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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000020.1:165506..169852+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_50360-T1 ID=CAN33_50360-T1|Name=CAN33_50360-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4347bp|location=Sequence derived from alignment at NKJJ01000020.1:165506..169852+ (Aspergillus niger FDAARGOS_311)
ATGATCACTGCTACATCCTTTTTGAATCATATTGGGAGCCGACCGCCGCG
GTATCGCACTCCCTCGCCGCCGCGACGCGCCGTCGAGCCTATCTCGCCTT
GCTCAACCTCCGACCTCCGTGCATCATGGGTCGACCGCAACGTCTCTCGG
GTTGCTGCCTCCGATCGCGACCACTTTGTACCTCACAATCCTACACTGCA
CCATCATGCTGATGAGACAGCTTCTCATCGCTCTAGCCATGGCCGCTCCG
GTTCTACCATCGACGCTCTCGCAACGATCGCCCTAGCGACGAGTCCTACC
TTCGCACCTCTTTCCTACCGACCTCCTTCTCAAAACTCCACCCCCGCCAT
GTCGCTATTCCCCTCCGAGCCCATCGAATCTACAGAACGCCCAAGCAAGC
GTCCGCGGTCGGAAAAGGATCCCTCTCCATATACCCAACACCGGACAGTG
GCCGTGTCAGATGCAAATTCTGCTTCGTTGTTTGATAGCATGAAGACAGA
CGCAGAGCTTTTGCTGAATCTGGCACGGCCCACAAACTTTCATCCTCCCT
CGCATCCCGCGAAACGTGTCAGCATCGACGAGTCGTTTTATCATTATGGG
GACGAACAAAAGCATCATGTCATGGCGGATTCGGGCGGCGCGAGCTGGAG
GTTCAATGACGAAAAATATGCATACAATGCTCCCGGGCCCAACAACATGC
CGTCTCGGGTGAGGTCACAGTCCGACGGTTCAGCTGCTATATCACGCCCG
GTTATCCATGGCATGCGACCCAATACAAGCTCCTCCACTCTTCCACCAAT
TCTATGGCAGGAGGAAGGGGACGCTGAAAACGACTATTCACCCACAAAGT
TCGTCATAAATAGTAGGCCGAGCGAGACACAAGCACAACTATCAATGCAC
ACCACCAACATGGCACAAATGCCAATAGAGCATTCTTCCAAGATTGAAGA
TGATACGGAGGAGTCTAACCAGGCTAGCTGCGCGGCTTGCAATCTTGTGC
GGATCCCGATGGACACTGGCGAGCAAGGCGATGTGACATGGATAAGCTGC
GATGGTTGCAAACGGTGGTTTCATATTGTCTGTGCTGGGTTCAAGAGTGA
CCGCGAACTCCGAACAGTGGACAAATTTATCTGTCGAGAATGCCGTCCTA
TTTATGGACAGACTACGTTCGTGCGCAAATCTTCTCGCGCTCGCACAGCT
ATTGATTATGCCGGCCTCAACCAAGGGCTTGTCAAGGCCGCTACGGACTC
TCTCGAACATCACTACATTGAACCCATCCGACAGGGCAAAATTCAGTTCC
TACCTGAAAATTTCCCACGAATGCGTCCTGAGCTGGTCACTGCCGAGTAT
TTCGAGCGAGGCAATGGCATGACGGAACCAATTGTCATCCCTGCGGAGTG
GAACACTCGCGAGTCCGTTTCGATCAGTAATTCCGAGTTTGACACCTTAG
