XLOC_010082


Basic Information

Item Value
gene id XLOC_010082
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 34478997 ~ 34502203 (+)
genome version GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00020032
CTCGCTGTTGCGCACGGTCTCCCCTACTAATAAACGAATGGTATCGCCCTCTTTGCTCCTGTCAGTTATTCCACAGAAAGAAATCACGATCGCAAACGGGAGTCGAGATGTTGTCAAACCTTCGGACTGTGGCAGGTGCTTTCAAAACACGCCGTCTGCCGTGAAAAAGCAGCATTGGTATATCAGTACACGAGAATAATCCGCATCAGTCAGGAGCTGTGGATCTCTGGCTCTAGCGCTGAGATGACAGAAGTGGAGCCGGTGTTGGATTTCGCCTCATCGGGACGCTCTGGTCGTCGTAATGCACTGCCGGATATCCTGGGCTCTCCTGTTGGAGTCCCACCTGACCTGCCGCTAAAACTGGCAGAACTGTCCCTCACAGATGGTCCAGGTGATGCTCAGTCCCCGTCTGCAGAGGAGGCCCCGACTCCCACAGAGAGCCCAGAGGTGAAGGAGGGCTCCTAGGTGTCCAAACTAATGCCTGTACCACAGAGATGGGGCTCAATCGGCCCTGCCTTTCCCCTGGAGCTCATCCTCTACCGACTGTTCCTGATGCCTGTCAGACTGCATTAAAGGACGCAACCGAGGGCAGCTAAATGTGAGATGAAGGACAAGGTCTTCAAAGGGTTCGTGCAATGAAAAAATAATAGAATGTCCAAAAAAACTGAAGGCAGAATATTGCAAGAGGATGAGCAAGAGCAATCCTCCTTCTTTttaaaacacaagccaaaacgcAGGGGGGAACCTGCTCGAGAACGCTTTAATCAATTTTACGCATTTGTTTGACAAAATGCTGTTCTTTTTATGAGCTTTCTATCCAATAATGACTATTGTGAGTTCCGTAGACATCCAGTTGTGATTTGATATTGTATGATATTGTGTGATATCTTAGTAATGtgtctctgaaaaaaaaatgccTCAGTCTTTGGAAAGGGTTTATCGTGAAGCGATATGAGCAGATCTGTGTGAATATTCAATGAAGCGTCATGTAGCATAATAAAGGATATAAGAAGAATTACTTTGCGCAAAAACATAATCATGACTGCCAAACTGGAAATGCAATATGCATAGACATTAATCAGAAAGggaaaaataattagtaaattgAGAAGAAATCTGCCTGGTGTGCGTTTCcaaaacaacgacataactcgcgGCTGATCTATCATTgtatgatgcatcatttgggaaacgaacaatgtagtgacgagtgtttcccaaaaccgtagtttcCCTGTCGCAAATCCATCATTTGTACCATGTTAGTTATAGCGTAAAACATCCATAAttatgctctaaacagggtggagtaacaacttctttagaaaaaaaaaacatcatgtttgggcaaataattttgttttacacgcacattaaatgcgtgtgcgtgtaaaacaaaattatttgcccaaacatgatgtttttttttttccaatattagttttggtaaaaacatgcactggtttttcatattaattaaaatatatgtaaacagaACATATAGGGCCAatttttcctttacaaatattaatgagaatattccatattctattctaaagcATAAAACCACTTAGCCACTTAGCTGTGTATTTTTAtctcataaataaattatttaaatcattaatGATTGTAACTTCcaataggctatttattaagaaatgaagaaaaatcaaacttaatattatatatatacaaatctaacttaaatgataatattatatatagaaaagtctactttaacatttacacattcaaaccactgcagaaatgttctaaccaacaggtccatgtcatatacagtacagatacatttcttaataaataacctactataaattaaaagcattaccatatactatatgtttttgttttcacaatttttggagacataacataaattctgcttctaaataataggtcacctgtagctttcgtcatgagccaggactgtgtttaaaatggcataaatgttttcaaagtgcacaatTGTTAATATGAAGACTGCTAAAACTGAattgtaaaaaatactttaaaagcaaattacacctaagagagatgactgtgggggaactggagcacctggaggaaacccacgcgaacactgggagaacatgcaaactccacacagaaatgccaactgacccagctgggacttgaatcagtgacctatttgctgtgaggcgatcgtgctacccactgcgctaccatgATGCATAAATACGTATGCATCTTATaagttaattaatttatgttaaaATTCAAAACCCCAATTCAAAatccataaataaatacatacaaattgtTACACATACATTTACCTGGATGCGTATTTTCAAACCTTTCATTAAACATAGCATAAAACACTTACAGATAACATACAAGTAGCATCCAATTACTATCTAAAACCAAAATCTCCTCCAAGAGCATAtaaacaaacattcgcaaactgtgtcgcaaacttgtACTCTAGAGCTGGAGTTAGAAGTATAATTAGAAATAGAACACAGACAGAagctatgcttctaactacagctctagaggtgtagttgcaaatgtacaagtttgcgatgcaatTTGAGAATGTTCGTTTtcggaaacaccaaatcaactaTGTTTGAGGCGacacaacttgcgaccttagttggatAATAATAgatttcggaaacgcaccccagatctTACGCGGAAACGTTTGTATTTTAcagtttgtcagtttagtggctaattggctAAGTTAAGTCGTTCGAaaatatacgattttaaaaaggaggcgtggcaccaaaccccgcccctaaacccaatcttTATTAAaggagcaaattgtactaaattatacaaatgagactgtacaaattcatacgaattagccactaaatcaaaaagttatgcaTTGCTCTGAGAATGcgtaaaaatatatagtttgttGTATTATAAAAGGATAGTTCATACAAAAGTTAAAATTTGCTGTAAATTATAGGTGACAATTTACTTTGGTAGAACATTAAAGACTGAAtgaaaaactaatgaaaagactaaTGAAAAATTTTTGCTAAAATGTttcataaaatgaaagtaaacagcAACTGGAACCTtgagaataaacaaaaaacaacatatacAGGCAAATTAAAATGAATACGCATGGCTCCTGACAATACTTTGACGTCGAATGAAGCAAAACAGTCAGCCTGGAAGGAAActacaatatttaaaacattataacgTTTAATCTACAGCCTAATGTTACTAAAATGATGAATGAGCTGATCATTATACTTCTTAAGTAGTCAAATTATCATCAGGAGCCAAGaataggcccacatggaatctgcgcgcaGATATCTCATTTAGTCTATTTACTTagttgtataaatgtgtgtgaattaatttcagtaatattattgacaaatatgaaaatgtttaaatgtataatttatttacaatacagtttgtaaagtcatattttctgccTTCATATattagagacttgctttgtttgccaattaagtggatctaattggatttgcactgtaagaattaaataaaattaaaattatattatttttaacttcATATATCAAGTTTTCAGTTTTGATAcccccaaaatcattctgcacgAATACagagattttgttttttaattctgtgctgaaatagcaaaaattgtctgcagattctgtttggccctaACCTTGAGCCATGTAATATTGCCTGAATATTTTGggctgacttgcattttatgaatcacgaAGTACCacaattttgttttcatgttctACCTACACTCTTAAAAATTATAAGACAAAACAAGTCTTgaccacaaatatttttttacgtTACTTATTTTAGTGTTAATCaagtttcaacttttttttttgtaatttatactAAGCTTAACTTcattttttagtcagtttgattgatgaaatttgaaatgactagaaaattgtatttattcaacaacaacaacaaaatagacACCATTTTGAAAGAATTATTTACAGTGCATATTGAAGGATCTGAGCGAGAATAACATaacagcaaatgttcatttttgggtgaactatatcaATAAATCTGCCCAATAAATATTGAAAACATGCCCTCCACCAACAGAATTCCAATCAAATGGTTAGCATATTAAAATAAAGGAAAACTCATTTAACTAATGTAATCTCAGTGTGCAAACACTTTTatatctaaaagaaaaaaataataatcaagtaCACTTTGTATTCTCTATAAACTCTCATACCGTCTGTGATGTATAGAGTTTTGTACAGAGTGTCCTTAACCACAGAGAGTGTGTTTACTATACAAGTATCTGTTTAGATCTTTGATGTCAGTTCAAAATACATGTTCACAATAATCAAGTTTGGATAATTGAGCTAATTGAAActatcagattaaaaaaaaaaaaaaaagtacttttttttataTGTGAGGGTGTGAGGGTGTCAAAGAGCCATAGCCTTTTTTAAAGGTCTGTATAGACTAAACATGCAAACTGAAGGGAGGGATTATGACTGTGATGTTTGACgaaatctttgtgtgtgtgtgtgtgtcaaaaaaGTGTGAAAGTGGTATTATTATTAAGGGGTTTTGGGATGTCGATTTTCGTCTATTTTAATACTCTGTGTTAATTTCTACTCTACGCTGATGACTGCTGATGATGTATCAGTGTAAAATTGTTGTAATTGCCAAACTGGGATAAAATTGCCTTTCTTTGTATGTTTTTACACTGCAGTACTtgtgctgttaaaaaaaacacatcaacaaAGTCACACAATGTGTGTATTGTATCCAACATCGCAAAGACATTGAATCCTCTGAATCTCTTCATGTATATACACCAATATCAAAAAAGCGAAAGCGGCTTGTTTCTGAAAATGAATCGATACCTGCTGTACCTCAGAATCGTTTAAACGCAGTACATTTGTTCACCACCAGGTGGCGCTACCATTCACACGTGGACATTGCAAGCTATACGTCATTTGTTGTCaatataaaacaataagaggGTGACCATGTGTTTCTCTGCAATAAACGTCTAATGTCATAACATATATGCCATAATATATTTAGCGTGGCTTTTTACAGGAAGCAAAGAGGCATGTGATGATCTTCTTAAGTACACAATCAATACAAATGGACTGATCTTAACAGGCTCTATAGTTGAAAGCTATTTATTTCTGGGAAGGGCATAGAAGCATTGAATATAAACATTCAAGTCAGGGTGAAAAGAATGTTTGAGGCTAATAAATGCCTTGCCGTCAAGATTAATTTAAAATTGTAGAAGTAAGCCCTCACAGTGCAGCATTTAAGATACGACTTTTGAACAAAATGTCAATAACTGTTTAAAG
>TCONS_00020033
TTGGTTGAGTCGAGTGGTCTGTTTGGTTTGTGCTTGTGAAAGACGCGCCTCGAGCCACGGCCGAACCATCAGGATGGGTCAAGCATGAAAATAGATGACAGAAGTGGAGCCGGTGTTGGATTTCGCCTCATCGGGACGCTCTGGTCGTCGTAATGCACTGCCGGATATCCTGGGCTCTCCTGTTGGAGTCCCACCTGACCTGCCGCTAAAACTGGCAGAACTGTCCCTCACAGATGGTCCAGGTGATGCTCAGTCCCCGTCTGCAGAGGAGGCCCCGACTCCCACAGAGAGCCCAGAGGTGAAGGAGGGCTCCTAGGTGTCCAAACTAATGCCTGTACCACAGAGATGGGGCTCAATCGGCCCTGCCTTTCCCCTGGAGCTCATCCTCTACCGACTGTTCCTGATGCCTGTCAGACTGCATTAAAGGACGCAACCGAGGGCAGCTAAATGTGAGATGAAGGACAAGGTCTTCAAAGGGTTCGTGCAATGAAAAAATAATAGAATGTCCAAAAAAACTGAAGGCAGAATATTGCAAGAGGATGAGCAAGAGCAATCCTCCTTCTTTttaaaacacaagccaaaacgcAGGGGGGAACCTGCTCGAGAACGCTTTAATCAATTTTACGCATTTGTTTGACAAAATGCTGTTCTTTTTATGAGCTTTCTATCCAATAATGACTATTGTGAGTTCCGTAGACATCCAGTTGTGATTTGATATTGTATGATATTGTGTGATATCTTAGTAATGtgtctctgaaaaaaaaatgccTCAGTCTTTGGAAAGGGTTTATCGTGAAGCGATATGAGCAGATCTGTGTGAATATTCAATGAAGCGTCATGTAGCATAATAAAGGATATAAGAAGAATTACTTTGCGCAAAAACATAATCATGACTGCCAAACTGGAAATGCAATATGCATAGACATTAATCAGAAAGggaaaaataattagtaaattgAGAAGAAATCTGCCTGGTGTGCGTTTCcaaaacaacgacataactcgcgGCTGATCTATCATTgtatgatgcatcatttgggaaacgaacaatgtagtgacgagtgtttcccaaaaccgtagtttcCCTGTCGCAAATCCATCATTTGTACCATGTTAGTTATAGCGTAAAACATCCATAAttatgctctaaacagggtggagtaacaacttctttagaaaaaaaaaacatcatgtttgggcaaataattttgttttacacgcacattaaatgcgtgtgcgtgtaaaacaaaattatttgcccaaacatgatgtttttttttttccaatattagttttggtaaaaacatgcactggtttttcatattaattaaaatatatgtaaacagaACATATAGGGCCAatttttcctttacaaatattaatgagaatattccatattctattctaaagcATAAAACCACTTAGCCACTTAGCTGTGTATTTTTAtctcataaataaattatttaaatcattaatGATTGTAACTTCcaataggctatttattaagaaatgaagaaaaatcaaacttaatattatatatatacaaatctaacttaaatgataatattatatatagaaaagtctactttaacatttacacattcaaaccactgcagaaatgttctaaccaacaggtccatgtcatatacagtacagatacatttcttaataaataacctactataaattaaaagcattaccatatactatatgtttttgttttcacaatttttggagacataacataaattctgcttctaaataataggtcacctgtagctttcgtcatgagccaggactgtgtttaaaatggcataaatgttttcaaagtgcacaatTGTTAATATGAAGACTGCTAAAACTGAattgtaaaaaatactttaaaagcaaattacacctaagagagatgactgtgggggaactggagcacctggaggaaacccacgcgaacactgggagaacatgcaaactccacacagaaatgccaactgacccagctgggacttgaatcagtgacctatttgctgtgaggcgatcgtgctacccactgcgctaccatgATGCATAAATACGTATGCATCTTATaagttaattaatttatgttaaaATTCAAAACCCCAATTCAAAatccataaataaatacatacaaattgtTACACATACATTTACCTGGATGCGTATTTTCAAACCTTTCATTAAACATAGCATAAAACACTTACAGATAACATACAAGTAGCATCCAATTACTATCTAAAACCAAAATCTCCTCCAAGAGCATAtaaacaaacattcgcaaactgtgtcgcaaacttgtACTCTAGAGCTGGAGTTAGAAGTATAATTAGAAATAGAACACAGACAGAagctatgcttctaactacagctctagaggtgtagttgcaaatgtacaagtttgcgatgcaatTTGAGAATGTTCGTTTtcggaaacaccaaatcaactaTGTTTGAGGCGacacaacttgcgaccttagttggatAATAATAgatttcggaaacgcaccccagatctTACGCGGAAACGTTTGTATTTTAcagtttgtcagtttagtggctaattggctAAGTTAAGTCGTTCGAaaatatacgattttaaaaaggaggcgtggcaccaaaccccgcccctaaacccaatcttTATTAAaggagcaaattgtactaaattatacaaatgagactgtacaaattcatacgaattagccactaaatcaaaaagttatgcaTTGCTCTGAGAATGcgtaaaaatatatagtttgttGTATTATAAAAGGATAGTTCATACAAAAGTTAAAATTTGCTGTAAATTATAGGTGACAATTTACTTTGGTAGAACATTAAAGACTGAAtgaaaaactaatgaaaagactaaTGAAAAATTTTTGCTAAAATGTttcataaaatgaaagtaaacagcAACTGGAACCTtgagaataaacaaaaaacaacatatacAGGCAAATTAAAATGAATACGCATGGCTCCTGACAATACTTTGACGTCGAATGAAGCAAAACAGTCAGCCTGGAAGGAAActacaatatttaaaacattataacgTTTAATCTACAGCCTAATGTTACTAAAATGATGAATGAGCTGATCATTATACTTCTTAAGTAGTCAAATTATCATCAGGAGCCAAGaataggcccacatggaatctgcgcgcaGATATCTCATTTAGTCTATTTACTTagttgtataaatgtgtgtgaattaatttcagtaatattattgacaaatatgaaaatgtttaaatgtataatttatttacaatacagtttgtaaagtcatattttctgccTTCATATattagagacttgctttgtttgccaattaagtggatctaattggatttgcactgtaagaattaaataaaattaaaattatattatttttaacttcATATATCAAGTTTTCAGTTTTGATAcccccaaaatcattctgcacgAATACagagattttgttttttaattctgtgctgaaatagcaaaaattgtctgcagattctgtttggccctaACCTTGAGCCATGTAATATTGCCTGAATATTTTGggctgacttgcattttatgaatcacgaAGTACCacaattttgttttcatgttctACCTACACTCTTAAAAATTATAAGACAAAACAAGTCTTgaccacaaatatttttttacgtTACTTATTTTAGTGTTAATCaagtttcaacttttttttttgtaatttatactAAGCTTAACTTcattttttagtcagtttgattgatgaaatttgaaatgactagaaaattgtatttattcaacaacaacaacaaaatagacACCATTTTGAAAGAATTATTTACAGTGCATATTGAAGGATCTGAGCGAGAATAACATaacagcaaatgttcatttttgggtgaactatatcaATAAATCTGCCCAATAAATATTGAAAACATGCCCTCCACCAACAGAATTCCAATCAAATGGTTAGCATATTAAAATAAAGGAAAACTCATTTAACTAATGTAATCTCAGTGTGCAAACACTTTTatatctaaaagaaaaaaataataatcaagtaCACTTTGTATTCTCTATAAACTCTCATACCGTCTGTGATGTATAGAGTTTTGTACAGAGTGTCCTTAACCACAGAGAGTGTGTTTACTATACAAGTATCTGTTTAGATCTTTGATGTCAGTTCAAAATACATGTTCACAATAATCAAGTTTGGATAATTGAGCTAATTGAAActatcagattaaaaaaaaaaaaaaaagtacttttttttataTGTGAGGGTGTGAGGGTGTCAAAGAGCCATAGCCTTTTTTAAAGGTCTGTATAGACTAAACATGCAAACTGAAGGGAGGGATTATGACTGTGATGTTTGACgaaatctttgtgtgtgtgtgtgtgtcaaaaaaGTGTGAAAGTGGTATTATTATTAAGGGGTTTTGGGATGTCGATTTTCGTCTATTTTAATACTCTGTGTTAATTTCTACTCTACGCTGATGACTGCTGATGATGTATCAGTGTAAAATTGTTGTAATTGCCAAACTGGGATAAAATTGCCTTTCTTTGTATGTTTTTACACTGCAGTACTtgtgctgttaaaaaaaacacatcaacaaAGTCACACAATGTGTGTATTGTATCCAACATCGCAAAGACATTGAATCCTCTGAATCTCTTCATGTATATACACCAATATCAAAAAAGCGAAAGCGGCTTGTTTCTGAAAATGAATCGATACCTGCTGTACCTCAGAATCGTTTAAACGCAGTACATTTGTTCACCACCAGGTGGCGCTACCATTCACACGTGGACATTGCAAGCTATACGTCATTTGTTGTCaatataaaacaataagaggGTGACCATGTGTTTCTCTGCAATAAACGTCTAATGTCATAACATATATGCCATAATATATTTAGCGTGGCTTTTTACAGGAAGCAAAGAGGCATGTGATGATCTTCTTAAGTACACAATCAATACAAATGGACTGATCTTAACAGGCTCTATAGTTGAAAGCTATTTATTTCTGGGAAGGGCATAGAAGCATTGAATATAAACATTCAAGTCAGGGTGAAAAGAATGTTTGAGGCTAATAAATGCCTTGCCGTCAAGATTAATTTAAAATTGTAGAAGTAAGCCCTCACAGTGCAGCATTTAAGATACGACTTTTGAACAAAATGTCAATAACTGTTTAAAG
>TCONS_00021978
TCTTTATAACTGGAAAAACCTGACTGAAATTGAGAACATCTGATGGTCCAGGTGATGCTCAGTCCCCGTCTGCAGAGGAGGCCCCGACTCCCACAGAGAGCCCAGAGGTGAAGGAGGGCTCCTAGGTGTCCAAACTAATGCCTGTACCACAGAGATGGGGCTCAATCGGCCCTGCCTTTCCCCTGGAGCTCATCCTCTACCGACTGTTCCTGATGCCTGTCAGACTGCATTAAAGGACGCAACCGAGGGCAGCTAAATGTGAGATGAAGGACAAGGTCTTCAAAGGGTTCGTGCAATGAAAAAATAATAGAATGTCCAAAAAAACTGAAGGCAGAATATTGCAAGAGGATGAGCAAGAGCAATCCTCCTTCTTTttaaaacacaagccaaaacgcAGGGGGGAACCTGCTCGAGAACGCTTTAATCAATTTTACGCATTTGTTTGACAAAATGCTGTTCTTTTTATGAGCTTTCTATCCAATAATGACTATTGTGAGTTCCGTAGACATCCAGTTGTGATTTGATATTGTATGATATTGTGTGATATCTTAGTAATGtgtctctgaaaaaaaaatgccTCAGTCTTTGGAAAGGGTTTATCGTGAAGCGATATGAGCAGATCTGTGTGAATATTCAATGAAGCGTCATGTAGCATAATAAAGGATATAAGAAGAATTACTTTGCGCAAAAACATAATCATGACTGCCAAACTGGAAATGCAATATGCATAGACATTAATCAGAAAGggaaaaataattagtaaattgAGAAGAAATCTGCCTGGTGTGCGTTTCcaaaacaacgacataactcgcgGCTGATCTATCATTgtatgatgcatcatttgggaaacgaacaatgtagtgacgagtgtttcccaaaaccgtagtttcCCTGTCGCAAATCCATCATTTGTACCATGTTAGTTATAGCGTAAAACATCCATAAttatgctctaaacagggtggagtaacaacttctttagaaaaaaaaaacatcatgtttgggcaaataattttgttttacacgcacattaaatgcgtgtgcgtgtaaaacaaaattatttgcccaaacatgatgtttttttttttccaatattagttttggtaaaaacatgcactggtttttcatattaattaaaatatatgtaaacagaACATATAGGGCCAatttttcctttacaaatattaatgagaatattccatattctattctaaagcATAAAACCACTTAGCCACTTAGCTGTGTATTTTTAtctcataaataaattatttaaatcattaatGATTGTAACTTCcaataggctatttattaagaaatgaagaaaaatcaaacttaatattatatatatacaaatctaacttaaatgataatattatatatagaaaagtctactttaacatttacacattcaaaccactgcagaaatgttctaaccaacaggtccatgtcatatacagtacagatacatttcttaataaataacctactataaattaaaagcattaccatatactatatgtttttgttttcacaatttttggagacataacataaattctgcttctaaataataggtcacctgtagctttcgtcatgagccaggactgtgtttaaaatggcataaatgttttcaaagtgcacaatTGTTAATATGAAGACTGCTAAAACTGAattgtaaaaaatactttaaaagcaaattacacctaagagagatgactgtgggggaactggagcacctggaggaaacccacgcgaacactgggagaacatgcaaactccacacagaaatgccaactgacccagctgggacttgaatcagtgacctatttgctgtgaggcgatcgtgctacccactgcgctaccatgATGCATAAATACGTATGCATCTTATaagttaattaatttatgttaaaATTCAAAACCCCAATTCAAAatccataaataaatacatacaaattgtTACACATACATTTACCTGGATGCGTATTTTCAAACCTTTCATTAAACATAGCATAAAACACTTACAGATAACATACAAGTAGCATCCAATTACTATCTAAAACCAAAATCTCCTCCAAGAGCATAtaaacaaacattcgcaaactgtgtcgcaaacttgtACTCTAGAGCTGGAGTTAGAAGTATAATTAGAAATAGAACACAGACAGAagctatgcttctaactacagctctagaggtgtagttgcaaatgtacaagtttgcgatgcaatTTGAGAATGTTCGTTTtcggaaacaccaaatcaactaTGTTTGAGGCGacacaacttgcgaccttagttggatAATAATAgatttcggaaacgcaccccagatctTACGCGGAAACGTTTGTATTTTAcagtttgtcagtttagtggctaattggctAAGTTAAGTCGTTCGAaaatatacgattttaaaaaggaggcgtggcaccaaaccccgcccctaaacccaatcttTATTAAaggagcaaattgtactaaattatacaaatgagactgtacaaattcatacgaattagccactaaatcaaaaagttatgcaTTGCTCTGAGAATGcgtaaaaatatatagtttgttGTATTATAAAAGGATAGTTCATACAAAAGTTAAAATTTGCTGTAAATTATAGGTGACAATTTACTTTGGTAGAACATTAAAGACTGAAtgaaaaactaatgaaaagactaaTGAAAAATTTTTGCTAAAATGTttcataaaatgaaagtaaacagcAACTGGAACCTtgagaataaacaaaaaacaacatatacAGGCAAATTAAAATGAATACGCATGGCTCCTGACAATACTTTGACGTCGAATGAAGCAAAACAGTCAGCCTGGAAGGAAActacaatatttaaaacattataacgTTTAATCTACAGCCTAATGTTACTAAAATGATGAATGAGCTGATCATTATACTTCTTAAGTAGTCAAATTATCATCAGGAGCCAAGaataggcccacatggaatctgcgcgcaGATATCTCATTTAGTCTATTTACTTagttgtataaatgtgtgtgaattaatttcagtaatattattgacaaatatgaaaatgtttaaatgtataatttatttacaatacagtttgtaaagtcatattttctgccTTCATATattagagacttgctttgtttgccaattaagtggatctaattggatttgcactgtaagaattaaataaaattaaaattatattatttttaacttcATATATCAAGTTTTCAGTTTTGATAcccccaaaatcattctgcacgAATACagagattttgttttttaattctgtgctgaaatagcaaaaattgtctgcagattctgtttggccctaACCTTGAGCCATGTAATATTGCCTGAATATTTTGggctgacttgcattttatgaatcacgaAGTACCacaattttgttttcatgttctACCTACACTCTTAAAAATTATAAGACAAAACAAGTCTTgaccacaaatatttttttacgtTACTTATTTTAGTGTTAATCaagtttcaacttttttttttgtaatttatactAAGCTTAACTTcattttttagtcagtttgattgatgaaatttgaaatgactagaaaattgtatttattcaacaacaacaacaaaatagacACCATTTTGAAAGAATTATTTACAGTGCATATTGAAGGATCTGAGCGAGAATAACATaacagcaaatgttcatttttgggtgaactatatcaATAAATCTGCCCAATAAATATTGAAAACATGCCCTCCACCAACAGAATTCCAATCAAATGGTTAGCATATTAAAATAAAGGAAAACTCATTTAACTAATGTAATCTCAGTGTGCAAACACTTTTatatctaaaagaaaaaaataataatcaagtaCACTTTGTATTCTCTATAAACTCTCATACCGTCTGTGATGTATAGAGTTTTGTACAGAGTGTCCTTAACCACAGAGAGTGTGTTTACTATACAAGTATCTGTTTAGATCTTTGATGTCAGTTCAAAATACATGTTCACAATAATCAAGTTTGGATAATTGAGCTAATTGAAActatcagattaaaaaaaaaaaaaaaagtacttttttttataTGTGAGGGTGTGAGGGTGTCAAAGAGCCATAGCCTTTTTTAAAGGTCTGTATAGACTAAACATGCAAACTGAAGGGAGGGATTATGACTGTGATGTTTGACgaaatctttgtgtgtgtgtgtgtgtcaaaaaaGTGTGAAAGTGGTATTATTATTAAGGGGTTTTGGGATGTCGATTTTCGTCTATTTTAATACTCTGTGTTAATTTCTACTCTACGCTGATGACTGCTGATGATGTATCAGTGTAAAATTGTTGTAATTGCCAAACTGGGATAAAATTGCCTTTCTTTGTATGTTTTTACACTGCAGTACTtgtgctgttaaaaaaaacacatcaacaaAGTCACACAATGTGTGTATTGTATCCAACATCGCAAAGACATTGAATCCTCTGAATCTCTTCATGTATATACACCAATATCAAAAAAGCGAAAGCGGCTTGTTTCTGAAAATGAATCGATACCTGCTGTACCTCAGAATCGTTTAAACGCAGTACATTTGTTCACCACCAGGTGGCGCTACCATTCACACGTGGACATTGCAAGCTATACGTCATTTGTTGTCaatataaaacaataagaggGTGACCATGTGTTTCTCTGCAATAAACGTCTAATGTCATAACATATATGCCATAATATATTTAGCGTGGCTTTTTACAGGAAGCAAAGAGGCATGTGATGATCTTCTTAAGTACACAATCAATACAAATGGACTGATCTTAACAGGCTCTATAGTTGAAAGCTATTTATTTCTGGGAAGGGCATAGAAGCATTGAATATAAACATTCAAGTCAGGGTGAAAAGAATGTTTGAGGCTAATAAATGCCTTGCCGTCAAGATTAATTTAAAATTGTAGAAGTAAGCCCTCACAGTGCAGCATTTAAGATACGACTTTTGAACAAAATGTCAATAACTGTTTAAAG

Function

GO:

id name namespace
GO:0099643 signal release from synapse biological_process
GO:0006906 vesicle fusion biological_process
GO:1902600 proton transmembrane transport biological_process
GO:0048488 synaptic vesicle endocytosis biological_process
GO:0048489 synaptic vesicle transport biological_process
GO:0065008 regulation of biological quality biological_process
GO:0043010 camera-type eye development biological_process
