XLOC_000940


Basic Information

Item Value
gene id XLOC_000940
gene name NA
gene type non-coding
species zebrafish (Danio rerio)
category of species model fish

Chromosome Information

Item Value
chromosome id NC_007112.7
NCBI id CM002885.2
chromosome length 59578282
location 2000666 ~ 2005535 (-)
genome version GRCz11_2017_zebrafish_Genome

Sequence

>TCONS_00003297
ACCCGAAGCACTTCTGAAGACCGAAAGGATTTTACAAGTCTGTATGCATTTTTAGCGCTGAATTAATGTCAAACATCTAATActgaagaaaaagagctggagaaTAAACCCAATCCAGAATGTTTGCCGAGCACAAACACTGTCAATATCCATATGGGAGATTCAATGGGTTTTTTTCATCCCAGCGCAGACAGACGATAGCTTCAGGAGTGAGACAAAGATCTTCAAAAACAGACAAAGAAGAAGAAGGTCAGCCGATGCCCCTGAGGCCTCACTGGAGACGAGAGTGCTCATTTTGAGGGTCTTTTGGCCCCTAATGCACTAATTTCAGCTCTACTTGCTCCGTGAAGCAGCGCTGGAGCTTCTGAATGAGTTTGTAGTGGAGCTTCAAGACCAGGCCCAAGGCACAGATTCAACCGAAGCAAAACCCTGACTTCTGTATGACTTCATTTGACCCGTCTTCAGGAGTCACTGGGTCAATATTATGTCTTCTTGAGGAGCAGCCACACTAGACCTTCATCATGTAACCTTCATTCATATTTGTGtaagggatgcacaatatatatattgcaagTCAGACTGGTTAGAAATACTTGCCTTAGCTTATATTATTGCGAAACGTAAAATATGTTGCTTTAGATACGTTTCATTGTatctttcagatgacaaatccactggaaggcgctgtttacatttttccaaagctgaaatacgttacttagggtgtgtCTTGTTTTACGTTTTAtaaaacaaatccactagagggcgctgtctaaatttttgcaaaatgtaaaatacattacttGGTGTATATTTAGTTGTATATTTCAGTTAACACAACCACTAGAGGGTGCTATCGACATTTTTGCTAATTGTAAAATATGTTACTTATTGAAACGTATTGTTgtatatctgcttgttaagtgtgacgtcacgcgaagcggcttccaggtccaagcgttCTATTCAACTGAAAGGGGAGACTATGGTAATaatatggtaataataaacgtttacaaagcgatttaatactttcgaaaatcacaatcgcaatatatatgtccatgcctaatatccaatggccagaaagtgattcatttttttataaattgttcaaattttggtatttgtgatgcagcaagcccagagattgttgtgtacactatgactttatataaaattaactttagtgtgtgatatgaataaaaagtgatcataaacgaatgatttctcaactcaaatgaagagcggcttggacccggaaacagtattacatacgtcaaaaacacgtcaccacttaacaagcggatttcagatgacaaatccatcAGAAGGCGCAGGCGACATTTTTTTGAATTGTAAAATACGTTACTTGCTGTACGTTTGGTTGTATATTTCACAAGATAAATTTACTAGAGGGCACTGTCGACATTTTTGCAAAAAGTAAAATACGTTACTTGgtttatattttgttgtatatttcagACAACAAATCCATTAGAGCGTGCTGGTGACATTTTTGCTAAATGTAAAATGCGTTACTTGgtgtacattttgttgtatatttcagATAACAaaaccactagagggcactgccGACACTTTTGcatattataaaatacattacttgATGTACGTTTGGCAGAATATTTCAGACAACAAATCCATTAGAGGGCACTAGTTATTttagcaaaatgtaaaatacgtttCTTGGTGTACGTTtggttgtacatttcagatgacaaatctactagagggcactgtcgacatttttgtaaaatgtaaaatacgtaCGTTTGGCTAtatatttcagatgacaaatccattaGAAGGCACTGTCGACAATTTTGAAAACTTGAAATACGTTAgggtttgttttattatatatttcagatgacaaatctactaaAGGGTGCTGTCAACATTTTTGCTTAATGTAAAATACGTTACTTGGTGTGCGTTTGATTATATATTTGAGACGACAAATCCATTAGAGGGCACTGTcgacatttttgtaaatgtagaaaatatGTTACTTGGTGTATGTTTGGCAGtatatttcagatgacaaatccactagagggcgctgtcaacatttttgtaaaatgtgAAATACGTTACTTGTACGTACGTTTTGTACGTTTATATACTGTACGTTTTGTTGTatatttcaaatgacaaatccactacaggacgctgtctatatttttgtgAATGTAGTAGTATTTCTAGGAGGTTGCCAAGGTGCTTTGGCTGTTGCTATGATGTTCAAAGTGTTTTCGAGGCTGCTGCCAGTTAGCTGTAACCATTCAAGTGGCTGCTACAGACTTGCTAATCAATGACTGGAGCTTTAAAAGCAGTTGTTAATATGTTGCAATCAGTGTtgggaaataataatatattataatcttaagtcactttgttaaagacAGTAACTAaatctgtttattattttatttttaagaaaaggTGTTTTTTTAAGCGCAAGATAGGCTTAAAATTGTaacgtatatattttttttacccaactCTGGTTGCAATGTGGTTTCGAGGGTCTTGCTAGTTAGCTAGATTGTAGTTGTATTgtcactttaaaaaagaaaagatgccATGTTTTAACAATgagatgtaaaatgtatttaacaaaataCTATCCATTCATAAAACATATTCTGCCAGGTCCTAATTAATCTAATAAGCTGACAATCTAGTGTGGCCACCCCTGTCGCATTACAGTTGACCAGCTGACAGCAGTTGGCTAGTTAGCTTTCAGAAGCCCAGAGTTGAGTCAGAGCTGGTAAACTCTGGACGGATTGGAGAACAAGACCGAACGGTTCCCAAAATACAGATGAAATGAACAGTCACAAAATCACAAATAAAACATCAGCGTTCACATTGTGACGTGGGTTCAGCTCCTCCCATGTCTCGCAAAGGGGAAAGTAGCACCAAACTCAGAAGAATCACGGTATAAGCTAGTGTTTTTAACCCTGATCTGGAAGCAGTCTCTTTGGAGCTTGATGTAGTGTAAAATAATCCTTCAGTTTCTCATTGAACATTTCTGGACTTACCAAACGTTCCTATATCCAACAGAAATGTTTCCTGGCTGATAATGATGGGTTTTAGTGCAATATCAGAGCATTTAATCCTGGCTGTTGACTCTGATTCAGTAGTTATTCCTCTGAGAGTGTAGTTTCTACAGTGACCGAGAGAGATTAACATGCTgcagtttaagaaaacacatgaacGCCAGCAAATTAAGATAAGATCCTCATCGGTTTGACAGCATAcatgttgcaaatcctcacaacgcatacaaaataataaaatgtgctgcattttctcacaactttGAGCATACACAACGAACATCGTGTTTAATAAATGACTAAACGTCACCATATTTCGAAAGATCATGCACCCATTGGCTAAATTCTCCATCAGTCAAACTAGAGAGTAAGTTACCGGCTAAGAGACTGACAGATCACCCGactgctttgtttagattttagggtaacactttcttttgatggtccatttgagtattagtagactgtctgcttaatatctgctgatactggtccttcaacagacatttaactgactataagaaactttgcaagtacatgccaacttacactAACACTATCGGTCTACTTGTAATCTAGTGAAGCTTAATTtatcaaactaatttcgagaggagtacgTACTCATGATTAAACCAGCTGGCTCATattagctaatcacgatcctTCAATCCCTAGTTCCTATATATATCTCCTCCTTTTCCacttacaactatcttcgtcttgaagaatcccctccgccctcttccacctttatccaaaaTAGGTAGCACGGTGGCCCAGCAGCAATACCAGTAGCTCCGGCTCCCTACTGAGCTTCTGGTATTTCTGCGTGGTGCTAGCCCGCAgttctctctctcaaaaaataataataataataataatttttctccGCATAATAGACCTCTTAAACCTAAGTCTCTTTTACTAGTCGTCTcgctctcaggaagttcaccttggctAGCTgcgggggagttttgagatcgccctgagctcaatctcccttcGCCCcacaaagggagggagccctggactcgaggaatgccttgagctcagggctctctcccgggacagcatgccaaatgagCTTTCTTAAGTCATGAGCtacgtgtgaactcttgaaatgagaatcagttggcatgtagatgcaatgtaagcttaaattcaacaaatggaccattaaaattaAGTGCGAGCAAAtttagtaactataactttgacttttt
>TCONS_00003298
AAACAATAGAGCTGGACTATGACATCACATCCTGCTGTCCATGTTCCTTCTAAAACAACTCATTTAGCATGCTTATTATTATCTAGACCATTCTTTAAGCAGTTGCTCACTCCATCTTTCTAttgtatcatatcatatcatactCGTAGTGTTCAgtatgcaaacacacaaacatcgcAATTTAGTTTGCATGATGACATCAACAACATTTCAACTTCACATTCAAACAATGTCAAAGACAGCCTCAAACTTCaatatcttttaaaaattaataataaaaacaaagagaTAAAGTTTATAAAACCCGAAGCACTTCTGAAGACCGAAAGGATTTTACAAGTCTGTATGCATTTTTAGCGCTGAATTAATGTCAAACATCTAATActgaagaaaaagagctggagaaTAAACCCAATCCAGAATGTTTGCCGAGCACAAACACTGTCAATATCCATATGGGAGATTCAATGGGTTTTTTTCATCCCAGCGCAGACAGACGATAGCTTCAGGAGTGAGACAAAGATCTTCAAAAACAGACAAAGAAGAAGAAGGTCAGCCGATGCCCCTGAGGCCTCACTGGAGACGAGAGTGCTCATTTTGAGGGTCTTTTGGCCCCTAATGCACTAATTTCAGCTCTACTTGCTCCGTGAAGCAGCGCTGGAGCTTCTGAATGAGTTTGTAGTGGAGCTTCAAGACCAGGCCCAAGGCACAGATTCAACCGAAGCAAAACCCTGACTTCTGTATGACTTCATTTGACCCGTCTTCAGGAGTCACTGGGTCAATATTATGTCTTCTTGAGGAGCAGCCACACTAGACCTTCATCATGTAACCTTCATTCATATTTGTGtaagggatgcacaatatatatattgcaagTCAGACTGGTTAGAAATACTTGCCTTAGCTTATATTATTGCGAAACGTAAAATATGTTGCTTTAGATACGTTTCATTGTatctttcagatgacaaatccactggaaggcgctgtttacatttttccaaagctgaaatacgttacttagggtgtgtCTTGTTTTACGTTTTAtaaaacaaatccactagagggcgctgtctaaatttttgcaaaatgtaaaatacattacttGGTGTATGTTTTGTTGTATATTTCAGATaactaatccactagagggcactgctGACATTTTTGCATATTAAAAAATACGTTACTTGGTGTATGTTTGGCAGtatatttcagatgacaaatccactagagggcgctgtcaacatttttgtaaaatgtgAAATACGTTACTTGTACGTACGTTTTGTACGTTTATATACTGTACGTTTTGTTGTatatttcaaatgacaaatccactacaggacgctgtctatatttttgtgAATGTAGTAGTATTTCTAGGAGGTTGCCAAGGTGCTTTGGCTGTTGCTATGATGTTCAAAGTGTTTTCGAGGCTGCTGCCAGTTAGCTGTAACCATTCAAGTGGCTGCTACAGACTTGCTAATCAATGACTGGAGCTTTAAAAGCAGTTGTTAATATGTTGCAATCAGTGTtgggaaataataatatattataatcttaagtcactttgttaaagacAGTAACTAaatctgtttattattttatttttaagaaaaggTGTTTTTTTAAGCGCAAGATAGGCTTAAAATTGTaacgtatatattttttttacccaactCTGGTTGCAATGTGGTTTCGAGGGTCTTGCTAGTTAGCTAGATTGTAGTTGTATTgtcactttaaaaaagaaaagatgccATGTTTTAACAATgagatgtaaaatgtatttaacaaaataCTATCCATTCATAAAACATATTCTGCCAGGTCCTAATTAATCTAATAAGCTGACAATCTAGTGTGGCCACCCCTGTCGCATTACAGTTGACCAGCTGACAGCAGTTGGCTAGTTAGCTTTCAGAAGCCCAGAGTTGAGTCAGAGCTGGTAAACTCTGGACGGATTGGAGAACAAGACCGAACGGTTCCCAAAATACAGATGAAATGAACAGTCACAAAATCACAAATAAAACATCAGCGTTCACATTGTGACGTGGGTTCAGCTCCTCCCATGTCTCGCAAAGGGGAAAGTAGCACCAAACTCAGAAGAATCACGGTATAAGCTAGTGTTTTTAACCCTGATCTGGAAGCAGTCTCTTTGGAGCTTGATGTAGTGTAAAATAATCCTTCAGTTTCTCATTGAACATTTCTGGACTTACCAAACGTTCCTATATCCAACAGAAATGTTTCCTGGCTGATAATGATGGGTTTTAGTGCAATATCAGAGCATTTAATCCTGGCTGTTGACTCTGATTCAGTAGTTATTCCTCTGAGAGTGTAGTTTCTACAGTGACCGAGAGAGATTAACATGCTgcagtttaagaaaacacatgaacGCCAGCAAATTAAGATAAGATCCTCATCGGTTTGACAGCATAcatgttgcaaatcctcacaacgcatacaaaataataaaatgtgctgcattttctcacaactttGAGCATACACAACGAACATCGTGTTTAATAAATGACTAAACGTCACCATATTTCGAAAGATCATGCACCCATTGGCTAAATTCTCCATCAGTCAAACTAGAGAGTAAGTTACCGGCTAAGAGACTGACAGATCACCCGactgctttgtttagattttagggtaacactttcttttgatggtccatttgagtattagtagactgtctgcttaatatctgctgatactggtccttcaacagacatttaactgactataagaaactttgcaagtacatgccaacttacactAACACTATCGGTCTACTTGTAATCTAGTGAAGCTTAATTtatcaaactaatttcgagaggagtacgTACTCATGATTAAACCAGCTGGCTCATattagctaatcacgatcctTCAATCCCTAGTTCCTATATATATCTCCTCCTTTTCCacttacaactatcttcgtcttgaagaatcccctccgccctcttccacctttatccaaaaTAGGTAGCACGGTGGCCCAGCAGCAATACCAGTAGCTCCGGCTCCCTACTGAGCTTCTGGTATTTCTGCGTGGTGCTAGCCCGCAgttctctctctcaaaaaataataataataataataatttttctccGCATAATAGACCTCTTAAACCTAAGTCTCTTTTACTAGTCGTCTcgctctcaggaagttcaccttggctAGCTgcgggggagttttgagatcgccctgagctcaatctcccttcGCCCcacaaagggagggagccctggactcgaggaatgccttgagctcagggctctctcccgggacagcatgccaaatgagCTTTCTTAAGTCATGAGCtacgtgtgaactcttgaaatgagaatcagttggcatgtagatgcaatgtaagcttaaattcaacaaatggaccattaaaattaAGTGCGAGCAAAtttagtaactataactttgacttttt
>TCONS_00003299
CTTAAAACAATAGAGCTGGACTATGACATCACATCCTGCTGTCCATGTTCCTTCTAAAACAACTCATTTAGCATGCTTATTATTATCTAGACCATTCTTTAAGCAGTTGCTCACTCCATCTTTCTAttgtatcatatcatatcatactCGTAGTGTTCAgtatgcaaacacacaaacatcgcAATTTAGTTTGCATGATGACATCAACAACATTTCAACTTCACATTCAAACAATGTCAAAGACAGCCTCAAACTTCaatatcttttaaaaattaataataaaaacaaagagaTAAAGTTTATAAAACCCGAAGCACTTCTGAAGACCGAAAGGATTTTACAAGTCTGTATGCATTTTTAGCGCTGAATTAATGTCAAACATCTAATActgaagaaaaagagctggagaaTAAACCCAATCCAGAATGTTTGCCGAGCACAAACACTGTCAATATCCATATGGGAGATTCAATGGGTTTTTTTCATCCCAGCGCAGACAGACGATAGCTTCAGGAGTGAGACAAAGATCTTCAAAAACAGACAAAGAAGAAGAAGGTCAGCCGATGCCCCTGAGGCCTCACTGGAGACGAGAGTGCTCATTTTGAGGGTCTTTTGGCCCCTAATGCACTAATTTCAGCTCTACTTGCTCCGTGAAGCAGCGCTGGAGCTTCTGAATGAGTTTGTAGTGGAGCTTCAAGACCAGGCCCAAGGCACAGATTCAACCGAAGCAAAACCCTGACTTCTGTATGACTTCATTTGACCCGTCTTCAGGAGTCACTGGGTCAATATTATGTCTTCTTGAGGAGCAGCCACACTAGACCTTCATCATGTAACCTTCATTCATATTTGTGtaagggatgcacaatatatatattgcaagTCAGACTGGTTAGAAATACTTGCCTTAGCTTATATTATTGCGAAACGTAAAATATGTTGCTTTAGATACGTTTCATTGTatctttcagatgacaaatccactggaaggcgctgtttacatttttccaaagctgaaatacgttacttagggtgtgtCTTGTTTTACGTTTTAtaaaacaaatccactagagggcgctgtctaaatttttgcaaaatgtaaaatacattacttGGTGTATGTTTTGTTGTATATTTCAGATGACAAGTCCATTAGAGGGCGATGTCgacatttttgaaaattttcaaTACATTAGGGTTTGTTTTATTGTCTACTAGAGGGTGCCGTCAAGATTTTTTCCAAATGTAAAATACGATACTTGGTGTACGTTTTGTTGTATATTTCAGATaactaatccactagagggcactgctGACATTTTTGCATATTAAAAAATACGTTACTTGGTGTATGTTTGGCAGtatatttcagatgacaaatccactagagggcgctgtcaacatttttgtaaaatgtgAAATACGTTACTTGTACGTACGTTTTGTACGTTTATATACTGTACGTTTTGTTGTatatttcaaatgacaaatccactacaggacgctgtctatatttttgtgAATGTAGTAGTATTTCTAGGAGGTTGCCAAGGTGCTTTGGCTGTTGCTATGATGTTCAAAGTGTTTTCGAGGCTGCTGCCAGTTAGCTGTAACCATTCAAGTGGCTGCTACAGACTTGCTAATCAATGACTGGAGCTTTAAAAGCAGTTGTTAATATGTTGCAATCAGTGTtgggaaataataatatattataatcttaagtcactttgttaaagacAGTAACTAaatctgtttattattttatttttaagaaaaggTGTTTTTTTAAGCGCAAGATAGGCTTAAAATTGTaacgtatatattttttttacccaactCTGGTTGCAATGTGGTTTCGAGGGTCTTGCTAGTTAGCTAGATTGTAGTTGTATTgtcactttaaaaaagaaaagatgccATGTTTTAACAATgagatgtaaaatgtatttaacaaaataCTATCCATTCATAAAACATATTCTGCCAGGTCCTAATTAATCTAATAAGCTGACAATCTAGTGTGGCCACCCCTGTCGCATTACAGTTGACCAGCTGACAGCAGTTGGCTAGTTAGCTTTCAGAAGCCCAGAGTTGAGTCAGAGCTGGTAAACTCTGGACGGATTGGAGAACAAGACCGAACGGTTCCCAAAATACAGATGAAATGAACAGTCACAAAATCACAAATAAAACATCAGCGTTCACATTGTGACGTGGGTTCAGCTCCTCCCATGTCTCGCAAAGGGGAAAGTAGCACCAAACTCAGAAGAATCACGGTATAAGCTAGTGTTTTTAACCCTGATCTGGAAGCAGTCTCTTTGGAGCTTGATGTAGTGTAAAATAATCCTTCAGTTTCTCATTGAACATTTCTGGACTTACCAAACGTTCCTATATCCAACAGAAATGTTTCCTGGCTGATAATGATGGGTTTTAGTGCAATATCAGAGCATTTAATCCTGGCTGTTGACTCTGATTCAGTAGTTATTCCTCTGAGAGTGTAGTTTCTACAGTGACCGAGAGAGATTAACATGCTgcagtttaagaaaacacatgaacGCCAGCAAATTAAGATAAGATCCTCATCGGTTTGACAGCATAcatgttgcaaatcctcacaacgcatacaaaataataaaatgtgctgcattttctcacaactttGAGCATACACAACGAACATCGTGTTTAATAAATGACTAAACGTCACCATATTTCGAAAGATCATGCACCCATTGGCTAAATTCTCCATCAGTCAAACTAGAGAGTAAGTTACCGGCTAAGAGACTGACAGATCACCCGactgctttgtttagattttagggtaacactttcttttgatggtccatttgagtattagtagactgtctgcttaatatctgctgatactggtccttcaacagacatttaactgactataagaaactttgcaagtacatgccaacttacactAACACTATCGGTCTACTTGTAATCTAGTGAAGCTTAATTtatcaaactaatttcgagaggagtacgTACTCATGATTAAACCAGCTGGCTCATattagctaatcacgatcctTCAATCCCTAGTTCCTATATATATCTCCTCCTTTTCCacttacaactatcttcgtcttgaagaatcccctccgccctcttccacctttatccaaaaTAGGTAGCACGGTGGCCCAGCAGCAATACCAGTAGCTCCGGCTCCCTACTGAGCTTCTGGTATTTCTGCGTGGTGCTAGCCCGCAgttctctctctcaaaaaataataataataataataatttttctccGCATAATAGACCTCTTAAACCTAAGTCTCTTTTACTAGTCGTCTcgctctcaggaagttcaccttggctAGCTgcgggggagttttgagatcgccctgagctcaatctcccttcGCCCcacaaagggagggagccctggactcgaggaatgccttgagctcagggctctctcccgggacagcatgccaaatgagCTTTCTTAAGTCATGAGCtacgtgtgaactcttgaaatgagaatcagttggcatgtagatgcaatgtaagcttaaattcaacaaatggaccattaaaattaAGTGCGAGCAAAtttagtaactataactttgacttttt
