Database of mammalian genes
Home
Search
Browse
Statistics
User guide
FAQs
Links
Questions
Contribute
Download
Gene
Protein
Transcript
Promoter
Expression
GO/PPI
PubMed
Cross reference
Transcript information for CYP26A1 (
Homo sapiens
)
(Information is obtained from NCBI databases)
Transcript ID
NM_057157
Gene sequence
CGGCACCTGGAAATGGAAAGCCAGTGAAGGCTGCTTTGGGCCGGGGCAGCGGGTGGGACC GGGCGGGAGGGATTCCAAAGAGACCGCCGGGAAGGCTAGAGCTTGGAATTCCGGCTCCTC GGAGTCCTGGCCCTCCCCCACCGCCGCCTCGGAGCTCAGCACACCTTGGATGGGGGAGGC GGGCAGCTCCTAGCCCCGCACCCCAGGAGGCGCGCTCGGAGGGAAGCCGCCACCGCGCCG CCTCTGCCTCGGCGCGGAACAAACGGTTAAAGATTTTGGGCAGCGCCTCGCGGGGGGAGG AGCCAGGGGCCCAATCCGCAATTAAAGATGAACTTTGGGTGAACTAATTGTCTGACCAAG GTAACGTGGGCAGCAACCTGGGCCGCCTATAAAGCGGCAGCGCCGTGGGGTTTGAAGCGC TGGCGGCGGCGGCAGGTGGCGCGGGAGGTCGCGGCGCGCCATGGGGCTCCCGGCGCTGCT GGCCAGTGCGCTCTGCACCTTCGTGCTGCCGCTGCTGCTCTTCCTGGCTGCGATCAAGCT CTGGGACCTGTACTGCGTGAGCGGCCGCGACCGCAGTTGTGCCCTCCCATTGCCCCCCGG GACTATGGGCTTCCCCTTCTTTGGGGAAACCTTGCAGATGGTACTGCAGGTAAGGGAGGG TGGGGCGGGACAGGCTGCTTCCCCGGAGCCCGGCGCGGCTCTGGGCTTCTGCTGAAGTCG GGGTAGGCGCCCCCGGGAGGCATGCTATTGCGGCTAGGAGCAGGGCTGGCGGGAGCGCGG CGCTCCCCGGCGCCCCCTCATGCCCACTTCTCTCCTCCGCCTTCCTCCCACAGCGGAGGA AGTTCCTGCAGATGAAGCGCAGGAAATACGGCTTCATCTACAAGACGCATCTGTTCGGGC GGCCCACCGTACGGGTGATGGGCGCGGACAATGTGCGGCGCATCTTGCTCGGAGAGCACC GGCTGGTGTCGGTCCACTGGCCAGCGTCGGTGCGCACCATTCTGGGATCTGGCTGCCTCT CTAACCTGCACGACTCCTCGCACAAGCAGCGCAAGAAGGTGGGGGCAGGAGGCGACGGCT GGACAGGGAGGGGGACCCCATTTATGAGCGGAATTCCGGCTGATGGATGCTAGGCGCGGG CTAGCAGCTTGAGGTGGGCTAGGACCCTCTGCCAGCTCCAGGTTAGCTTTCCCAGCTCGG AGAGTGCCATGTGTCTGGCAGGACTGGGGGTGTCTGGAAGGGGACGGCGGTAGACGAGAG GGGCGGATGGAGGCTTTTAACGCTGTCCCCTCCTCGGGACTCAGGTGATTATGCGGGCCT TCAGCCGCGAGGCACTCGAATGCTACGTGCCGGTGATCACCGAGGAAGTGGGCAGCAGCC TGGAGCAGTGGCTGAGCTGCGGCGAGCGCGGCCTCCTGGTCTACCCCGAGGTGAAGCGCC TCATGTTCCGAATCGCCATGCGCATCCTACTGGGCTGCGAACCCCAACTGGCGGGCGACG