GO:0051179 localization biological_process
GO:0007268 chemical synaptic transmission biological_process
GO:0007269 neurotransmitter secretion biological_process
GO:0001505 regulation of neurotransmitter levels biological_process
GO:0032940 secretion by cell biological_process
GO:0050953 sensory perception of light stimulus biological_process
GO:0046903 secretion biological_process
GO:0051234 establishment of localization biological_process
GO:0098916 anterograde trans-synaptic signaling biological_process
GO:0002088 lens development in camera-type eye biological_process
GO:0016185 synaptic vesicle budding from presynaptic endocytic zone membrane biological_process
GO:0048284 organelle fusion biological_process
GO:0016192 vesicle-mediated transport biological_process
GO:0007600 sensory perception biological_process
GO:0007601 visual perception biological_process
GO:0017156 calcium-ion regulated exocytosis biological_process
GO:0099504 synaptic vesicle cycle biological_process
GO:0048880 sensory system development biological_process
GO:0023061 signal release biological_process
GO:0061024 membrane organization biological_process
GO:0061025 membrane fusion biological_process
GO:0099536 synaptic signaling biological_process
GO:0099537 trans-synaptic signaling biological_process
GO:0036465 synaptic vesicle recycling biological_process
GO:0097479 synaptic vesicle localization biological_process
GO:0097480 establishment of synaptic vesicle localization biological_process
GO:0070142 synaptic vesicle budding biological_process
GO:0090174 organelle membrane fusion biological_process
GO:0099003 vesicle-mediated transport in synapse biological_process
GO:0006810 transport biological_process
GO:0050803 regulation of synapse structure or activity biological_process
GO:0001654 eye development biological_process
GO:0140238 presynaptic endocytosis biological_process
GO:0006836 neurotransmitter transport biological_process
GO:0007423 sensory organ development biological_process
GO:0051640 organelle localization biological_process
GO:0051648 vesicle localization biological_process
GO:0051650 establishment of vesicle localization biological_process
GO:0016050 vesicle organization biological_process
GO:0045055 regulated exocytosis biological_process
GO:0150063 visual system development biological_process
GO:0030672 synaptic vesicle membrane cellular_component
GO:0097060 synaptic membrane cellular_component
GO:0030133 transport vesicle cellular_component
GO:0042995 cell projection cellular_component
GO:0042734 presynaptic membrane cellular_component
GO:0043005 neuron projection cellular_component
GO:0098590 plasma membrane region cellular_component
GO:0044456 obsolete synapse part cellular_component
