RNA id: TCONS_00075311


Basic Information

Item Value
RNA id TCONS_00075311
length 13361
lncRNA type antisense_over
GC content 0.37
exon number 2
gene id XLOC_037691
representative False

Chromosome Information

Item Value
chromosome id NC_007120.7
NCBI id CM002893.2
chromosome length 56459846
location 13097221 ~ 13120257 (-)
genome version GRCz11_2017_zebrafish_Genome
species zebrafish
(Danio rerio)

Sequence

cccaGAAGCAGCTCATTTTCTACAAGGAAAAAGGGACACAAACGACAAGCAAACTTCATATACAGGCTTTCATTAATATAATCTTTAATCAACTGAGTAATGCAGGGTTGTACAGCAAGCTTTTATTtctaaatggcattttaaaacatcttctgAATAGACTAAAAGCATGAGTTatcattttgttcttttttttctcctcaaaGTGCTTACTTTACAAGCTGTAATAGAAAACATGTCAgtggcttttttttattttgaacatcCGTCTAGGCAGGGGCCAATTGAAGACAGCTTCAACTCTAAACTTAAATTGAACAGAGAGAAAAACAGCAGCTTGTCAACACAGAACCTtcattcactcacacatacaAACTCCAAAAACACAGCTGACAGTCCAAGTTTGtgttttaaatggatagttcatccaTAATTAAACATTTCCTCAGCATtaactcacactcaagtggttctagatgtttgttgttgaacacaatacaagatattctgaagaattgtggataaaagcagccattgacatccattgtaggaaGTAAGTCAATGGTGCTacttttaaacattcttcaaatatttatatttagtgttcaacagaagaaactaaaaaaaattctaaaacaaGTGGAGGTTGAGTAAAAGATGAGAGAATGTTTATTTTATGGGGGGTGAACTTCTTcgcagcaggcacaggacgtcaacatgacgtcagattgacgttgtaccccaacgtcgtggggactttgcattttgtttggaaatgaaatcaaagagcttagaatgactaAAAGGCGACCCtgaatagaacgttccattgcaacagcagcgcccagcaacagccccagcgatttcgccattttggagtgaaagcgatcagcCTTCCATTAGATCTTATCGCTGTTgcaatggcaagcagctgctttgttatttatttattcattttaaaagagcattaaagctgagatacaacctgaaagacgacaatacaacacttactatcacaatcatcagcacttttaatagcttattttacagacttataatatgttgttgttctattggaattttcattccaaaatggctacCGACACATCTAGTgcctgtttcccaaatcgcactagagtgtctcctcttggtgattctatgctctttgatgAAAATCagtttgacgtcagaactcaatatcaggctgacgtcaatgtccaacttccaacctaaaatcaaccaaatatcatcaACCGCccttccactgcacacgacatttgcaTACGATTGTGCCCaaaatacgcccccttgtggcagtcgcacagaattttctgttttgtcatgtaccatgggagagaagctgctGTTCTCGCAGAATCCGGaaaaaagcaagagcctttattctctgtgcgttcaccatggttgaatgaattaatactagaaactcatagatcgctaaaaattttggagggaatgttgagacaacatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatactaatttatgattagaaatgtttttaaatataaacttttttttctgattcaaaaacTAGTATTTCTCATCTCGCATGCACGAACCTGCTTTGAAAACACtaaaatacatcacatccggtcggccggtcgcatacAGTCTAGGCGCAGGAGTTGAACATTTTTTACAGATCCGCAGCTCAAATTGGATCCGAATTTCCGGAGATGATCGGAACACGCAGCTCCCgaactactctccattggaaatgaatgacttctggtctGTTGCTTGTCAGTTGTCGTGTGCAGTAAAAAGAAGGcttaataatgttacagcttgatgttgagtggacgttaccactatgacgtatATTAGGCATTAGATTTTGGATTATTGGAAATCAAAATAACTTTGtctttagatgctggctagacattggattttggtcacctgacatcacgacctaaCTCCAAcctaatattacagtttttcttgtttgctttgacctggttaaagaaactaggatCCACTCCTTCCTCACCACTATCCCAGCAAAGCAGAAGACTTGTCTTGAAAATGTGTAAACTCTTTCTCATTGGATTGATACATTTtccccaacatttttcaaaacagttaacacggatgtcattcaagcagtccaaacttcattgttttagctatggttaCCAAACAGAaatcatctatctatctctaactattggaaactaccaagatcagtatgaaatcactgaagctcCGGTTtaacactccttcacacaaaatcttcaattagcaatcagtcaaTGGTGGCTATGTCTGCTACTCTGATAGATTTGACTACAGTTTGGTTTCCATGTGTTTTTTCTAATATTTAGAGTGTTTATTGGgttcttttggttttgtttttacagtattttagtttgaaaaaaatGTCATGTATTCAATAAAATTTTAATCAGCATTTCTTATGCTGGATCCAATGGAAAATGGCAAATTTGACATCCTATATGGAAAGACAACAAACGGTTTTGGCAATAGGGTACATTGCTACATTACATGctctgtattttgttgtccattgtgtaattgattatacttgtttgcaagtggTGTTGTTTGAAGGCAAAATTAGCTTTtgctgcatattttaaatgttttgacaccgttgcaagcaaaatgtgtcactTTGACCACGAGtgctgctgtttaggcctgtgtgttaactgttttgaaaatgtgggaTTTGGGTTGACGGCTGCtccaaagcaatcaagaaaaaacTGTAACGTCTTacgatgttgtgtgcctgctgggttaagGGACACGCATTGTTAGCCAATCGTTAGTTTTTTGTGTTTGGCTTTGCGAGGACTTCGTTTTAAAATTCAGACTTTGTCTTTTACTTAAACCACCCCTGCAAACTGACAGAATTGAAAAAAGTTTTCAAGGCCTGCTTCAAGAATAAACAAGGCATGTAGGCATGTTTACGCATTTCAGAACCGTCAGGAAATGATTTGGTATTCAACAGTGTGCTGTAGAACTGGACAATGGCTCTGGTGTAAACATTTTGCATTATTAACACGTAGCAGATGGACAAACTTCATTTCCAGTGACTCAAGCTGCATCCACATTCCAGCCTCAACACTTTGGTCTAAATCATAAACGTGTGTTCGTGTTATTCACATCAGAACTGGATGTTTTAAATGTCGTCTAATAGGCTATTATTTCTCATTTGTGTTAGGGGTAATCCAGCATTTGCGCTGAAAACAGTCTGACGTTACTGTGTTTATCTTCAGATAAATCTCACAGTGATTTATTTAGTGTTGTTCTTGGTCCCGAAGCAACAGATGAAGAGTCTGTATACAGAGTGTGCATAAAAATGCGCAGTATATTTACACCGCCTATATTACAAACATATATAAAAGTCAGACTGAAGCGCAGATTCGTTCGGAAAGAGGACGTGAGAAACTAAACTCGACTGTATCGCCTTGTTTGCTGACGGAAAACTCcatggagggggggggggggggggggggatcagATGACTTCTTGAAACTTCCCCCGATCTGAAGTGCTCAAAGTCCAAAGATAACGCAGGCTTCTGCCAAATGGTGGTTAATCCACACACTTAATGAGCACGGTTCTTGTCCACCTCTTTGGGGTCCAGTTTGGTGGTCTCCAGATCTTCCTCTGTGAGTTGAAGGCACACTGGTACACTTCCTCCGGCTCCTGTGTCCTCCGAGTGGCCCGATTCGGAGATGGTGGTCATGATGGTACTGGGTGTGAGGCCTGTTGTGGTGGTTGTGGTGGACAAACTTGTGCCGCTGGTTTCAGGACTGGGCAGTCGAGCTTGCGCCTGAGCTTGCTGTCTTTCATAGTTGATGGAGTTTCTGTTCTTCTCTCCGGTCGCTGCAACGCCCCCACTGCTGCCACTCACGCCCACACCACCCACAGAGGAAGTGCCAGACGTGGAGACGTCGCCTGGGAGGTTCTTCACCATGCCCTCATGATCCTCGATGTAAGAGGATGAAGAGTAATCTGGGTAAGAGCCCATTTTGGGAGCCCTGCGGCTGTGGGTCAGATTCCTGCGATTATGGAAGAAAAAACAAGGGTCAAGGCAGAgaacagatggtctgtttaattaAAGGTGTTAGATGTGTAGGGTAATGTACAGGTCATTATTGCAAAAACAAGCCAGACAGGGTGATCAAAATCCTCTTGCGAATAGTTTTGTAATTACtactttaaattacattattccactaatttacacacatatattttattcaatatattgTTTTCTGTAAGCACAAAAACAAGATGGTCTTAAAAGTCTTGTGGACAAATATTCAGTGTTTTTATTCATGAAGTTTTTTCAGTAACTTCAAAATTGTAGTTTtacactaaccacgcataaaggTTTCTTTCACCAAAACACAATCTTGTGCATAAATGTTACTAACATATTATTGTAGCCCGGTTTGTGTCGTTTACAGTGGTATTAGACTTTGACCACTGATATGTTTCTAAGCAACTGAAAAACACATAAATGTCAGGGCACATCAGAACTTTTCCAGGCCTGCAAAACACCCTAAGACCCCAGAGGGGTTAAGGCTACATGACTTCTAATCTAATGcgttatatgcacacagactcTTAATTTTCAGACAGCCAATTCGATGAactctttccattacaaaatcgcCATGTTTAAGTTCTGCTTTCTTTACAAAACAGCAATATTTGGTTTGAATCTCAgacagacaagaagcactgcattaaattctgtttttccctgccttatttattttacctcagtattttcaatggagtttctgcgttAGCCTGCTACCACTGACAGCACTAGAGTTTACACAGTCTATCATCTTGTTTCatgcttaaacaactaaatgaatgcttaactttatttaaatgaatgtattttaattccATTATGCTGTCAATCCTGTTAAAAGAAAccttattgaatttaaaatagtcacattaagctttcaacAGAAGTTTattgttggctgaaaaacactagttgtgcatatagcccattggtatgtttctgataaaaaaaaagtgatttaaaatatctggcataaaatataaaatatatattaataatacaaaagcCCAATCTGGAACTATTATTCATGTAATGAACATTGTGAGTGCATCGATCGGACCTCTCGTTCTGCAGCGCTGTGCTCATGGGATTGATGGTGGGACTGACAGGTTTGTTCCTTTCCCAAATCAGCAGCAGTTCTGCCATACGCTCCTCTGCACACTGCGCTGTCAGACGAGCCTCTGCATCCTGATCCCAGCAATCCTCCATAGTCTCCTTTAGAGAGCGCACAGCCTGGAAGAGAGGAGAGGAGAGCGATGTGTTAAAACAGACATGTCATTATTATACtgttgcatgttttagatgtaatgtaatgtgtatttatatagcgcatttaatgtgtatgaccatacacccaaagtgatTCACAATCATTAGGgggatctctccacaccaccaccagtgtgtagcatccacttggatgatgcgacggcagccacaggacaacagcgccagtgcgctcaccacacaccagctatagagggagtggagagacagtgatagagccaattcagtggatggggatgattgaggaggccatgatgggcaaGGGCagagagggaatttggccaggacaccagggttacacccctactaattacgagaagtgccatgggatttttaatgaccacagaaagtcaggacctcggtttaacgtctcatccgaaagacagcgccaacagacagtatagtgtcccctttactttcactggggcattaggactcacacagatcaGATGGTTGCTTTATGTGAAAACTAAGGTGTTCTGCACTGTGTCAAGCAGGATTCAGCCTATAGTTGTGGGTGATATGgccaaacattttaatttttagcaAATTTTGGCTCCTGAGTGAAACCAGACAGTTATGTGTGACCATGGAACACAAAGACTTTTTTGTTTCACGGATGTATTAATGCCAATAGGCAAAAATATACCGttccttcattaattttcttggcggcttaattcctttattaatctggcctcgccacagcggaatgaaccgccaacttattcagcacaattttacgcagctgatgcccttacaTCCGCAACctaactctgggaaacatccacacactcattcacacacactcatactctacagacaattagcctacccaattcacctgtattgcatgtctttggactgtgggggaaaccggagcacccagaggttacccacgtgaacgcagagaaaacatgcaaacttcacacagaaatgccaactgagccaaggctcgaaccagagaccttcttgctgtgaggcgacagcactacctactgcgccaccgcgtcacctaataataataattataattaatgttaaagggcaccttggttaccccttttttcagatttattatgaatcatttgtgtctccagaatgtgtctgttaagtttcagcttaaaacacccatcagttttttttattataccttttgtACGATTCTGTTTTCTACATTTTTGCACTGGGTgttttgttgtactgcgcctttaaggctggTCCCCCTCGCCCAccgtttctacgtgcctttctgcgtgctttaatctcctccctcggctgcatcagacaacagacagacttaaaggaagcagatctcatgtagcgtttgtgagaaatacaacagtaagaactttaccaatgagtatctGATGCATTTGCTGTGTTAAGttacaacgatgagtcacacacaatgtcgttacaaagttcacagaCATGCATACCCAGCACGGAcatgatacacacatacatacagacagcgcgtttagctttgcactctttatgcacgcaaatgtgacaggatacaggctaatctccactgctgtatggatatctgttaatGCTGTTGGATATATGTTAATGTAcagaataaacctgatttaatgtctacaaaccgggattgaagcgtcttttttcataattgttctgacacgcggctgtgctgatgaagtaaatctGTAGTAAATCGCTGTatttcattacacacgtgcactgttttaaaactttttaaacacGTGAAACTTActtttgatcacatttgatgacgattgatgatcctagcaaactgaacagatctATTATTCCCGGTcgcacacgtcctgtcttgtttatatgattatacacgtgactaccgggacatgttacgcagctgtcaatcaatcgatgggcggggggaccgcactcctacgtcaagttgtggtCAGTCTGACAATAGCTCCAATTGGTTtatcgtttttatgttgttaaattgacaaAAAAGAAGATGCTGTAAttatattaccccaatatgacctcatatacactatacctacagaTATTTCTGTCctaacagcttgaaaagtagattttttaccataggtgccctttaataaaacCACATTGTAAATCCATAGAgactgcacggtggtgcagtgggtagcatgatcgcctcacagcaagaagtttgttgGTTTGAAAccccccagtgatgggttgcagttggaagtgcatccgctgtgtaaaacatatgctggataagttggcagttcattccgctgtgggaaccccagattaacaacttttttggactaagccgaaaagaaaatgaatgaataattgctaATCCATAGAATAGCCTTAAAACAGGATCTTTCCTGCCAGTGTTTCTACTGTATATATGATATCCCCAAAAAATATCAGCATGTTTAATCTTTTTAGTCCTTTAGAACAGCAGCTTGTCTGTACGCAGCTTTTAAACAGGTTTATTAAAGCCAGTCTGGTAATTAGTTGTGACTTGTTTATGTGACTTTCTCAGCCTgttgtcaaaatattttttatgtttagaaTTAAAGGTCGGTTCAAATCTGAAGTATAAGTACAATTAACTGAATCTTGTCATCATAACATTAAAATTATAGATGCAATTTGGCAATTAAATTCCAGTTTTAAAAGGTTCAAAATGGTTGACAATAACAGTTAGTGCTTCTCTAATGATGTGTCAGCTGATCCTGCAGCAATATTCTGACTGAGCAAAATGTGATCGTCTCATTGGCTCACCAGGCTGTTCTCCTTCCAGGCTTCTGGGAACTTGGGTCTCTGTTTCTCTCTGGACACCAACACCTGCATGTCCTCAAAGGACGGGTGGTTTCCCGCCTCGGCCTGGAAAGCCATCTGGTATTCTGGCACTGTCTCTCCTTCAGAAACAAAGGAAAGTCAGTCAGTAAGGAGACCTCCACACGCCAACATGCATTACAATTACTGACACAAGCCACACTTTTCCATTAACATAATGAGAAGGACTTAGCTGTGAGCCAGTGATGCAGCCTAGTGGTTAGAGGGGCACTACACTTTTTGGGGGGTGGTAGACTTAATTTACAAGTCCCCTAAAGTTTAACAGTTCAGCAGATTCATTCAGCAGATCTCCGGTTTTGGTgggatcacttttagcttagctcagcTTAAATCAATGAAtaagattagaccattagcatcttgctagaGTATTATACCTTGCCTTCTCAGCAGAGAAAATAGGAACATTTCAGTTTTGCCAGTCTTAGTAACACACTATAGCAACAGAAGAGTCAAGTTTTAAATAAGACAattatcaaaactattttttatgagATGCTACTGATCttatccaattcaatgatctggctaagcttagctaaaagtgctcccatcaGACCTGGAGATTGGATAAATGAATTCAAAAGTCATAAATTCAATTGTTTAACTCtaagggagttgtaaaatgagcatatttccaATAATGTGTAGTGTTTATTTAAAGACATGATTTTTGATTGTTAAAGAGGACAAATGAGGTTGCCAAAATAAAGATTATTGTGTACATTTGATGCAATGCAATGTGTTTACAtggtttaaagtttaaataaagatattatttttatggAAATACCATAAATTATTATAACTCATCTCTGCCCTGCTTTCCTGAAATGTTCGACATATTCACTATTATGTCTTGcttttttcattcctttaaacctgttttaacacatttaatatgattttaatcatttactgcttgttgtttttatttcttatacttgtttcttttattcttgtttacatAAAGTACTTTAAATTacaattgtgtatgaaatgtgcttaaACTTGCCTCAAATTCCATTGATTTTTACAAAGCTCATCATTCTGAAAAGCGTTGTGTGTGCTCcgattgtgattggctgaatacCTCAAGCAGGTGCATCAGCAGTACTGGAGtgagttattttactttattttgtatatacttCAATGAATATACATGTTTGGACAATCTTCTCACTGACTGATGTAGGTTTAAATGTGGGAGCGTGTTTGAATGAGGCGTTTAGGTAGTCGTGGATGAGTCGTAACTTTTTATAAAGGATATCTCTTTGGgttttactcttcagtgtttaaaaCTTCATGGGTCTTATAAATGCACAAACAACTCACAACACTTTAAATATAAAGGAAAATGTTGAAGATGTATCACCTTTAAAGGACCATTCACACCAAGaatgataaaaatacatttaattataacaacaactagggctgcaccatattggaaaaatctgacattgcaatagtTTGGTTTGCTGTGATACATATTGCGAGATTTTATTATTTCAGATCGACTGGGAGGATCAAGTCTTTTTCCATGCATTATATCTgcataaaatagaattaattacAAGCATATATGAATACAACGGagcaaaaaaaagtcaaataaacagtgctttatggttttctgggagttttaacattattcaaaatactcaaaatacactaattgaacaattaaatgcaaaataatataagcatcattttaataataattaaaaaatagacAATCTGACCCGGAAATGTGGCTATTCCAGTTACAGCACACATTGCGAAATCAAttctcaaatgatatattgttcagccctaacaATTTCTGTCCACATCagcaaacaatgtttatttttagtttatagttgttgttgttttgtatttactCCCTTGTAACCAGCAGGTGTACTCTGTGCTTCATTCCTAgtgcatctgaccagtgaatccaacTCGTGTAATCAATAAAATCAAACAGTGATTTAGCAATCGAGTTTGGTGTAGTGGACAAGCTAATTTTGTCTCGCATTTTCAAATGAGGCAACACAGAGATGTTGATACTAGCGCTGGATATTTaaagtacttttatttttatactttaatttgCTAGACTGGCTTGCGTAGCTTTAATATAACATAGTCTTTTGGCATTCCTAGTTTTCAAGATAGTTATTACCTATAATTAATCTTtgacataataatgataatcttAACATCAAGCAGTGTGCGTCTCAACAATTTCATTTTTTGCAAGGAATGAAGTAAGAAAAATCTCTGTGAGCATTTCAGTGTGCTGTTATACTctttaataaaagttaaaaatcacAGACCCTAAATACCACAGCTGCCATCATCAAAGCAATGCTTTTTGTAATAAATCCTCTTCTAGTGTGAAATATCAAGACAATTACAGTCAGGTTTCAAAAGATTTCATACCTCCTGCTGTGAGCAATGTTCCCACTAGTATGCATGATCCATAAATCTCTTTGTGAGAACTGCAAATTATTTAGCACTATAAAAGGttatgtattatgtattttatGCAGGGGTGGAAGAActtcaagttgttgtttttttttaattgcatcttTCTCAAGCATTACAAACATAGCTGTggattatccagcatatgccatAAAAAAGCTGTCAGCACTGATGTTTCTAGTGTTAAAAACAGACTATGGGTCAAAGATATACTGTAATCAATTACAAGTTAGTAATTTAATGCAAAGATATACAAAGAAAGtatattaaaattaagttattatcactgtcaggattttttttttctagtgaaACGATGGCATCCATTTTTTAATTAAGTAACAATAATACATGTATTTTGCCTTTAAAATTGTGAGGTAATAATTTCATAAAGCTACACAAACtaacattcattaattaaaagagtcaatgcatatatttataatgttattcGAACCGAACCGAGAGACGAGTTAAATCAGACCAATCTGATCCTGGGATGTGGCTATTGCAGATGCACAATTTGCCATATCAATTCTCACATGATATACTTTTTAGCcctaacaataaatatatttctgttcaaatcagcaaacaatatttatttttaatttatagttgttgttgtttttttgtatttacccCCTTGTaaaccagtgaatccagctcgtgtaatcaATAAAATCAAACAGTGAATTCAGCAATCGAGGTCGGTGTAGTGGACAAACTATTTTTGCAGAGCATTTTTAAATGAGGCAACACAAAGTTGTTGAAACTAGCACTGGATATTTGaggtacttttatttttatacttcaaTTTGCTAGACTGGCTTGCATGGCTTTCATGTAGCGTAGAGCTTTAGCATTCCTAGTTGTGGTAATGAATGTTTTCTTTGAGCaagtaaaattaaagttattctttttgaatcaccctgtactgtataaatataaatatatttaaacattttttattaaaaaaataaacattttattaaaaaatatataactgtGGATGGAAACAATcatcaatgcactgtgatgcaccgagatatcaaattgaactgaatcaatAACACGATATCCTTATCCAAACCGAACCGGGAGACCAGTTTAGGTTCACATCACAAATACTTAAAACTTTAAATGAGAATTTTCTCAGGCtcttgtgtgtaggttcagtcatttcacttttatggcagtGAATAGGTTCcattcattgcctttaaagtgtaCTAACTGAACACAAAATTATTAAGAGACAAGAATACTTGTAAAACAGAAGTAGAAATTTAACATCTCACTCAATTCAATATGATGAAATAAATCATGTAAATTCATATGATTATGAAATTCATGTAAACTCCTGTGACCTTTCATGGTATCATCAATAAATAAGCAACATCTAGCAGCAGCACACATATATAATGCGGTTTTAATGAAAAAGAACATAAAAATTCTTACAGGAAAAAGATGAACACAATTAAAGTGTACATCTACGTAATTTTAACAACACAAAAAACCTGCTACTACAGGCATTATGCAGCAGCACATCTGCATCGTTGCTGTTATTTGCGTGTATTTTCTCACCTGGAAAAAGGTCAGTGCACCTCATAAAGGTCTCCCAGTAGATGAGGCCGATGGCGTACATGTCCACCTGTTTCAATGCAGACTCGCAGTCCCTGAGGTTCACGGCTCCCTCCAGCACCTCCGGCGCCATGTAGCGGATCGTGCCCACCTACACAGCACAACAGGGCAGGTGTGAGGTCACAAGTGCTTTTACATTGCTTGAGTCAGCAATTGTGGACAAATAACTCTCTCTCATGGCTTATAAATGGGTCATGTGcaataaaaagaaaactcatTTCAGCGGCTTCATCTTGTTCTGACCTCACTGATGGCGGCGTTTTCCTCTTCTCCAGGCCGTACCAGACGATTTCCAGTCAGCTTCATAGACAGACCGAAGTCGCTGATCACACAGGTGCCATCGTTCTTCACTAGAACATTCCGGCTGTTTAGATCCCGGTGCGAAATGGCAGGTTTGTATATATCTGTAAAGAAAAGTCCATGTGAGGAAATGGTGGTTTCATATCACGGTTTTGAGGAGTCAAACTCGCAcaaatgtcttcttttttaaAGGCATGTGTGGAAGAATCTGGATGTCTTTGTACACATGGTGTCAACAAGAAGGCTTTAAAGAtgtatatttcaattaaatgctGTCCTTTTGACACTACTCACTGAATAATCCTAATCAcgatattcatattaatatttatttaaaacagggagaaatactgaattaaaatatataaaattaattcatttattaaattattaattgatttattgaaaTCAGGAATGggtaaaagtttaaaataatggcCCATTAGTTAGTGTTAAATAATTAGTAATAtatgtattacagtatttattcatctctgTTAAGGTAAgtattgttttagtttgttgtaTTCAAGTTAAATGATGTTAGTTAATTAACTCACCGTTCATTAACTAATAAAAGCAAGCACAAATTTAGATTGTATTAACAAattagttaat

Function

GO:

id name namespace
GO:0070482 response to oxygen levels biological_process
GO:0036293 response to decreased oxygen levels biological_process
GO:0046034 ATP metabolic process biological_process
GO:0006091 generation of precursor metabolites and energy biological_process
GO:0042773 ATP synthesis coupled electron transport biological_process
GO:0042775 mitochondrial ATP synthesis coupled electron transport biological_process