TACAAGAGGCGCCTACGCAAGAAATGTTCGACGAGCTGCTGGATCATATT
GTCGAGCAAGAGGAAGGCTACGAGCAAGTGATAGATTGTGGCCAGGATCA
GTTGGACATGGTGATTCCTGAAGGCCTTACCGTTCGAAGAGTTGCGGAGC
TTTACGGACCAGAAGAAAGAGTCGAGGTCATTGATGTCAAATCGCAGCAG
AACGAAGACAAGAGGTGGACAATGCAGAAATGGGCGGAATACTACGAGAG
TACTGGCGACAAGGTTGTCCGAAACGTCATCAGTTTGGAAGTCTCACAGA
GCCCATTGGGCAGGCTCATTCGTCGGCCAAAGGTTGTCCGGGATCTTGAC
CTTCAGGACTCTGTCTGGCCTGACGAACAGAAGGCCGTCGGCGATTGCCC
GAAAGTCCAGTTCTACGTCTTAATGTCTGTCGCTGACTGCTATACCGATT
TCCACATCGACTTTGGAGGGTCCTCGGTATATTATCATATTCTGAAAGGC
AAAAAGACCTTCTTTTTCATCCCGCCCAAGGACAAGCACCTGAAAAAGTA
TGAGGAGTGGTGTAATTCTCCTGCGCAGGATTCCACCTTTCTTGGGGACC
AAACCAAGGAATGCTATCGCGTGGATCTGTCTGAAGGCGATACGATGCTG
ATCCCCTCGGGCTGGATCCATGCCGTCTGGACCCCGAGAACAGTCTTGTC
ATCGGTGGGAATTTCCTTACGAGGCTGAACTACGGGATGCAGATTAAGAT
CGCGCAGATCGAGAAGGATACCAAGGTTCCACGGAAGTTCAGGTACCCGT
TCTTCCAGAAGATACAATGGTATACCGCGTTGCGATATCTCGAAGATGAC
CCGCTACCGCAGAGCGTTCTTGACGCCTTCGCGCAGGACGAAAACTACCG
CTTCCACCGAGCGTATCCGATCTACTACGAATTCGGCGAACGGACGAACA
ATGCGCCTGCCGGGTCGCCTTATCACAACTCGCGCTTCTATTCTCAAGCG
GAACTGGAAGGGCTACCAGATCTTGCAAAATACCTCTATCACACTGCCCT
CATTGCTGGCGCCTATCTGACGGAGGGCGTGACGATGGATACCAGGAATG
CGGTCAAACGCTCGATACCTAAGATGTCCGGGGAGCCAATCGATGCCGTA
AGGAAGTTTGGCATCTGGGTCGCCTGGAAGCGTGGCAATGAGAGGGCACC
GCATTGGACCCGCCCTGGCGTGGCTGAAAGCAATGCGAAACTCAGTCTCG
CGGAGAAGAAACCCGCCGGAAGGCCCAGCCGTCGCTCAGAGCGTAATGCC
GAGAGCCAACGCACGTACGCAGAAAGACAGGCTGTACAGCGGCTTCCAGA
GCCGGCTCATGACCCAGCAACCGAAATGAGCAACAGTAGTGGCCCTAGTG
GTCCGCTGAATGCCGGAGCTGCTATGCCAGACGGCCCGTCGAGCAGTGGC
ATCAAAGAAGAGCCTGCTCCCAAATCGCGCGCTGCACCCCGTGGCTCCGG
ACTGGGCCCTAAGCGCGTTGCCTGCGATGCCTGTCGCAAGCGAAGGATCC
GGTGTCACCACAAGGATGAACATAACGACGGTATTTCCAGCAAGCAAACG
GCCGTGACCGCTTTCGGCCCCAGCAACCATTCGTTAGCACACGACGCAGC
GTCTGCGCTGAATTCACTTGCCGCTATTGCATCGGAAGCAGGCTTTCAAG
ACAATGGAAGTGGCAGGAACCCGGATCGGTTTGAAGTCGCTGCCAAGTTC
AACTCCGCCATTTTGGGTACGCCGCGTGCACCGGTCAATGGACTCGGACT
CAATGATGCCAGTCCTGAAGGCGCCAACACCGGAAAGAAGGGCCGCAGCA