GGGACTCCGAGCAGCAGCTTGTGGAGGCCTTCGAGGAAATGACCCGCAATCTCTTCTCGC TGCCCATCGACGTGCCCTTCAGCGGGCTGTACCGGGTAAGGGCGGCAAACGGGCTGCGGA CTAGGGGCGCGGGACCTGGGCGTCTGCTCACCGCCGCGCGCTCTCTGCGCTCAGGGCATG AAGGCGCGGAACCTCATTCACGCGCGCATCGAGCAGAACATTCGCGCCAAGATCTGCGGG CTGCGGGCATCCGAGGCGGGCCAGGGCTGCAAAGACGCGCTGCAGCTGTTGATCGAGCAC TCGTGGGAGAGGGGAGAGCGGCTGGACATGCAGGTGAGTAGCAGCTTCAGACCAGGCACT GCGGAGTTTGGTCCCCTGGCTTTCCAAGCGCTGTTCCTGGGGCCCCCAAAGCGCGCGCCT GGGGCCCAGCTTTCTGGAGTGGGCGGCCGGCTCAGACTACAGCTATGGAATCCCGAAGGA AGGCTGAGACACCCGGTCAGGAGAGCTGCGGAAGGGGCTGCGGCGGAACTGGGAGCATCC CCTAGCCTTTCCAGGTTTCAAAGGGAAAGTTGGAATTTGCAAAAATGTTAATAAAGAACC TTGCGATTTTAATAAAACTAAGACTTTAACTCAGGAGTTTCCGGTAGAGCGGGGTCGTAC TCGCCTTACTGCTCCAGCTGAACTAAAGGGACGTTGCATTTTGTTTAAAGATATTGCTTT CCTTGACTTTCTGTCAGCAAAACATTTAGCCCTTCTAGTCTTCCCTCCAGAACTCTCAGT TCGATTCTGAGTAATCCTTCTGTCAAACCGCAGGCAGACTTGTGAGAATGTGGGTCTCAC TCTATTCTTAGGCACTAAAGCAATCTTCAACCGAACTCCTCTTTGGAGGACACGAAACCA CGGCCAGTGCAGCCACATCTCTGATCACTTACCTGGGGCTCTACCCACATGTTCTCCAGA AAGTGCGAGAAGAGCTGAAGAGTAAGGTAGGGAGACTGGGTCTGGGGGTGTCCTTATTAG CTTAGGAAATTCAGCTGCTCCCTAGCCAACTTCCGAATAAGTCAGTGTGCTGCCTTCATG GAGTATTTTGAAAGTGCAGGGCCCAGGGCTGCGTGGGCCAGTGGGCAGAATTAGCTTTGT GAATAAACAGGATGGAGTCTTGAGCTGTGAGCCCACTTGGGCAGGGTTTGACCTTGTATT CCTACCCCTCCTCCACCTTTTGCTGAACCGTGGAGATTCTCAGATAGGTTCCACTTTCTT GAATTGGTGTGTCCAAGGGCATACATAGTGTGAATAGCTGATTAGTGTGGGTGGTGGTGG TGAGTGTGGGGTGGGGGGGCGTGGGGAGAAACTTGGTCCTTCTAACTGGTGAGCAGCATT CTCCTGGGATTGTAAATAGATAGTGGATTTGGGCAGGCAAATGGCCATTAGCTGCTGTTT CCCCCTCCCAGTCTCTCCCATCATGGGGCCCTTTGGGTTTAGTCTCCACTTAAGCCCTGT TTACGTCTGCTGGGCTGATTTTATTGGAGCACAAAATAACTGTTCACCTCTGTATGACTG TTTTGATAGGGTTTACTTTGCAAGAGCAATCAAGACAACAAGTTGGACATGGAAATTTTG GAACAACTTAAATACATCGGGTGTGTTATTAAGGAGACCCTTCGACTGAATCCCCCAGTT CCAGGAGGGTTTCGGGTTGCTCTGAAGACTTTTGAATTAAATGTAAGTTAAAATTCTCTT CTTTCTCCCTTTTGTTGTGGTTTAAAAACTCCTCTTTCTTCCCTATGCTGTGGCTGCAAT TCTTATGCTTTTGATAATTGTTCTGCCCTATATGGAGATATGTTTCAGCAACCTGGATCC