GO:0006119 oxidative phosphorylation biological_process
GO:0006123 mitochondrial electron transport, cytochrome c to oxygen biological_process
GO:0022900 electron transport chain biological_process
GO:0022904 respiratory electron transport chain biological_process
GO:0009123 nucleoside monophosphate metabolic process biological_process
GO:0009126 purine 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:0009150 purine ribonucleotide metabolic process biological_process
GO:0072521 purine-containing compound metabolic process biological_process
GO:0030574 collagen catabolic process biological_process
GO:0009161 ribonucleoside monophosphate metabolic process biological_process
GO:0009167 purine ribonucleoside monophosphate metabolic process biological_process
GO:0015980 energy derivation by oxidation of organic compounds biological_process
GO:0009199 ribonucleoside triphosphate metabolic process biological_process
GO:0009205 purine ribonucleoside triphosphate metabolic process biological_process
GO:0001666 response to hypoxia biological_process
GO:0045333 cellular respiration biological_process
GO:0098803 respiratory chain complex cellular_component
GO:0005743 mitochondrial inner membrane cellular_component
GO:0005746 mitochondrial respirasome cellular_component
GO:0005747 mitochondrial respiratory chain complex I cellular_component
GO:0030964 NADH dehydrogenase complex cellular_component
GO:0044429 obsolete mitochondrial part cellular_component
GO:0044455 obsolete mitochondrial membrane part cellular_component
GO:0019866 organelle inner membrane cellular_component
GO:0045271 respiratory chain complex I cellular_component
GO:0031966 mitochondrial membrane cellular_component
GO:0031967 organelle envelope cellular_component
GO:0031975 envelope cellular_component
GO:0070469 respirasome cellular_component
GO:0098798 mitochondrial protein-containing complex cellular_component
GO:0005739 mitochondrion cellular_component
GO:0098800 inner mitochondrial membrane protein complex cellular_component
GO:0005740 mitochondrial envelope cellular_component
GO:0009055 electron transfer activity molecular_function
GO:0015002 heme-copper terminal oxidase activity 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

JBrowse2

Neighbor

RNA id RNA type direction distance location representative gene id