>TCONS_00003300
tttattacctCTTAAAACAATAGAGCTGGACTATGACATCACATCCTGCTGTCCATGTTCCTTCTAAAACAACTCATTTAGCATGCTTATTATTATCTAGACCATTCTTTAAGCAGTTGCTCACTCCATCTTTCTAttgtatcatatcatatcatactCGTAGTGTTCAgtatgcaaacacacaaacatcgcAATTTAGTTTGCATGATGACATCAACAACATTTCAACTTCACATTCAAACAATGTCAAAGACAGCCTCAAACTTCaatatcttttaaaaattaataataaaaacaaagagaTAAAGTTTATAAAACCCGAAGCACTTCTGAAGACCGAAAGGATTTTACAAGTCTGTATGCATTTTTAGCGCTGAATTAATGTCAAACATCTAATActgaagaaaaagagctggagaaTAAACCCAATCCAGAATGTTTGCCGAGCACAAACACTGTCAATATCCATATGGGAGATTCAATGGGTTTTTTTCATCCCAGCGCAGACAGACGATAGCTTCAGGAGTGAGACAAAGATCTTCAAAAACAGACAAAGAAGAAGAAGGTCAGCCGATGCCCCTGAGGCCTCACTGGAGACGAGAGTGCTCATTTTGAGGGTCTTTTGGCCCCTAATGCACTAATTTCAGCTCTACTTGCTCCGTGAAGCAGCGCTGGAGCTTCTGAATGAGTTTGTAGTGGAGCTTCAAGACCAGGCCCAAGGCACAGATTCAACCGAAGCAAAACCCTGACTTCTGTATGACTTCATTTGACCCGTCTTCAGGAGTCACTGGGTCAATATTATGTCTTCTTGAGGAGCAGCCACACTAGACCTTCATCATGTAACCTTCATTCATATTTGTGtaagggatgcacaatatatatattgcaagTCAGACTGGTTAGAAATACTTGCCTTAGCTTATATTATTGCGAAACGTAAAATATGTTGCTTTAGATACGTTTCATTGTatctttcagatgacaaatccactggaaggcgctgtttacatttttccaaagctgaaatacgttacttagggtgtgtCTTGTTTTACGTTTTAtaaaacaaatccactagagggcgctgtctaaatttttgcaaaatgtaaaatacattacttGGTGTATATTTAGTTGTATATTTCAGTTAACACAACCACTAGAGGGTGCTATCGACATTTTTGCTAATTGTAAAATATGTTACTTATTGAAACGTATTGTTgtatatctgcttgttaagtgtgacgtcacgcgaagcggcttccaggtccaagcgttCTATTCAACTGAAAGGGGAGACTATGGTAATaatatggtaataataaacgtttacaaagcgatttaatactttcgaaaatcacaatcgcaatatatatgtccatgcctaatatccaatggccagaaagtgattcatttttttataaattgttcaaattttggtatttgtgatgcagcaagcccagagattgttgtgtacactatgactttatataaaattaactttagtgtgtgatatgaataaaaagtgatcataaacgaatgatttctcaactcaaatgaagagcggcttggacccggaaacagtattacatacgtcaaaaacacgtcaccacttaacaagcggatttcagatgacaaatccatcAGAAGGCGCAGGCGACATTTTTTTGAATTGTAAAATACGTTACTTGCTGTACGTTTGGTTGTATATTTCACAAGATAAATTTACTAGAGGGCACTGTCGACATTTTTGCTTAATGTAAAATACGTTACTTGGTGTGCGTTTGATTATATATTTGAGACGACAAATCCATTAGAGGGCACTGTcgacatttttgtaaatgtagaaaatatGATACTTGGTGTACGTTTTGTTGTATATTTCAGATaactaatccactagagggcactgctGACATTTTTGCATATTAAAAAATACGTTACTTGGTGTATGTTTGGCAGtatatttcagatgacaaatccactagagggcgctgtcaacatttttgtaaaatgtgAAATACGTTACTTGTACGTACGTTTTGTACGTTTATATACTGTACGTTTTGTTGTatatttcaaatgacaaatccactacaggacgctgtctatatttttgtgAATGTAGTAGTATTTCTAGGAGGTTGCCAAGGTGCTTTGGCTGTTGCTATGATGTTCAAAGTGTTTTCGAGGCTGCTGCCAGTTAGCTGTAACCATTCAAGTGGCTGCTACAGACTTGCTAATCAATGACTGGAGCTTTAAAAGCAGTTGTTAATATGTTGCAATCAGTGTtgggaaataataatatattataatcttaagtcactttgttaaagacAGTAACTAaatctgtttattattttatttttaagaaaaggTGTTTTTTTAAGCGCAAGATAGGCTTAAAATTGTaacgtatatattttttttacccaactCTGGTTGCAATGTGGTTTCGAGGGTCTTGCTAGTTAGCTAGATTGTAGTTGTATTgtcactttaaaaaagaaaagatgccATGTTTTAACAATgagatgtaaaatgtatttaacaaaataCTATCCATTCATAAAACATATTCTGCCAGGTCCTAATTAATCTAATAAGCTGACAATCTAGTGTGGCCACCCCTGTCGCATTACAGTTGACCAGCTGACAGCAGTTGGCTAGTTAGCTTTCAGAAGCCCAGAGTTGAGTCAGAGCTGGTAAACTCTGGACGGATTGGAGAACAAGACCGAACGGTTCCCAAAATACAGATGAAATGAACAGTCACAAAATCACAAATAAAACATCAGCGTTCACATTGTGACGTGGGTTCAGCTCCTCCCATGTCTCGCAAAGGGGAAAGTAGCACCAAACTCAGAAGAATCACGGTATAAGCTAGTGTTTTTAACCCTGATCTGGAAGCAGTCTCTTTGGAGCTTGATGTAGTGTAAAATAATCCTTCAGTTTCTCATTGAACATTTCTGGACTTACCAAACGTTCCTATATCCAACAGAAATGTTTCCTGGCTGATAATGATGGGTTTTAGTGCAATATCAGAGCATTTAATCCTGGCTGTTGACTCTGATTCAGTAGTTATTCCTCTGAGAGTGTAGTTTCTACAGTGACCGAGAGAGATTAACATGCTgcagtttaagaaaacacatgaacGCCAGCAAATTAAGATAAGATCCTCATCGGTTTGACAGCATAcatgttgcaaatcctcacaacgcatacaaaataataaaatgtgctgcattttctcacaactttGAGCATACACAACGAACATCGTGTTTAATAAATGACTAAACGTCACCATATTTCGAAAGATCATGCACCCATTGGCTAAATTCTCCATCAGTCAAACTAGAGAGTAAGTTACCGGCTAAGAGACTGACAGATCACCCGactgctttgtttagattttagggtaacactttcttttgatggtccatttgagtattagtagactgtctgcttaatatctgctgatactggtccttcaacagacatttaactgactataagaaactttgcaagtacatgccaacttacactAACACTATCGGTCTACTTGTAATCTAGTGAAGCTTAATTtatcaaactaatttcgagaggagtacgTACTCATGATTAAACCAGCTGGCTCATattagctaatcacgatcctTCAATCCCTAGTTCCTATATATATCTCCTCCTTTTCCacttacaactatcttcgtcttgaagaatcccctccgccctcttccacctttatccaaaaTAGGTAGCACGGTGGCCCAGCAGCAATACCAGTAGCTCCGGCTCCCTACTGAGCTTCTGGTATTTCTGCGTGGTGCTAGCCCGCAgttctctctctcaaaaaataataataataataataatttttctccGCATAATAGACCTCTTAAACCTAAGTCTCTTTTACTAGTCGTCTcgctctcaggaagttcaccttggctAGCTgcgggggagttttgagatcgccctgagctcaatctcccttcGCCCcacaaagggagggagccctggactcgaggaatgccttgagctcagggctctctcccgggacagcatgccaaatgagCTTTCTTAAGTCATGAGCtacgtgtgaactcttgaaatgagaatcagttggcatgtagatgcaatgtaagcttaaattcaacaaatggaccattaaaattaAGTGCGAGCAAAtttagtaactataactttgacttttt
>TCONS_00003301
ttattatttataatttattacctCTTAAAACAATAGAGCTGGACTATGACATCACATCCTGCTGTCCATGTTCCTTCTAAAACAACTCATTTAGCATGCTTATTATTATCTAGACCATTCTTTAAGCAGTTGCTCACTCCATCTTTCTAttgtatcatatcatatcatactCGTAGTGTTCAgtatgcaaacacacaaacatcgcAATTTAGTTTGCATGATGACATCAACAACATTTCAACTTCACATTCAAACAATGTCAAAGACAGCCTCAAACTTCaatatcttttaaaaattaataataaaaacaaagagaTAAAGTTTATAAAACCCGAAGCACTTCTGAAGACCGAAAGGATTTTACAAGTCTGTATGCATTTTTAGCGCTGAATTAATGTCAAACATCTAATActgaagaaaaagagctggagaaTAAACCCAATCCAGAATGTTTGCCGAGCACAAACACTGTCAATATCCATATGGGAGATTCAATGGGTTTTTTTCATCCCAGCGCAGACAGACGATAGCTTCAGGAGTGAGACAAAGATCTTCAAAAACAGACAAAGAAGAAGAAGGTCAGCCGATGCCCCTGAGGCCTCACTGGAGACGAGAGTGCTCATTTTGAGGGTCTTTTGGCCCCTAATGCACTAATTTCAGCTCTACTTGCTCCGTGAAGCAGCGCTGGAGCTTCTGAATGAGTTTGTAGTGGAGCTTCAAGACCAGGCCCAAGGCACAGATTCAACCGAAGCAAAACCCTGACTTCTGTATGACTTCATTTGACCCGTCTTCAGGAGTCACTGGGTCAATATTATGTCTTCTTGAGGAGCAGCCACACTAGACCTTCATCATGTAACCTTCATTCATATTTGTGtaagggatgcacaatatatatattgcaagTCAGACTGGTTAGAAATACTTGCCTTAGCTTATATTATTGCGAAACGTAAAATATGTTGCTTTAGATACGTTTCATTGTatctttcagatgacaaatccactggaaggcgctgtttacatttttccaaagctgaaatacgttacttagggtgtgtCTTGTTTTACGTTTTAtaaaacaaatccactagagggcgctgtctaaatttttgcaaaatgtaaaatacattacttGGTGTATATTTAGTTGTATATTTCAGTTAACACAACCACTAGAGGGTGCTATCGACATTTTTGCTAATTGTAAAATATGTTACTTATTGAAACGTATTGTTgtatatctgcttgttaagtgtgacgtcacgcgaagcggcttccaggtccaagcgttCTATTCAACTGAAAGGGGAGACTATGGTAATaatatggtaataataaacgtttacaaagcgatttaatactttcgaaaatcacaatcgcaatatatatgtccatgcctaatatccaatggccagaaagtgattcatttttttataaattgttcaaattttggtatttgtgatgcagcaagcccagagattgttgtgtacactatgactttatataaaattaactttagtgtgtgatatgaataaaaagtgatcataaacgaatgatttctcaactcaaatgaagagcggcttggacccggaaacagtattacatacgtcaaaaacacgtcaccacttaacaagcggatttcagatgacaaatccatcAGAAGGCGCAGGCGACATTTTTTTGAATTGTAAAATACGTTACTTGCTGTACGTTTGGTTGTATATTTCACAAGATAAATTTACTAGAGGGCACTGTCGACATTTTTGCAAAAAGTAAAATACGTTACTTGgtttatattttgttgtatatttcagACAACAAATCCATTAGAGCGTGCTGGTGACATTTTTGCTAAATGTAAAATGCGTTACTTGgtgtacattttgttgtatatttcagATAACAaaaccactagagggcactgccGACACTTTTGcatattataaaatacattacttgATGTACGTTTGGCAGAATATTTCAGACAACAAATCCATTAGAGGGCACTAGTTATTttagcaaaatgtaaaatacgtttCTTGGTGTACGTTtggttgtacatttcagatgacaaatctactagagggcactgtcgacatttttgtaaaatgtaaaatacgtaCGTTTGGCTAtatatttcagatgacaaatccattaGAAGGCACTGTCGACAATTTTGAAAACTTGAAATACGTTAgggtttgttttattatatatttcagatgacaaatctactaaAGGGTGCTGTCAACATTTTTGCTTAATGTAAAATACGTTACTTGGTGTGCGTTTGATTATATATTTGAGACGACAAATCCATTAGAGGGCACTGTcgacatttttgtaaatgtagaaaatatGATACTTGGTGTACGTTTTGTTGTATATTTCAGATaactaatccactagagggcactgctGACATTTTTGCATATTAAAAAATACGTTACTTGGTGTATGTTTGGCAGtatatttcagatgacaaatccactagagggcgctgtcaacatttttgtaaaatgtgAAATACGTTACTTGTACGTACGTTTTGTACGTTTATATACTGTACGTTTTGTTGTatatttcaaatgacaaatccactacaggacgctgtctatatttttgtgAATGTAGTAGTATTTCTAGGAGGTTGCCAAGGTGCTTTGGCTGTTGCTATGATGTTCAAAGTGTTTTCGAGGCTGCTGCCAGTTAGCTGTAACCATTCAAGTGGCTGCTACAGACTTGCTAATCAATGACTGGAGCTTTAAAAGCAGTTGTTAATATGTTGCAATCAGTGTtgggaaataataatatattataatcttaagtcactttgttaaagacAGTAACTAaatctgtttattattttatttttaagaaaaggTGTTTTTTTAAGCGCAAGATAGGCTTAAAATTGTaacgtatatattttttttacccaactCTGGTTGCAATGTGGTTTCGAGGGTCTTGCTAGTTAGCTAGATTGTAGTTGTATTgtcactttaaaaaagaaaagatgccATGTTTTAACAATgagatgtaaaatgtatttaacaaaataCTATCCATTCATAAAACATATTCTGCCAGGTCCTAATTAATCTAATAAGCTGACAATCTAGTGTGGCCACCCCTGTCGCATTACAGTTGACCAGCTGACAGCAGTTGGCTAGTTAGCTTTCAGAAGCCCAGAGTTGAGTCAGAGCTGGTAAACTCTGGACGGATTGGAGAACAAGACCGAACGGTTCCCAAAATACAGATGAAATGAACAGTCACAAAATCACAAATAAAACATCAGCGTTCACATTGTGACGTGGGTTCAGCTCCTCCCATGTCTCGCAAAGGGGAAAGTAGCACCAAACTCAGAAGAATCACGGTATAAGCTAGTGTTTTTAACCCTGATCTGGAAGCAGTCTCTTTGGAGCTTGATGTAGTGTAAAATAATCCTTCAGTTTCTCATTGAACATTTCTGGACTTACCAAACGTTCCTATATCCAACAGAAATGTTTCCTGGCTGATAATGATGGGTTTTAGTGCAATATCAGAGCATTTAATCCTGGCTGTTGACTCTGATTCAGTAGTTATTCCTCTGAGAGTGTAGTTTCTACAGTGACCGAGAGAGATTAACATGCTgcagtttaagaaaacacatgaacGCCAGCAAATTAAGATAAGATCCTCATCGGTTTGACAGCATAcatgttgcaaatcctcacaacgcatacaaaataataaaatgtgctgcattttctcacaactttGAGCATACACAACGAACATCGTGTTTAATAAATGACTAAACGTCACCATATTTCGAAAGATCATGCACCCATTGGCTAAATTCTCCATCAGTCAAACTAGAGAGTAAGTTACCGGCTAAGAGACTGACAGATCACCCGactgctttgtttagattttagggtaacactttcttttgatggtccatttgagtattagtagactgtctgcttaatatctgctgatactggtccttcaacagacatttaactgactataagaaactttgcaagtacatgccaacttacactAACACTATCGGTCTACTTGTAATCTAGTGAAGCTTAATTtatcaaactaatttcgagaggagtacgTACTCATGATTAAACCAGCTGGCTCATattagctaatcacgatcctTCAATCCCTAGTTCCTATATATATCTCCTCCTTTTCCacttacaactatcttcgtcttgaagaatcccctccgccctcttccacctttatccaaaaTAGGTAGCACGGTGGCCCAGCAGCAATACCAGTAGCTCCGGCTCCCTACTGAGCTTCTGGTATTTCTGCGTGGTGCTAGCCCGCAgttctctctctcaaaaaataataataataataataatttttctccGCATAATAGACCTCTTAAACCTAAGTCTCTTTTACTAGTCGTCTcgctctcaggaagttcaccttggctAGCTgcgggggagttttgagatcgccctgagctcaatctcccttcGCCCcacaaagggagggagccctggactcgaggaatgccttgagctcagggctctctcccgggacagcatgccaaatgagCTTTCTTAAGTCATGAGCtacgtgtgaactcttgaaatgagaatcagttggcatgtagatgcaatgtaagcttaaattcaacaaatggaccattaaaattaAGTGCGAGCAAAtttagtaactataactttgacttttt

Function

GO:

id name namespace
GO:0070482 response to oxygen levels biological_process
GO:0036293 response to decreased oxygen levels biological_process
GO:0009259 ribonucleotide metabolic process biological_process
GO:0009260 ribonucleotide biosynthetic process biological_process
GO:1902600 proton transmembrane transport biological_process
GO:0046034 ATP metabolic process biological_process
GO:0006091 generation of precursor metabolites and energy biological_process
GO:0034220 ion transmembrane transport biological_process
GO:0031290 retinal ganglion cell axon guidance biological_process
GO:1901293 nucleoside phosphate biosynthetic process biological_process
GO:0009060 aerobic respiration 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:0006120 mitochondrial electron transport, NADH to ubiquinone biological_process
GO:0043062 extracellular structure organization biological_process
GO:0030198 extracellular matrix organization biological_process
GO:0030199 collagen fibril organization biological_process
GO:0022900 electron transport chain biological_process
GO:0022904 respiratory electron transport chain biological_process
GO:0098655 cation transmembrane transport biological_process
GO:0098660 inorganic ion transmembrane transport biological_process
GO:0098662 inorganic cation transmembrane transport biological_process
GO:0006163 purine nucleotide metabolic process biological_process
GO:0006164 purine nucleotide biosynthetic process biological_process
GO:0017144 drug metabolic process biological_process
GO:0009117 nucleotide metabolic process biological_process
GO:0009123 nucleoside monophosphate metabolic process biological_process
GO:0009124 nucleoside monophosphate biosynthetic process biological_process
GO:0009126 purine nucleoside monophosphate metabolic process biological_process