AGGCCTGCGACGACTGCCGGAAGAGCAAGGTTCGTTTTCTTTCTTTCTTT
CTTTCTTCTTCTTTTTCCCTCTCCTTTTCTATTCAGTTCTAATACTAACT
GACAACAGCGTCGGTGTATCCACGATGAGTACGGCCGTATTGACCCTGTT
AAGGCGCAAGAACGAGCAAAGCCGCGCGCTGCTGCTTCTGCCAAACGGCC
TCGTATCAACGAAGAAGGAACTGGGCCGATGATCAACAAACGGATGAAGC
AGGAGAGCACATCGCCTACGTCGAGGCCGGCACATCTCAGCAACAATCGT
GAAGCTGGTGCGCCAGGGACGCAAGATCACCTGTCCGATCATGCTCATGC
AGCCGTGGATCTCCATGCCCCGTTCTCGGATGCGCCGCTGGCTGATAAAG
ACTCAAATCGGCAGTCGGGAATGACCGTTGGGGAAAAGGAAGCACCATTG
GGGCCAACCTCCTACGCATCACCGCCTACGTTCCAGACTGACACGGTCGA
TGCGAAGGAAATAGATTCTGCGCCTGTCTCTAAGCCTACTGCCACCCTTG
TATCACCGCCGACCTCACTGGCCGACGAGACCGATGTTCCTCAGGAACAA
GCAGACGGAGAAGGGGACCATGTGGTAGTCCTGCACACACCAACCTCAAG
TTCCCGGCACTCTTCGCGCCAACCGCGCCAGGTTGATCGGTACATGCCTG
AGACGCATGTTTCCAGGCCGACCAAGGGGACGACCCATACCCCCACCGCC
CGTCGTTCTTCGTTCGGCGGTTCAAGCGGTGGTGTGCGAAAATCCACCCC
AGGTCCTTCTTCAGGCTCCAAAAAGTCCGCATCACGCCCCTCCTCGTCCT
CGCATGCCAAGAAGAGTTTCTGGTCGACCGACGAGAAAAAGGGCGACCGG
CACTCTGCGACGTCAACATCTCCTGGGCAGCCGGGCAAAAACCCTAAGCG
GGTTGCGGACGAGGAGCCGGATGCTGAGAGCCTCCGCTTGATCCGTGAAC
TGCAAGAAGCCGAGTTCGGGCTACGCAAGAGATCCACACGAGTGTGA back to topCoding sequence (CDS) from alignment at NKJJ01000020.1:165506..169852+ >CAN33_50360-T1 ID=CAN33_50360-T1|Name=CAN33_50360-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12690bp|location=Sequence derived from alignment at NKJJ01000020.1:165506..169852+ (Aspergillus niger FDAARGOS_311)
ATGATCACTGCTACATCCTTTTTGAATCATATTGGGAGCCGACCGCCGCG
GTATCGCACTCCCTCGCCGCCGCGACGCGCCGTCGAGCCTATCTCGCCTT
GCTCAACCTCCGACCTCCGTGCATCATGGGTCGACCGCAACGTCTCTCGG
GTTGCTGCCTCCGATCGCGACCACTTTGTACCTCACAATCCTACACTGCA
CCATCATGCTGATGAGACAGCTTCTCATCGCTCTAGCCATGGCCGCTCCG
GTTCTACCATCGACGCTCTCGCAACGATCGCCCTAGCGACGAGTCCTACC
TTCGCACCTCTTTCCTACCGACCTCCTTCTCAAAACTCCACCCCCGCCAT
GTCGCTATTCCCCTCCGAGCCCATCGAATCTACAGAACGCCCAAGCAAGC
GTCCGCGGTCGGAAAAGGATCCCTCTCCATATACCCAACACCGGACAGTG
GCCGTGTCAGATGCAAATTCTGCTTCGTTGTTTGATAGCATGAAGACAGA