ACCTCTCTCTTTCTACCTCTCCCTTGCTTTTAGCTCATAATTTCCCCCAAAGATATCAGT GACTGCTTTTTGTTGTTGAAAGTTAAATTCCAGTTTGTCAGCCCTTGGGGTTTCATAATC TTTTGCAGGGATACCAGATTCCCAAGGGCTGGAATGTTATCTACAGTATCTGTGATACTC ATGATGTGGCAGAGATCTTCACCAACAAGGAAGAATTTAATCCTGACCGATTCATGCTGC CTCACCCAGAGGATGCATCCAGGTTCAGCTTCATTCCATTTGGAGGAGGCCTTAGGAGCT GTGTAGGCAAAGAATTTGCAAAAATTCTTCTCAAAATATTTACAGTGGAGCTGGCCAGGC ATTGTGACTGGCAGCTTCTAAATGGACCTCCTACAATGAAAACCAGTCCCACCGTGTATC CTGTGGACAATCTCCCTGCAAGATTCACCCATTTCCATGGGGAAATCTGATGAGCTTGAA TGTTCAAACCTGAGACTTATTGGAAGTGTACATATGAGTTTTTAAGGAGTGTTGTGTTGA CTTTATATTTAATTTCTAAATGTATATTATAATATTTATGTGTTTTGACTATACTACCAC AATCTTTAAATATTAAAATAATGAATTTGTATCATTTCCAAATAAAGTAAAATTTGAAGG TACTTTTCTGGTATTTTAAGATTCCTGTTGGGTAAAACTCACCAGTTTAGTATTTTCTTA GTGTATTTAACCAGATTTTACAATGCCTACCTGGACTTATTTGTCATCTTTGCATCTGTT TTCTGTGAGAAGAAATCTTAGCTGTTTTTTATGTTAACAGTTATTAGAAAATATATGTCT GTGTGTGTTATTCCAGACGTATCTCTGTAAATTCTTCTACAGTCACTTAGATTCCCTATT TGGAAAATTGATCCAAGTTAATTTAATTTTTTTTTGGTTTGCTGTACTTTAGGGAAAGAT GAACCTGAAAAGGTAACACTGAGAACTGTCACTCTAACCTCTCCAGCTTATCTAACATGT CATAAACATAATAAATCTGTGTTGTCCAAT
Exon
Intron
Transcript ID
NM_000783
Gene sequence
CGGCACCTGGAAATGGAAAGCCAGTGAAGGCTGCTTTGGGCCGGGGCAGCGGGTGGGACC GGGCGGGAGGGATTCCAAAGAGACCGCCGGGAAGGCTAGAGCTTGGAATTCCGGCTCCTC GGAGTCCTGGCCCTCCCCCACCGCCGCCTCGGAGCTCAGCACACCTTGGATGGGGGAGGC GGGCAGCTCCTAGCCCCGCACCCCAGGAGGCGCGCTCGGAGGGAAGCCGCCACCGCGCCG CCTCTGCCTCGGCGCGGAACAAACGGTTAAAGATTTTGGGCAGCGCCTCGCGGGGGGAGG AGCCAGGGGCCCAATCCGCAATTAAAGATGAACTTTGGGTGAACTAATTGTCTGACCAAG GTAACGTGGGCAGCAACCTGGGCCGCCTATAAAGCGGCAGCGCCGTGGGGTTTGAAGCGC TGGCGGCGGCGGCAGGTGGCGCGGGAGGTCGCGGCGCGCCATGGGGCTCCCGGCGCTGCT GGCCAGTGCGCTCTGCACCTTCGTGCTGCCGCTGCTGCTCTTCCTGGCTGCGATCAAGCT CTGGGACCTGTACTGCGTGAGCGGCCGCGACCGCAGTTGTGCCCTCCCATTGCCCCCCGG GACTATGGGCTTCCCCTTCTTTGGGGAAACCTTGCAGATGGTACTGCAGGTAAGGGAGGG TGGGGCGGGACAGGCTGCTTCCCCGGAGCCCGGCGCGGCTCTGGGCTTCTGCTGAAGTCG GGGTAGGCGCCCCCGGGAGGCATGCTATTGCGGCTAGGAGCAGGGCTGGCGGGAGCGCGG CGCTCCCCGGCGCCCCCTCATGCCCACTTCTCTCCTCCGCCTTCCTCCCACAGCGGAGGA AGTTCCTGCAGATGAAGCGCAGGAAATACGGCTTCATCTACAAGACGCATCTGTTCGGGC GGCCCACCGTACGGGTGATGGGCGCGGACAATGTGCGGCGCATCTTGCTCGGAGAGCACC GGCTGGTGTCGGTCCACTGGCCAGCGTCGGTGCGCACCATTCTGGGATCTGGCTGCCTCT CTAACCTGCACGACTCCTCGCACAAGCAGCGCAAGAAGGTGGGGGCAGGAGGCGACGGCT GGACAGGGAGGGGGACCCCATTTATGAGCGGAATTCCGGCTGATGGATGCTAGGCGCGGG CTAGCAGCTTGAGGTGGGCTAGGACCCTCTGCCAGCTCCAGGTTAGCTTTCCCAGCTCGG AGAGTGCCATGTGTCTGGCAGGACTGGGGGTGTCTGGAAGGGGACGGCGGTAGACGAGAG GGGCGGATGGAGGCTTTTAACGCTGTCCCCTCCTCGGGACTCAGGTGATTATGCGGGCCT TCAGCCGCGAGGCACTCGAATGCTACGTGCCGGTGATCACCGAGGAAGTGGGCAGCAGCC TGGAGCAGTGGCTGAGCTGCGGCGAGCGCGGCCTCCTGGTCTACCCCGAGGTGAAGCGCC TCATGTTCCGAATCGCCATGCGCATCCTACTGGGCTGCGAACCCCAACTGGCGGGCGACG GGGACTCCGAGCAGCAGCTTGTGGAGGCCTTCGAGGAAATGACCCGCAATCTCTTCTCGC TGCCCATCGACGTGCCCTTCAGCGGGCTGTACCGGGTAAGGGCGGCAAACGGGCTGCGGA CTAGGGGCGCGGGACCTGGGCGTCTGCTCACCGCCGCGCGCTCTCTGCGCTCAGGGCATG AAGGCGCGGAACCTCATTCACGCGCGCATCGAGCAGAACATTCGCGCCAAGATCTGCGGG CTGCGGGCATCCGAGGCGGGCCAGGGCTGCAAAGACGCGCTGCAGCTGTTGATCGAGCAC TCGTGGGAGAGGGGAGAGCGGCTGGACATGCAGGTGAGTAGCAGCTTCAGACCAGGCACT GCGGAGTTTGGTCCCCTGGCTTTCCAAGCGCTGTTCCTGGGGCCCCCAAAGCGCGCGCCT GGGGCCCAGCTTTCTGGAGTGGGCGGCCGGCTCAGACTACAGCTATGGAATCCCGAAGGA AGGCTGAGACACCCGGTCAGGAGAGCTGCGGAAGGGGCTGCGGCGGAACTGGGAGCATCC CCTAGCCTTTCCAGGTTTCAAAGGGAAAGTTGGAATTTGCAAAAATGTTAATAAAGAACC TTGCGATTTTAATAAAACTAAGACTTTAACTCAGGAGTTTCCGGTAGAGCGGGGTCGTAC TCGCCTTACTGCTCCAGCTGAACTAAAGGGACGTTGCATTTTGTTTAAAGATATTGCTTT CCTTGACTTTCTGTCAGCAAAACATTTAGCCCTTCTAGTCTTCCCTCCAGAACTCTCAGT TCGATTCTGAGTAATCCTTCTGTCAAACCGCAGGCAGACTTGTGAGAATGTGGGTCTCAC TCTATTCTTAGGCACTAAAGCAATCTTCAACCGAACTCCTCTTTGGAGGACACGAAACCA CGGCCAGTGCAGCCACATCTCTGATCACTTACCTGGGGCTCTACCCACATGTTCTCCAGA AAGTGCGAGAAGAGCTGAAGAGTAAGGTAGGGAGACTGGGTCTGGGGGTGTCCTTATTAG CTTAGGAAATTCAGCTGCTCCCTAGCCAACTTCCGAATAAGTCAGTGTGCTGCCTTCATG