GO:0009127 purine nucleoside monophosphate biosynthetic process biological_process
GO:0046390 ribose phosphate biosynthetic process biological_process
GO:0055086 nucleobase-containing small molecule metabolic process biological_process
GO:0019637 organophosphate metabolic process biological_process
GO:0006753 nucleoside phosphate metabolic process biological_process
GO:0006754 ATP biosynthetic process biological_process
GO:0009141 nucleoside triphosphate metabolic process biological_process
GO:0009142 nucleoside triphosphate biosynthetic process biological_process
GO:0009144 purine nucleoside triphosphate metabolic process biological_process
GO:0009145 purine nucleoside triphosphate biosynthetic process biological_process
GO:0009150 purine ribonucleotide metabolic process biological_process
GO:0015672 monovalent inorganic cation transport biological_process
GO:0044281 small molecule metabolic process biological_process
GO:0009152 purine ribonucleotide biosynthetic process biological_process
GO:0090407 organophosphate biosynthetic process biological_process
GO:1901135 carbohydrate derivative metabolic process biological_process
GO:1901137 carbohydrate derivative biosynthetic process biological_process
GO:0009156 ribonucleoside monophosphate biosynthetic process biological_process
GO:0072521 purine-containing compound metabolic process biological_process
GO:0055114 oxidation-reduction process biological_process
GO:0072522 purine-containing compound biosynthetic process biological_process
GO:0009161 ribonucleoside monophosphate metabolic process biological_process
GO:0009165 nucleotide biosynthetic process biological_process
GO:0009167 purine ribonucleoside monophosphate metabolic process biological_process
GO:0009168 purine ribonucleoside monophosphate biosynthetic process biological_process
GO:0015980 energy derivation by oxidation of organic compounds biological_process
GO:0015985 energy coupled proton transport, down electrochemical gradient biological_process
GO:0019693 ribose phosphate metabolic process biological_process
GO:0015986 ATP synthesis coupled proton transport biological_process
GO:0006812 cation transport biological_process
GO:0009199 ribonucleoside triphosphate metabolic process biological_process
GO:0009201 ribonucleoside triphosphate biosynthetic process biological_process
GO:0009205 purine ribonucleoside triphosphate metabolic process biological_process
GO:0009206 purine ribonucleoside triphosphate biosynthetic 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:0005753 mitochondrial proton-transporting ATP synthase complex cellular_component
GO:0030964 NADH dehydrogenase complex cellular_component
GO:0044421 obsolete extracellular region part cellular_component
GO:0044422 obsolete organelle part cellular_component
GO:0044429 obsolete mitochondrial part cellular_component
GO:0044446 obsolete intracellular organelle part cellular_component
GO:0016469 proton-transporting two-sector ATPase complex cellular_component
GO:0044455 obsolete mitochondrial membrane part cellular_component
GO:0033177 proton-transporting two-sector ATPase complex, proton-transporting domain cellular_component
GO:0031012 extracellular matrix cellular_component
GO:0062023 collagen-containing extracellular matrix cellular_component
GO:0019866 organelle inner membrane cellular_component
GO:0005576 extracellular region cellular_component
GO:0005581 collagen trimer cellular_component
GO:0005588 collagen type V trimer cellular_component
GO:0032991 protein-containing complex cellular_component
GO:1990204 oxidoreductase complex cellular_component
GO:0005615 extracellular space cellular_component
GO:0031090 organelle membrane cellular_component
GO:0045259 proton-transporting ATP synthase complex cellular_component