CGCAGAGCTTTTGCTGAATCTGGCACGGCCCACAAACTTTCATCCTCCCT
CGCATCCCGCGAAACGTGTCAGCATCGACGAGTCGTTTTATCATTATGGG
GACGAACAAAAGCATCATGTCATGGCGGATTCGGGCGGCGCGAGCTGGAG
GTTCAATGACGAAAAATATGCATACAATGCTCCCGGGCCCAACAACATGC
CGTCTCGGGTGAGGTCACAGTCCGACGGTTCAGCTGCTATATCACGCCCG
GTTATCCATGGCATGCGACCCAATACAAGCTCCTCCACTCTTCCACCAAT
TCTATGGCAGGAGGAAGGGGACGCTGAAAACGACTATTCACCCACAAAGT
TCGTCATAAATAGTAGGCCGAGCGAGACACAAGCACAACTATCAATGCAC
ACCACCAACATGGCACAAATGCCAATAGAGCATTCTTCCAAGATTGAAGA
TGATACGGAGGAGTCTAACCAGGCTAGCTGCGCGGCTTGCAATCTTGTGC
GGATCCCGATGGACACTGGCGAGCAAGGCGATGTGACATGGATAAGCTGC
GATGGTTGCAAACGGTGGTTTCATATTGTCTGTGCTGGGTTCAAGAGTGA
CCGCGAACTCCGAACAGTGGACAAATTTATCTGTCGAGAATGCCGTCCTA
TTTATGGACAGACTACGTTCGTGCGCAAATCTTCTCGCGCTCGCACAGCT
ATTGATTATGCCGGCCTCAACCAAGGGCTTGTCAAGGCCGCTACGGACTC
TCTCGAACATCACTACATTGAACCCATCCGACAGGGCAAAATTCAGTTCC
TACCTGAAAATTTCCCACGAATGCGTCCTGAGCTGGTCACTGCCGAGTAT
TTCGAGCGAGGCAATGGCATGACGGAACCAATTGTCATCCCTGCGGAGTG
GAACACTCGCGAGTCCGTTTCGATCAGTAATTCCGAGTTTGACACCTTAG
TACAAGAGGCGCCTACGCAAGAAATGTTCGACGAGCTGCTGGATCATATT
GTCGAGCAAGAGGAAGGCTACGAGCAAGTGATAGATTGTGGCCAGGATCA
GTTGGACATGGTGATTCCTGAAGGCCTTACCGTTCGAAGAGTTGCGGAGC
TTTACGGACCAGAAGAAAGAGTCGAGGTCATTGATGTCAAATCGCAGCAG
AACGAAGACAAGAGGTGGACAATGCAGAAATGGGCGGAATACTACGAGAG
TACTGGCGACAAGGTTGTCCGAAACGTCATCAGTTTGGAAGTCTCACAGA
GCCCATTGGGCAGGCTCATTCGTCGGCCAAAGGTTGTCCGGGATCTTGAC
CTTCAGGACTCTGTCTGGCCTGACGAACAGAAGGCCGTCGGCGATTGCCC
GAAAGTCCAGTTCTACGTCTTAATGTCTGTCGCTGACTGCTATACCGATT
TCCACATCGACTTTGGAGGGTCCTCGGTATATTATCATATTCTGAAAGGC
AAAAAGACCTTCTTTTTCATCCCGCCCAAGGACAAGCACCTGAAAAAGTA
TGAGGAGTGGTGTAATTCTCCTGCGCAGGATTCCACCTTTCTTGGGGACC
AAACCAAGGAATGCTATCGCGTGGATCTGTCTGAAGGCGATACGATGCTG
ATCCCCTCGGGCTGGATCCATGCCGTCTGGACCCCGAGAACAGTCTTGTC
ATCGATTAAGATCGCGCAGATCGAGAAGGATACCAAGGTTCCACGGAAGT
TCAGGTACCCGTTCTTCCAGAAGATACAATGGTATACCGCGTTGCGATAT
CTCGAAGATGACCCGCTACCGCAGAGCGTTCTTGACGCCTTCGCGCAGGA
CGAAAACTACCGCTTCCACCGAGCGTATCCGATCTACTACGAATTCGGCG
