACTCACTTTAGACTGAACGGTCAACTAGCGCTAGTGATACTTAGACTACCTACAAATCAGTTACTCACACAGGTGATTCACCAGTAAAATATAGTAAACTAGTCTTTAGGTAACCTACAACTGCCCTTACAGGCAAAACCCacaaataataatgtataaactCTATATattcttcactgtaaaaagcaattactttacttaaaaatagtgagtaaacctgttgccttaaaaaaaCACTTCAGTTTTTTGAAAATAGACTTATTTTAAAACTTACTTAGAATAAAGAGTTGATTTTTTACCAGTTTTGTATGCGTTcagtcagcctgatctcaccaaGTAAtgcaagtattttacattttgtcagtttagtggctaatttgtacgaattcgtacaagttcagtcgtacgaaaatgtacgattttaaaaaggaggtgtggcacctaagcCCTACCCTagcccaaccgtcattgggggatgagcaaatcatactaaattgtacaaattagatcatacgaattagccactaaatcaaaaagttacgaagttgccgtgagattgcgttggttcagccaatctctggcgggagtacttttagcttagcataaatcactaaATCAGATCATTGAACCAAGAAAATATCTACTTTGACTTTctgttggtcttagtacacaatgtaactacagtacagtacagtcaagctttaaatagcaaaattatcaacactcttttttttttttatttggagtgaaatgctaatagtctaatccgattcaatgatctatgctaagctaagctaaaatggtAAGTGGTAAAACTCACCTATTTAACTATAGAAGAGTTTAGTCTTAAGAAATTAGTCTTGAAATAAAATtagtgaagtgttcctttaaaagcaGCAAGCTGACTTTAAAAAAGGGAGTAAACTCTTTTTAACTTGTAACTGTTACACTGACTTCATTTTAAGGCAATGTGTTACTCATTTTTTTAAGccaagtcaactaatcactttaaaaacaatgGGTTTCCTCACTTTTTTAACAGTAAAGTCAAATAATCGCTTCTTACAGTGTTCTGAACCAGGTAGAATTCTAGTTCGACTAGAATTACAGTATATTGCAACTGGTTGCAGAATTTGCTAATCAACAGCAGCCTAACTGAATGGTTGTTAGTTTAGTCATTGGCTGGCTGATTGTACAGCTTCGCTTATCAAACCCTGAAAATAAAGACAATAATGTCAAGTTCAAAGCTTGTGTATATGCATATGCGTGCTTGTGTCTTTTGGTGAACGTAAGACCACCCAAACTGTAGCTAAattaatctacaaaaaaaaaaaaaactaaacttaactGACTCTGAGAAAGATATTCAAGTGATATTTAGAGCGCTGATTTAAGCCCTGCTGTCTATTTCTGTGGTTAAATCGTCCAATGAGGTCTACACTAACTCTAAATGAATTGATTCTCATAGGGCATTTGCTAATTTttaggtagattttttttttactttgctttgaTGTCTATTTATTTATGGTAATTGTATTGATTTAGGTAGCTAGTTAGTTATGTTTCAGCCAGTACAAGTGCTTGTTTAAAAAACAGCTTCAATTACGTCCTGCATGTTTGCTCTGAAACCCATTTttaaaaggggtagttcacccaaaactgaaaatgtagtCCTTATTTACTCATCATTGAACTTGTTCCAAGCTTGActtagtttcttctgttgaacacaaagaaagctgaaaacctgtaaccattgacttccacagtatttgtttttcctacactctcagaaagaaAGGGGCAGGAGCTGTCtttggggcagtaccttttcaaaagtacatatttgtacctgaagggtccataatggtacctcaaaggtactttttaggtacatttgggtactaatgtGCAACTTCGAGGTACCAttgtggactctttgggtacaactatgtaccttttgaaaaggtactgcctcaGAGACAGCTcctatacctttatttctgagagagtACTATGAAAATCAATGGGTCTAGAGAGTCaaattcagttcctggagggccgcagccctgcacagtttagttccaaccctgctccaacacacttatctGTAGATTTCAAACAATCCTGAAGTACTCAATTAGTTAGATCAGGTCTGTTTAAGTAGAGTAacttaactgtgcagagctgcgtctagggtttagagcaggggtgtccaaactcggtcctggagagccggtgtcctgcatagtttagctctaacttccttcaacacacttgcctggaagttttagtatacctagaaagagcttgattagctggttcaggtgtgtttaattgggattggaactaaattATGAAGAACACCGGCCATCTAGGATCAAGTTTgcgcacccctggtttagagtatAGGTCTGAAACTTGATTTctagagggctgcagctctgcattgtcttgctccaatcctaatcaaatacaactgatcaaaaaataaaaaaataaatcaaggtgttcaagactacaagagactattaagcaggtgtgatttggaggtggttggatcttctgtgcagagctgtggctctccaggaatgtagtttgagaccattgatttAGAGGTATTTGagttttttcaaaataccttcttttgtgttcatctgaAAAAAGTAACTCACAAACTTATTGAAGGTAAGTAAATTGTGAGTAAACTgaatttttttggtgaactaaccctgtaattaataatcaatatatttaaGGAAGTAACTATCGCTTTTAGCAGCTGCATAATTTAGTATCGATCCGTCTCTAATAATATGTTATGTAAATAGCTACATGTAATAATACATTCAGCCGGTTAATATCACACAACAAACCCCTTTGATCTTCTGTGATAATCACAAAAACCTGCTGACTGTACATTATTCCTTACTGAACTAAAAAGTCATGTATTTTAGGATGCAGTCATTAACTGGATTTCATAGCACTAACTGTTTAATCTTACTTTCTCTTCTCACAGCTCAAAACAGCATGGAAATGTTCTATGATAGACCTTAATCAGGTAGACAACGTAGTTCACCTTTACTTCAATGGAGACAAATTAATCTGGGATACATAATAGCGATCAGTTCAATGGAGTAGCGTAGCATGGGCATATACCCGCAAATGGGCATGCTCTGATTGGggcaaatgatttaaaaaatgtaggccacaataaatactttttaggcaacgcagtggcgcagtaggtagtgctgtcacaccacagcaagaaggtctctggttcgagcctcagctgggttagttggcgtttctgtgtggagtttgcatgttctccctgtttgcatgggtttcctccaggtgctccgttttcccccacagtccaaagacatgtggtacaggtgaattgggtaggctaaattgtccgtagtgtgagtgtgaatgagtgtgtgtggatgtttcctagagatgggttgcggttggaagggcatccgctgcgtaaaaacgtgctggagaggttggcgggtcattccgctgtggcaaccctggattaataaagtgactaaggcgaaaagaaatggaataaatatttgttgtttcACCATCATTTAGAATTTTTCCATAATTCTTTTGTctgcttttcttattttttcctcCCTGTGGCTGCCTTTTGTCATCATTTTTACTTgcaaatgccaaaaatattacatattataataaAAGATTAATCCCCAGCTAACAGCCTTAAATGGTGGACACTTATAAACATAACATTTGGGGtcttaaaaaagaaagacaagATGGAATAGTTAGTCACAATACAAGAAACTACCCTAAATAGACTGCTTTTTTTGTGCGGCTCTAGTGCGACTGACACTGATGTCGAAAGTGATACAGTAATATGTAACAGAACagaactacactacctgacaaaagtcttgtcgcctatccaagttttagaaacaacaaataataccttgacttctagttgatcatttggtatcagaagtggcttatatgaaagacaaaggcctctagtttacgcttgttttaccaaaataaaatagggtcatggcttgatttttttattatttaatcaggacagtaaggtctgacttcgcttagactaaagtcttgtcacttcactgaaataatgtacaatatagaatataCAGTCATGCAGCAgtggtaaaataattaatattgtgtttgactctcatgagcttggacgactgcgtccatacatctctgcaatgacttaaataacttattaatatagtcatctgaaatggcaaagaaagcgttctagcAGGACTCCAAGAGttgatcaagattctttggattcatcttcaaagcctccttcttcatcttaccccagacatgctcaataatgttcatttctggtgactgggctggccaatccttgagcaccttgacattctttgctttcaggaactttgacgtggaggctgaagtatgagcaggagcgctatcctgctgatgaatttgccctctcctgtggtttataatgtaaggggcagcacaaatgtcttgatacatcaggctgctgatgttgccgtccactcaACAGATTTCTTGCAcgtccttcactaaacttgactaactactgtgagaatcttgggtccatgcgggttccaataggtctactgcagtatttgtgatgattgagatgcagttcaacagttgattcatctgaaaaatccaccttttgccacttttccaaatgatcaactagaagtcgagtcccatttgttgctcttacaaatgggattgatgacaagacttttgtcaggtagtgtacagtctAGCTGTTCCTTCTATCGAGAATCTAGTGACATTGCACTGAAAGAAAGCCCTGGAGATTGTAACTGAAATGAGCAAGtagggtttttttatttttattttgggccACTGTGCCAATTTTGTTTGAGTTTGCATGCagtattttattacataaatattggctgaaatatatatatatatatatatatatatatatatatatatatatatatatatatatataaatatatgaaatatgaagTCCCAGTCTGCTTGTAAAAAAGTTGTTGGGTAGAGTGTATTTTAATTGTATAGTTTGATATGTTTTAAATGTCCcgtcaaatatttttaaaaaatgtatccgGTCACTGACTTGCTACGCCACTGGTTTAATAAGTCACAATGTTaactggattttcttttttttcttcaggtgtttatataaaattgtattatgaGCTGACAGCAATTAATGTAAGATTAAAATCCATTGAAGAGAGTGCACTACATGTCTACCACAAATAAGGTCCATGAAGACTGTGATTCTACACTAGGATATTGATGAAAAttagtcttaaaatgttttagaacGGGGGTCTTGTTAACTGAGGTccaaaaaaattcacaaaaaaatgtggaaCAATAGTATCAACAgcgctgagaaaaaaaaaaaaaaactaaaaacgaaACTAAATTTCAAGTAATCAAatccagataaataaataaatttgttgaaGCAATGCTTATTATCGATTGCGTCATTTGCATTTATCTATGTACTGGTCTCTTGGGTGAACTTGTAGACATGGTGGCTATGCCCTCTCAATCTAGCAGAACACAATACTAAACATGGCTCTTTCTTTACATTGTGTcataagtacaaaaaaaaaatctttacaaatcCATTGTACCTACTGCTACCATGGACAAGGCAGATTAGAAATTCGAACCCCATTGTTCCTTGGGTGTTCTTAGCCCGGGCTTCACAGTGTGCTGTCCTTGAAACAATCTTCCGAAacatggagagagaaaaaaatagaaagtCAACAACCAAATGGACTGGAGCTGGGACTGAAGATGACAGCAGTTAAAGAGATTCCAGTTTGTTGATCTAGCTCCTGAAAGACTGCGACCCACAGCGGAGTTCCCAGAGGGTTTAGTGGTTTTTATTTCACTGAACTCAACAGACTCCTCTGTTCAAGGCACCGTTCCTATAGGATCTGGTGGGAATGTCAGGCCATGTTTTGCTTGCACTCGTGTTTAAAGGAATAGTTgcctcaaaaataaaatgtatatcctTGTTGTTCTTCATTATCACCATTGAAACCATCTTTTTTATAATGAGGGTAAATGTGAACTGTGTTTGttagacattttttaaacaaagctaTCACATTTTTTTAGTACTCTAAACTTAAATTTTCATGGTCTCCAACTCTTTTGAATCCAACCTTCTTTAGGTCTTAAGGCCTGTTCACACTAAGGAAGATAACTACATATAGGTAGAACCAAAATGACTATATTTGTGTCCATCCAAGCAAACAAGAGCGATCTGCTTACTTTTGCCTTAAACTTTTCTTTTTGCATTACCGCCAAAtaaccagcagatgtcctcagtGTGCTGTTCAAATTAAACGAAGAGTTTAGAAATCGCAGGAAaataaactgtatatttttttctcaggATTTTTAAAAGTGGCAACAAAGATGCAAAATTTAGCAATGGATATTTAGGgtacttttattttatacttcAATTTGCTAGCCTGGCTTGCATAGCCTCCATGCTATTTAACACTGCTCCCATGTTGTTTTCAAAATGGACGTTATCTTTAAATAATCTTTGAAAAGAGGGATTAACATCAAGCAGGGTGTGCTTCTCCACAATGTGAGAACACCTTTGAGACCTTTAAATTTTGTTTATGAATTCTGACTGCTATCACTGTTTTAGAAGTTCTGAAAGTCATTCTTGATGATATAATTTATGTACATCTTTAGCATTATAACTGTGTTCTGaagtctttttttaatatttatctttATAATTACCACCCTTTGTTGTGATGAGGCCTTTAGTCCTTACTCAGACCTTTTAGaactaaaataaaatggtctTCCCTGCGGAACAAAACAGCCTGAatcagcctaagctggttggctggttttagctggtcagccagcctggttttggaggggttttggccatttccaggctagtttccagccattttcagcctggtcttagctggtcaggctggaaaatgaccaactaaaaccacTTAGGTAGCCAATAATTCTggtccagatttggcataaagctagCAAAGCAAGCATTTGTCTGGCACTGGCATACATTGGCCAAGGTGGCACCAGCTTACAGGCGGCactcaagacttgggccagatatcaaatgtagtatttggcccagatgttaaaaatgtatacgtgggccacgtaagtttggtctatcttgacccactttttaaataatttaagttagttttgagtaaaaaaataaaaaaaataaaaaaataattatatatcaaTCGGGTCGCTTTAAGAAAAAGCACAGCCGTAAAGCGAAATGCTTCATAGgtttataaaaaacattgcagtcatgacacaccaacatatctggcccagttcaggcccagttatgggttattaacttggcagagtcttggcccagatatggtctatgTTTGCCTCTTGTACGGAAGCCAGACTTGGTTCAGTCATGttccgtaattcactgcggcatgtggcccaagcaaatgctgatggtgtgggccagatATGGGCCAGAGATTTTTTGCTATGGGGGCAGCATGACCAGCCTGATATGAGCTGGACATACatgtagctggttttggctggactcccagtctggcaaggctagtcaagctggttttaactggtcctctcccagcctgaccagcttagtccaggctggaaatggctggaaaccagcctggaaatggccaaaacccctataaaaccaggctggtttaagctgttttttataGTAGGGTTGACTGTAAGGTTTCAATAAAACGGACTTGAAATACAGCATTTTTGGATGTCAAATACATATGTCTCCTGTGTTCTACAAAACAAAGATTATGTGGTTCTGGTGCAACCTCGTAAATAGCTAAAATAACCCAGTTTTATTTTTGAGGTAAACTATTCCTTGAAGGAGTGACGTGTCATGTCTGGGTATGGCCAGCAGAGAGCGCTGCAGGCTATGCTTTGTGATAAAGCAGAAACTAAACAAGACCCAAAACATGAGAGTTTTGTGCTCAAAACGACgagcattttaaaaaaagaaagcaagtgTACATCTAAATAATTGAATTATGGATGAAAGTGACAGAAAGCGAAAAATTCAACGGTCGGCAGTGTCTTTTCACAGTACTGAAACCACCAATCTGTTGTCCACATTCTAGAATctgcttgacttttttttttttttgaaagtaacAATTGTTATAGCTTGGTTGTTCCTGGTTCATGAgtgcaaaataaaatcaaacgTGATTGATAAGTGTTTTGCTGGCCATTTCCAAACCACTATCACATCTGCACGATTAAGACCTGAAGGCGGATCCTGAAGGCTTCCTCTGGATGATTGTCCTGAGAACCTGCCCTGGCCACGGTTGAGTGTGCGGGTGGCTGAGAGGTTCATCTAACACACAAGCTTAATTTCCTTAATTCTTGCCGGCCCTGTTTGTGTAtcaattttttttccctctctctctttctccttgaCTTGCTCTCAAAGTGTGCTTTTCTCCAGCCAAGCAGCACAGCATTACACCACAGCACACGTCGTCTGAATGTTTGTCTTTAGGCGAAATCAGGCATATGGAGGTCATAAGGCCACAGTGGTGCAGGGGTGTTTCAGTTTGCAAGGCAGAACTCCTCTGTTGAGCGTGTAAAACTCCACCAACTGGATTAGGTCTGTGAATTTGACGGCGCCGTCATCGAGACTCAAGAACATTTGACCATCTTCTTCACACTGGAAAAGGAAGGCATGTCCCTCCTCCATGGCAGCACTCTGTGCCTCCACAGGATTGTCGATCACTCTGCCTATCCTCCCTGAGAAATCCATGGCAACCAGAGAGCTCTCTGAAACACTCCTCTGGAAAATAAGATCACACAGTGACA