GO:0045261 proton-transporting ATP synthase complex, catalytic core F(1) cellular_component
GO:0045263 proton-transporting ATP synthase complex, coupling factor F(o) 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:0000275 mitochondrial proton-transporting ATP synthase complex, catalytic sector F(1) cellular_component
GO:0000276 mitochondrial proton-transporting ATP synthase complex, coupling factor F(o) cellular_component
GO:0070469 respirasome cellular_component
GO:0098796 membrane protein complex 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:0008137 NADH dehydrogenase (ubiquinone) activity molecular_function
GO:0019829 ATPase-coupled cation transmembrane transporter activity molecular_function
GO:0009055 electron transfer activity molecular_function
GO:0022853 active ion transmembrane transporter activity molecular_function
GO:0003954 NADH dehydrogenase activity molecular_function
GO:0022857 transmembrane transporter activity molecular_function
GO:0016491 oxidoreductase activity molecular_function
GO:0050136 NADH dehydrogenase (quinone) activity molecular_function
GO:0044769 ATPase activity, coupled to transmembrane movement of ions, rotational mechanism molecular_function
GO:0022890 inorganic cation transmembrane transporter activity molecular_function
GO:0015002 heme-copper terminal oxidase activity molecular_function
GO:0046933 proton-transporting ATP synthase activity, rotational mechanism molecular_function
GO:0005201 extracellular matrix structural constituent molecular_function
GO:0015318 inorganic molecular entity transmembrane transporter activity molecular_function
GO:0005215 transporter activity molecular_function
GO:0015075 ion transmembrane transporter activity molecular_function
GO:0015077 monovalent inorganic cation transmembrane transporter activity molecular_function
GO:0015078 proton transmembrane transporter activity molecular_function
GO:0042625 ATPase-coupled ion transmembrane transporter activity molecular_function
GO:0042626 ATPase-coupled transmembrane transporter activity molecular_function
GO:0008324 cation transmembrane transporter activity molecular_function
GO:0015399 primary active transmembrane transporter activity molecular_function
GO:0016651 oxidoreductase activity, acting on NAD(P)H molecular_function
GO:0016655 oxidoreductase activity, acting on NAD(P)H, quinone or similar compound as acceptor 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_00003297 False 4309 lncRNA 0.38 2 2000666 2005206
TCONS_00003298 False 3463 lncRNA 0.39 2 2000666 2005508
TCONS_00003299 False 3614 lncRNA 0.39 2 2000666 2005512
TCONS_00003300 False 4217 lncRNA 0.38 3 2000666 2005522
TCONS_00003301 True 4723 lncRNA 0.37 2 2000666 2005535

Neighbor

gene id symbol gene type direction distance location
XLOC_000939 si:ch211-132g1.3 coding downstream 72441 1870861 ~ 1928225 (-)
XLOC_000938 NA coding downstream 264102 1731517 ~ 1736564 (-)
XLOC_000937 clic6 coding downstream 369267 1618994 ~ 1631399 (-)
XLOC_000936 NA coding downstream 417460 1555296 ~ 1583206 (-)
XLOC_000935 NA coding downstream 501273 1491941 ~ 1499393 (-)
XLOC_000941 oxgr1a.1 coding upstream 42512 2048047 ~ 2051599 (-)
XLOC_000942 oxgr1a.3 coding upstream 54895 2060430 ~ 2061419 (-)
XLOC_000943 oxgr1a.2 coding upstream 68978 2074513 ~ 2075529 (-)
XLOC_000944 NA coding upstream 88461 2093996 ~ 2101261 (-)
XLOC_000945 NA coding upstream 233676 2239211 ~ 2251036 (-)
XLOC_000933 CZQB01066256.1 non-coding downstream 647669 1350111 ~ 1352997 (-)
XLOC_000932 NA non-coding downstream 684913 1291175 ~ 1315753 (-)
XLOC_000949 NA non-coding upstream 489486 2495021 ~ 2502744 (-)
XLOC_000950 CU986306.1 non-coding upstream 699069 2704604 ~ 2714275 (-)
XLOC_000952 NA non-coding upstream 1291072 3296607 ~ 3299853 (-)

Expression


Co-expression Network