AACGGACGAACAATGCGCCTGCCGGGTCGCCTTATCACAACTCGCGCTTC
TATTCTCAAGCGGAACTGGAAGGGCTACCAGATCTTGCAAAATACCTCTA
TCACACTGCCCTCATTGCTGGCGCCTATCTGACGGAGGGCGTGACGATGG
ATACCAGGAATGCGGTCAAACGCTCGATACCTAAGATGTCCGGGGAGCCA
ATCGATGCCGTAAGGAAGTTTGGCATCTGGGTCGCCTGGAAGCGTGGCAA
TGAGAGGGCACCGCATTGGACCCGCCCTGGCGTGGCTGAAAGCAATGCGA
AACTCAGTCTCGCGGAGAAGAAACCCGCCGGAAGGCCCAGCCGTCGCTCA
GAGCGTAATGCCGAGAGCCAACGCACGTACGCAGAAAGACAGGCTGTACA
GCGGCTTCCAGAGCCGGCTCATGACCCAGCAACCGAAATGAGCAACAGTA
GTGGCCCTAGTGGTCCGCTGAATGCCGGAGCTGCTATGCCAGACGGCCCG
TCGAGCAGTGGCATCAAAGAAGAGCCTGCTCCCAAATCGCGCGCTGCACC
CCGTGGCTCCGGACTGGGCCCTAAGCGCGTTGCCTGCGATGCCTGTCGCA
AGCGAAGGATCCGGTGTCACCACAAGGATGAACATAACGACGGTATTTCC
AGCAAGCAAACGGCCGTGACCGCTTTCGGCCCCAGCAACCATTCGTTAGC
ACACGACGCAGCGTCTGCGCTGAATTCACTTGCCGCTATTGCATCGGAAG
CAGGCTTTCAAGACAATGGAAGTGGCAGGAACCCGGATCGGTTTGAAGTC
GCTGCCAAGTTCAACTCCGCCATTTTGGGTACGCCGCGTGCACCGGTCAA
TGGACTCGGACTCAATGATGCCAGTCCTGAAGGCGCCAACACCGGAAAGA
AGGGCCGCAGCAAGGCCTGCGACGACTGCCGGAAGAGCAAGCGTCGGTGT
ATCCACGATGAGTACGGCCGTATTGACCCTGTTAAGGCGCAAGAACGAGC
AAAGCCGCGCGCTGCTGCTTCTGCCAAACGGCCTCGTATCAACGAAGAAG
GAACTGGGCCGATGATCAACAAACGGATGAAGCAGGAGAGCACATCGCCT
ACGTCGAGGCCGGCACATCTCAGCAACAATCGTGAAGCTGGTGCGCCAGG
GACGCAAGATCACCTGTCCGATCATGCTCATGCAGCCGTGGATCTCCATG
CCCCGTTCTCGGATGCGCCGCTGGCTGATAAAGACTCAAATCGGCAGTCG
GGAATGACCGTTGGGGAAAAGGAAGCACCATTGGGGCCAACCTCCTACGC
ATCACCGCCTACGTTCCAGACTGACACGGTCGATGCGAAGGAAATAGATT
CTGCGCCTGTCTCTAAGCCTACTGCCACCCTTGTATCACCGCCGACCTCA
CTGGCCGACGAGACCGATGTTCCTCAGGAACAAGCAGACGGAGAAGGGGA
CCATGTGGTAGTCCTGCACACACCAACCTCAAGTTCCCGGCACTCTTCGC
GCCAACCGCGCCAGGTTGATCGGTACATGCCTGAGACGCATGTTTCCAGG
CCGACCAAGGGGACGACCCATACCCCCACCGCCCGTCGTTCTTCGTTCGG
CGGTTCAAGCGGTGGTGTGCGAAAATCCACCCCAGGTCCTTCTTCAGGCT
CCAAAAAGTCCGCATCACGCCCCTCCTCGTCCTCGCATGCCAAGAAGAGT
TTCTGGTCGACCGACGAGAAAAAGGGCGACCGGCACTCTGCGACGTCAAC
ATCTCCTGGGCAGCCGGGCAAAAACCCTAAGCGGGTTGCGGACGAGGAGC
CGGATGCTGAGAGCCTCCGCTTGATCCGTGAACTGCAAGAAGCCGAGTTC