GAGTATTTTGAAAGTGCAGGGCCCAGGGCTGCGTGGGCCAGTGGGCAGAATTAGCTTTGT GAATAAACAGGATGGAGTCTTGAGCTGTGAGCCCACTTGGGCAGGGTTTGACCTTGTATT CCTACCCCTCCTCCACCTTTTGCTGAACCGTGGAGATTCTCAGATAGGTTCCACTTTCTT GAATTGGTGTGTCCAAGGGCATACATAGTGTGAATAGCTGATTAGTGTGGGTGGTGGTGG TGAGTGTGGGGTGGGGGGGCGTGGGGAGAAACTTGGTCCTTCTAACTGGTGAGCAGCATT CTCCTGGGATTGTAAATAGATAGTGGATTTGGGCAGGCAAATGGCCATTAGCTGCTGTTT CCCCCTCCCAGTCTCTCCCATCATGGGGCCCTTTGGGTTTAGTCTCCACTTAAGCCCTGT TTACGTCTGCTGGGCTGATTTTATTGGAGCACAAAATAACTGTTCACCTCTGTATGACTG TTTTGATAGGGTTTACTTTGCAAGAGCAATCAAGACAACAAGTTGGACATGGAAATTTTG GAACAACTTAAATACATCGGGTGTGTTATTAAGGAGACCCTTCGACTGAATCCCCCAGTT CCAGGAGGGTTTCGGGTTGCTCTGAAGACTTTTGAATTAAATGTAAGTTAAAATTCTCTT CTTTCTCCCTTTTGTTGTGGTTTAAAAACTCCTCTTTCTTCCCTATGCTGTGGCTGCAAT TCTTATGCTTTTGATAATTGTTCTGCCCTATATGGAGATATGTTTCAGCAACCTGGATCC ACCTCTCTCTTTCTACCTCTCCCTTGCTTTTAGCTCATAATTTCCCCCAAAGATATCAGT GACTGCTTTTTGTTGTTGAAAGTTAAATTCCAGTTTGTCAGCCCTTGGGGTTTCATAATC TTTTGCAGGGATACCAGATTCCCAAGGGCTGGAATGTTATCTACAGTATCTGTGATACTC ATGATGTGGCAGAGATCTTCACCAACAAGGAAGAATTTAATCCTGACCGATTCATGCTGC CTCACCCAGAGGATGCATCCAGGTTCAGCTTCATTCCATTTGGAGGAGGCCTTAGGAGCT GTGTAGGCAAAGAATTTGCAAAAATTCTTCTCAAAATATTTACAGTGGAGCTGGCCAGGC ATTGTGACTGGCAGCTTCTAAATGGACCTCCTACAATGAAAACCAGTCCCACCGTGTATC CTGTGGACAATCTCCCTGCAAGATTCACCCATTTCCATGGGGAAATCTGATGAGCTTGAA TGTTCAAACCTGAGACTTATTGGAAGTGTACATATGAGTTTTTAAGGAGTGTTGTGTTGA CTTTATATTTAATTTCTAAATGTATATTATAATATTTATGTGTTTTGACTATACTACCAC AATCTTTAAATATTAAAATAATGAATTTGTATCATTTCCAAATAAAGTAAAATTTGAAGG TACTTTTCTGGTATTTTAAGATTCCTGTTGGGTAAAACTCACCAGTTTAGTATTTTCTTA GTGTATTTAACCAGATTTTACAATGCCTACCTGGACTTATTTGTCATCTTTGCATCTGTT TTCTGTGAGAAGAAATCTTAGCTGTTTTTTATGTTAACAGTTATTAGAAAATATATGTCT GTGTGTGTTATTCCAGACGTATCTCTGTAAATTCTTCTACAGTCACTTAGATTCCCTATT TGGAAAATTGATCCAAGTTAATTTAATTTTTTTTTGGTTTGCTGTACTTTAGGGAAAGAT GAACCTGAAAAGGTAACACTGAGAACTGTCACTCTAACCTCTCCAGCTTATCTAACATGT CATAAACATAATAAATCTGTGTTGTCCAAT
Exon
Intron