Function

GO:

id	name	namespace
GO:0016071	mRNA metabolic process	biological_process
GO:0009259	ribonucleotide metabolic process	biological_process
GO:0006325	chromatin organization	biological_process
GO:0046034	ATP metabolic process	biological_process
GO:0090304	nucleic acid metabolic process	biological_process
GO:0000375	RNA splicing, via transesterification reactions	biological_process
GO:0000377	RNA splicing, via transesterification reactions with bulged adenosine as nucleophile	biological_process
GO:0006397	mRNA processing	biological_process
GO:0006974	cellular response to DNA damage stimulus	biological_process
GO:0042773	ATP synthesis coupled electron transport	biological_process
GO:0042775	mitochondrial ATP synthesis coupled electron transport	biological_process
GO:0000398	mRNA splicing, via spliceosome	biological_process
GO:0006119	oxidative phosphorylation	biological_process
GO:0006123	mitochondrial electron transport, cytochrome c to oxygen	biological_process
GO:0006139	nucleobase-containing compound metabolic process	biological_process
GO:0022900	electron transport chain	biological_process
GO:0022904	respiratory electron transport chain	biological_process
GO:0006725	cellular aromatic compound metabolic process	biological_process
GO:1901360	organic cyclic compound metabolic process	biological_process
GO:0009117	nucleotide metabolic process	biological_process
GO:0044237	cellular metabolic process	biological_process
GO:0009123	nucleoside monophosphate metabolic process	biological_process
GO:0019646	aerobic electron transport chain	biological_process
GO:0009141	nucleoside triphosphate metabolic process	biological_process
GO:0009144	purine nucleoside triphosphate metabolic process	biological_process
GO:0009161	ribonucleoside monophosphate metabolic process	biological_process
GO:0009199	ribonucleoside triphosphate metabolic process	biological_process
GO:0034641	cellular nitrogen compound metabolic process	biological_process
GO:0009205	purine ribonucleoside triphosphate metabolic process	biological_process
GO:0006260	DNA replication	biological_process
GO:0046483	heterocycle metabolic process	biological_process
GO:0045333	cellular respiration	biological_process
GO:0008380	RNA splicing	biological_process
GO:0005743	mitochondrial inner membrane	cellular_component
GO:0005746	mitochondrial respirasome	cellular_component
GO:0044422	obsolete organelle part	cellular_component
GO:0044424	obsolete intracellular part	cellular_component
GO:0044428	obsolete nuclear part	cellular_component
GO:0000346	transcription export complex	cellular_component
GO:0000347	THO complex	cellular_component
GO:0044446	obsolete intracellular organelle part	cellular_component
GO:0019866	organelle inner membrane	cellular_component
GO:0000445	THO complex part of transcription export complex	cellular_component
GO:0032991	protein-containing complex	cellular_component
GO:0005622	intracellular anatomical structure	cellular_component
GO:0005634	nucleus	cellular_component
GO:0005681	spliceosomal complex	cellular_component
GO:0031966	mitochondrial membrane	cellular_component
GO:0043226	organelle	cellular_component
GO:0043227	membrane-bounded organelle	cellular_component
GO:0043229	intracellular organelle	cellular_component
GO:0043231	intracellular membrane-bounded organelle	cellular_component
GO:0070469	respirasome	cellular_component
GO:0009055	electron transfer activity	molecular_function
GO:0015002	heme-copper terminal oxidase activity	molecular_function
GO:0003729	mRNA binding	molecular_function
GO:0015078	proton transmembrane transporter activity	molecular_function
GO:0004129	cytochrome-c oxidase activity	molecular_function
GO:0016675	oxidoreductase activity, acting on a heme group of donors	molecular_function
GO:0016676	oxidoreductase activity, acting on a heme group of donors, oxygen as acceptor	molecular_function