GGGCTACGCAAGAGATCCACACGAGTGTGAATGATCACTGCTACATCCTT
TTTGAATCATATTGGGAGCCGACCGCCGCGGTATCGCACTCCCTCGCCGC
CGCGACGCGCCGTCGAGCCTATCTCGCCTTGCTCAACCTCCGACCTCCGT
GCATCATGGGTCGACCGCAACGTCTCTCGGGTTGCTGCCTCCGATCGCGA
CCACTTTGTACCTCACAATCCTACACTGCACCATCATGCTGATGAGACAG
CTTCTCATCGCTCTAGCCATGGCCGCTCCGGTTCTACCATCGACGCTCTC
GCAACGATCGCCCTAGCGACGAGTCCTACCTTCGCACCTCTTTCCTACCG
ACCTCCTTCTCAAAACTCCACCCCCGCCATGTCGCTATTCCCCTCCGAGC
CCATCGAATCTACAGAACGCCCAAGCAAGCGTCCGCGGTCGGAAAAGGAT
CCCTCTCCATATACCCAACACCGGACAGTGGCCGTGTCAGATGCAAATTC
TGCTTCGTTGTTTGATAGCATGAAGACAGACGCAGAGCTTTTGCTGAATC
TGGCACGGCCCACAAACTTTCATCCTCCCTCGCATCCCGCGAAACGTGTC
AGCATCGACGAGTCGTTTTATCATTATGGGGACGAACAAAAGCATCATGT
CATGGCGGATTCGGGCGGCGCGAGCTGGAGGTTCAATGACGAAAAATATG
CATACAATGCTCCCGGGCCCAACAACATGCCGTCTCGGGTGAGGTCACAG
TCCGACGGTTCAGCTGCTATATCACGCCCGGTTATCCATGGCATGCGACC
CAATACAAGCTCCTCCACTCTTCCACCAATTCTATGGCAGGAGGAAGGGG
ACGCTGAAAACGACTATTCACCCACAAAGTTCGTCATAAATAGTAGGCCG
AGCGAGACACAAGCACAACTATCAATGCACACCACCAACATGGCACAAAT
GCCAATAGAGCATTCTTCCAAGATTGAAGATGATACGGAGGAGTCTAACC
AGGCTAGCTGCGCGGCTTGCAATCTTGTGCGGATCCCGATGGACACTGGC
GAGCAAGGCGATGTGACATGGATAAGCTGCGATGGTTGCAAACGGTGGTT
TCATATTGTCTGTGCTGGGTTCAAGAGTGACCGCGAACTCCGAACAGTGG
ACAAATTTATCTGTCGAGAATGCCGTCCTATTTATGGACAGACTACGTTC
GTGCGCAAATCTTCTCGCGCTCGCACAGCTATTGATTATGCCGGCCTCAA
CCAAGGGCTTGTCAAGGCCGCTACGGACTCTCTCGAACATCACTACATTG
AACCCATCCGACAGGGCAAAATTCAGTTCCTACCTGAAAATTTCCCACGA
ATGCGTCCTGAGCTGGTCACTGCCGAGTATTTCGAGCGAGGCAATGGCAT
GACGGAACCAATTGTCATCCCTGCGGAGTGGAACACTCGCGAGTCCGTTT
CGATCAGTAATTCCGAGTTTGACACCTTAGTACAAGAGGCGCCTACGCAA
GAAATGTTCGACGAGCTGCTGGATCATATTGTCGAGCAAGAGGAAGGCTA
CGAGCAAGTGATAGATTGTGGCCAGGATCAGTTGGACATGGTGATTCCTG
AAGGCCTTACCGTTCGAAGAGTTGCGGAGCTTTACGGACCAGAAGAAAGA
GTCGAGGTCATTGATGTCAAATCGCAGCAGAACGAAGACAAGAGGTGGAC
AATGCAGAAATGGGCGGAATACTACGAGAGTACTGGCGACAAGGTTGTCC
GAAACGTCATCAGTTTGGAAGTCTCACAGAGCCCATTGGGCAGGCTCATT
CGTCGGCCAAAGGTTGTCCGGGATCTTGACCTTCAGGACTCTGTCTGGCC