GO:0120025 plasma membrane bounded cell projection cellular_component
GO:0045202 synapse cellular_component
GO:0005886 plasma membrane cellular_component
GO:0045211 postsynaptic membrane cellular_component
GO:0099501 exocytic vesicle membrane cellular_component
GO:0099503 secretory vesicle cellular_component
GO:0071944 cell periphery cellular_component
GO:0097708 intracellular vesicle cellular_component
GO:0097458 obsolete neuron part cellular_component
GO:0070382 exocytic vesicle cellular_component
GO:0031410 cytoplasmic vesicle cellular_component
GO:0008021 synaptic vesicle cellular_component
GO:0031982 vesicle cellular_component
GO:0098793 presynapse cellular_component
GO:0030658 transport vesicle membrane cellular_component
GO:0030659 cytoplasmic vesicle membrane cellular_component
GO:0005484 SNAP receptor activity molecular_function
GO:0019829 ATPase-coupled cation transmembrane transporter activity molecular_function
GO:0017075 syntaxin-1 binding molecular_function
GO:0022853 active ion transmembrane transporter activity molecular_function
GO:0000149 SNARE binding molecular_function
GO:0019905 syntaxin binding molecular_function
GO:0005212 structural constituent of eye lens molecular_function
GO:0015077 monovalent inorganic cation transmembrane transporter activity molecular_function
GO:0042625 ATPase-coupled ion transmembrane transporter activity 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_00020032 False 5363 lncRNA 0.35 3 34478997 34502203
TCONS_00020033 False 5214 lncRNA 0.35 3 34493987 34502203
TCONS_00021978 True 5023 lncRNA 0.34 2 34497100 34502203

Neighbor

gene id symbol gene type direction distance location
XLOC_010081 NA coding upstream 155990 34319889 ~ 34323007 (+)
XLOC_010080 NA coding upstream 157618 34315762 ~ 34321379 (+)
XLOC_010079 oprd1b coding upstream 304737 34160835 ~ 34174260 (+)
XLOC_010078 tcea3 coding upstream 343753 34111919 ~ 34135244 (+)
XLOC_010077 tent5ba coding upstream 422554 34046733 ~ 34056443 (+)
XLOC_010083 paqr7b coding downstream 20774 34522977 ~ 34532888 (+)
XLOC_010084 stmn1b coding downstream 21312 34523515 ~ 34527206 (+)
XLOC_010085 AL929184.1 coding downstream 222365 34724568 ~ 34724682 (+)
XLOC_010086 NA coding downstream 411081 34913284 ~ 34916253 (+)
XLOC_010087 CR385021.1 coding downstream 704652 35206855 ~ 35280788 (+)
XLOC_010070 BX530064.2 non-coding upstream 722618 33752102 ~ 33756379 (+)
XLOC_010067 AL954832.1 non-coding upstream 1135732 33343151 ~ 33343265 (+)
XLOC_010066 NA non-coding upstream 1185217 33250490 ~ 33293780 (+)
XLOC_010093 NA non-coding downstream 1053563 35555766 ~ 35556976 (+)
XLOC_010096 AL773558.2 non-coding downstream 1223815 35726018 ~ 35726132 (+)

Expression


Co-expression Network