TCONS_00075309 lncRNA downstream 140973 12954567 ~ 12956248 (-) True XLOC_037690
TCONS_00075308 lncRNA downstream 148264 12945557 ~ 12948957 (-) True XLOC_037689
TCONS_00075307 lncRNA downstream 194208 12899168 ~ 12903013 (-) True XLOC_037688
TCONS_00075306 lncRNA downstream 194439 12889898 ~ 12902782 (-) False XLOC_037688
TCONS_00074010 lncRNA downstream 361168 12727186 ~ 12736053 (-) False XLOC_037686
TCONS_00075313 lncRNA upstream 127438 13246024 ~ 13246524 (-) True XLOC_037692
TCONS_00074019 lncRNA upstream 198333 13316919 ~ 13343167 (-) True XLOC_037693
TCONS_00075314 lncRNA upstream 656810 13775396 ~ 13804930 (-) False XLOC_037695
TCONS_00075315 lncRNA upstream 656810 13775396 ~ 13805159 (-) False XLOC_037695
TCONS_00075316 lncRNA upstream 656810 13775396 ~ 13810187 (-) False XLOC_037695
TCONS_00074017 mRNA downstream 209064 12885749 ~ 12888157 (-) False XLOC_037687
TCONS_00074016 mRNA downstream 209139 12885746 ~ 12888082 (-) False XLOC_037687
TCONS_00074014 mRNA downstream 211113 12868409 ~ 12886108 (-) False XLOC_037687
TCONS_00074013 mRNA downstream 212020 12868047 ~ 12885201 (-) False XLOC_037687
TCONS_00074020 mRNA upstream 233722 13352308 ~ 13355071 (-) True XLOC_037694
TCONS_00074024 mRNA upstream 696377 13814963 ~ 13963078 (-) False XLOC_037696
TCONS_00074023 mRNA upstream 696377 13814963 ~ 13963078 (-) False XLOC_037696
TCONS_00074025 mRNA upstream 701561 13820147 ~ 13871935 (-) False XLOC_037696
TCONS_00074027 mRNA upstream 925724 14044310 ~ 14055959 (-) False XLOC_037699
TCONS_00074018 other downstream 209363 12885752 ~ 12887858 (-) True XLOC_037687
TCONS_00073999 other downstream 502498 12584643 ~ 12594723 (-) False XLOC_037682
TCONS_00073998 other downstream 502504 12582266 ~ 12594717 (-) False XLOC_037682
TCONS_00074000 other downstream 502516 12584903 ~ 12594705 (-) False XLOC_037682
TCONS_00073978 other downstream 1241916 11822379 ~ 11855305 (-) True XLOC_037675
TCONS_00074026 other upstream 721156 13839742 ~ 13853399 (-) True XLOC_037696
TCONS_00074033 other upstream 974655 14093241 ~ 14108880 (-) True XLOC_037700
TCONS_00074049 other upstream 2451757 15570343 ~ 15572163 (-) True XLOC_037710
TCONS_00074050 other upstream 2567160 15685746 ~ 15689059 (-) True XLOC_037711
TCONS_00074051 other upstream 2663462 15782048 ~ 15789364 (-) False XLOC_037713

Expression Profile

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