TGACGAACAGAAGGCCGTCGGCGATTGCCCGAAAGTCCAGTTCTACGTCT
TAATGTCTGTCGCTGACTGCTATACCGATTTCCACATCGACTTTGGAGGG
TCCTCGGTATATTATCATATTCTGAAAGGCAAAAAGACCTTCTTTTTCAT
CCCGCCCAAGGACAAGCACCTGAAAAAGTATGAGGAGTGGTGTAATTCTC
CTGCGCAGGATTCCACCTTTCTTGGGGACCAAACCAAGGAATGCTATCGC
GTGGATCTGTCTGAAGGCGATACGATGCTGATCCCCTCGGGCTGGATCCA
TGCCGTCTGGACCCCGAGAACAGTCTTGTCATCGATTAAGATCGCGCAGA
TCGAGAAGGATACCAAGGTTCCACGGAAGTTCAGGTACCCGTTCTTCCAG
AAGATACAATGGTATACCGCGTTGCGATATCTCGAAGATGACCCGCTACC
GCAGAGCGTTCTTGACGCCTTCGCGCAGGACGAAAACTACCGCTTCCACC
GAGCGTATCCGATCTACTACGAATTCGGCGAACGGACGAACAATGCGCCT
GCCGGGTCGCCTTATCACAACTCGCGCTTCTATTCTCAAGCGGAACTGGA
AGGGCTACCAGATCTTGCAAAATACCTCTATCACACTGCCCTCATTGCTG
GCGCCTATCTGACGGAGGGCGTGACGATGGATACCAGGAATGCGGTCAAA
CGCTCGATACCTAAGATGTCCGGGGAGCCAATCGATGCCGTAAGGAAGTT
TGGCATCTGGGTCGCCTGGAAGCGTGGCAATGAGAGGGCACCGCATTGGA
CCCGCCCTGGCGTGGCTGAAAGCAATGCGAAACTCAGTCTCGCGGAGAAG
AAACCCGCCGGAAGGCCCAGCCGTCGCTCAGAGCGTAATGCCGAGAGCCA
ACGCACGTACGCAGAAAGACAGGCTGTACAGCGGCTTCCAGAGCCGGCTC
ATGACCCAGCAACCGAAATGAGCAACAGTAGTGGCCCTAGTGGTCCGCTG
AATGCCGGAGCTGCTATGCCAGACGGCCCGTCGAGCAGTGGCATCAAAGA
AGAGCCTGCTCCCAAATCGCGCGCTGCACCCCGTGGCTCCGGACTGGGCC
CTAAGCGCGTTGCCTGCGATGCCTGTCGCAAGCGAAGGATCCGGTGTCAC
CACAAGGATGAACATAACGACGGTATTTCCAGCAAGCAAACGGCCGTGAC
CGCTTTCGGCCCCAGCAACCATTCGTTAGCACACGACGCAGCGTCTGCGC
TGAATTCACTTGCCGCTATTGCATCGGAAGCAGGCTTTCAAGACAATGGA
AGTGGCAGGAACCCGGATCGGTTTGAAGTCGCTGCCAAGTTCAACTCCGC
CATTTTGGGTACGCCGCGTGCACCGGTCAATGGACTCGGACTCAATGATG
CCAGTCCTGAAGGCGCCAACACCGGAAAGAAGGGCCGCAGCAAGGCCTGC
GACGACTGCCGGAAGAGCAAGCGTCGGTGTATCCACGATGAGTACGGCCG
TATTGACCCTGTTAAGGCGCAAGAACGAGCAAAGCCGCGCGCTGCTGCTT
CTGCCAAACGGCCTCGTATCAACGAAGAAGGAACTGGGCCGATGATCAAC
AAACGGATGAAGCAGGAGAGCACATCGCCTACGTCGAGGCCGGCACATCT
CAGCAACAATCGTGAAGCTGGTGCGCCAGGGACGCAAGATCACCTGTCCG
ATCATGCTCATGCAGCCGTGGATCTCCATGCCCCGTTCTCGGATGCGCCG
CTGGCTGATAAAGACTCAAATCGGCAGTCGGGAATGACCGTTGGGGAAAA