KEGG:

id	description
ko03230	Viral genome structure
ko05164	Influenza A
ko03200	Viral proteins

RNA

RNA id	representative	length	rna type	GC content	exon number	start site	end site
TCONS_00021886	True	12544	lncRNA	0.36	2	8355479	8372570

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_009690	pomgnt2	coding	upstream	193099	8139515 ~ 8162380 (+)
XLOC_009689	ano10a	coding	upstream	314131	7985886 ~ 8041348 (+)
XLOC_009688	NA	coding	upstream	561711	7792721 ~ 7793768 (+)
XLOC_009687	cnot10	coding	upstream	624643	7703534 ~ 7730836 (+)
XLOC_009686	ccr11.1	coding	upstream	656272	7698013 ~ 7699207 (+)
XLOC_009692	ccr2	coding	downstream	295949	8668519 ~ 8670413 (+)
XLOC_009693	ccr2	coding	downstream	301066	8673636 ~ 8681178 (+)
XLOC_009694	si:cabz01093077.1	coding	downstream	323025	8695595 ~ 8701100 (+)
XLOC_009695	cabz01093075.1	coding	downstream	344230	8716800 ~ 8725803 (+)
XLOC_009696	NA	coding	downstream	592319	8964889 ~ 8965839 (+)
XLOC_009682	CT574585.2	non-coding	upstream	789384	7564527 ~ 7566095 (+)
XLOC_009681	NA	non-coding	upstream	839972	7514850 ~ 7515507 (+)
XLOC_009678	CU466278.2	non-coding	upstream	1060526	7227584 ~ 7294953 (+)
XLOC_009677	NA	non-coding	upstream	1123299	7226676 ~ 7232180 (+)
XLOC_009697	NA	non-coding	downstream	593639	8966209 ~ 8966926 (+)
XLOC_009699	CR394537.2	non-coding	downstream	864562	9237132 ~ 9237246 (+)
XLOC_009702	NA	non-coding	downstream	1131803	9504373 ~ 9505519 (+)
XLOC_009703	NA	non-coding	downstream	1142756	9515326 ~ 9515807 (+)

Expression

Co-expression Network

Homologous

species	gene id	symbol	gene type	chromosome	NCBI id	location
rainbow trout (Oncorhynchus mykiss)	G129896	NA	non-coding	NC_048566.1	CM023220.2	28860834 ~ 28865634 (-)
bowfin (Amia calva)	G123950	NA	non-coding	CM030136.1	CM030136.1	18584169 ~ 18586027 (+)

gene	XLOC_000007 f7
RNA	TCONS_00000019
bioproject	PRJEB12982

model fish

Basic

Function

RNA

Neighbor

Expression

WGCNA

Homologous

XLOC_009691

Basic Information

Chromosome Information

Sequence

Function

GO:

KEGG:

RNA

Neighbor

Expression

Co-expression Network

Homologous

copyright 2021-present@Lab of Aquatic Bioinfomatics, Institute of Hydrobiology, Chinese Academy of Sciences