GGAAGCACCATTGGGGCCAACCTCCTACGCATCACCGCCTACGTTCCAGA
CTGACACGGTCGATGCGAAGGAAATAGATTCTGCGCCTGTCTCTAAGCCT
ACTGCCACCCTTGTATCACCGCCGACCTCACTGGCCGACGAGACCGATGT
TCCTCAGGAACAAGCAGACGGAGAAGGGGACCATGTGGTAGTCCTGCACA
CACCAACCTCAAGTTCCCGGCACTCTTCGCGCCAACCGCGCCAGGTTGAT
CGGTACATGCCTGAGACGCATGTTTCCAGGCCGACCAAGGGGACGACCCA
TACCCCCACCGCCCGTCGTTCTTCGTTCGGCGGTTCAAGCGGTGGTGTGC
GAAAATCCACCCCAGGTCCTTCTTCAGGCTCCAAAAAGTCCGCATCACGC
CCCTCCTCGTCCTCGCATGCCAAGAAGAGTTTCTGGTCGACCGACGAGAA
AAAGGGCGACCGGCACTCTGCGACGTCAACATCTCCTGGGCAGCCGGGCA
AAAACCCTAAGCGGGTTGCGGACGAGGAGCCGGATGCTGAGAGCCTCCGC
TTGATCCGTGAACTGCAAGAAGCCGAGTTCGGGCTACGCAAGAGATCCAC
ACGAGTGTGAATGATCACTGCTACATCCTTTTTGAATCATATTGGGAGCC
GACCGCCGCGGTATCGCACTCCCTCGCCGCCGCGACGCGCCGTCGAGCCT
ATCTCGCCTTGCTCAACCTCCGACCTCCGTGCATCATGGGTCGACCGCAA
CGTCTCTCGGGTTGCTGCCTCCGATCGCGACCACTTTGTACCTCACAATC
CTACACTGCACCATCATGCTGATGAGACAGCTTCTCATCGCTCTAGCCAT
GGCCGCTCCGGTTCTACCATCGACGCTCTCGCAACGATCGCCCTAGCGAC
GAGTCCTACCTTCGCACCTCTTTCCTACCGACCTCCTTCTCAAAACTCCA
CCCCCGCCATGTCGCTATTCCCCTCCGAGCCCATCGAATCTACAGAACGC
CCAAGCAAGCGTCCGCGGTCGGAAAAGGATCCCTCTCCATATACCCAACA
CCGGACAGTGGCCGTGTCAGATGCAAATTCTGCTTCGTTGTTTGATAGCA
TGAAGACAGACGCAGAGCTTTTGCTGAATCTGGCACGGCCCACAAACTTT
CATCCTCCCTCGCATCCCGCGAAACGTGTCAGCATCGACGAGTCGTTTTA
TCATTATGGGGACGAACAAAAGCATCATGTCATGGCGGATTCGGGCGGCG
CGAGCTGGAGGTTCAATGACGAAAAATATGCATACAATGCTCCCGGGCCC
AACAACATGCCGTCTCGGGTGAGGTCACAGTCCGACGGTTCAGCTGCTAT
ATCACGCCCGGTTATCCATGGCATGCGACCCAATACAAGCTCCTCCACTC
TTCCACCAATTCTATGGCAGGAGGAAGGGGACGCTGAAAACGACTATTCA
CCCACAAAGTTCGTCATAAATAGTAGGCCGAGCGAGACACAAGCACAACT
ATCAATGCACACCACCAACATGGCACAAATGCCAATAGAGCATTCTTCCA
AGATTGAAGATGATACGGAGGAGTCTAACCAGGCTAGCTGCGCGGCTTGC
AATCTTGTGCGGATCCCGATGGACACTGGCGAGCAAGGCGATGTGACATG
GATAAGCTGCGATGGTTGCAAACGGTGGTTTCATATTGTCTGTGCTGGGT
TCAAGAGTGACCGCGAACTCCGAACAGTGGACAAATTTATCTGTCGAGAA
TGCCGTCCTATTTATGGACAGACTACGTTCGTGCGCAAATCTTCTCGCGC
TCGCACAGCTATTGATTATGCCGGCCTCAACCAAGGGCTTGTCAAGGCCG
CTACGGACTCTCTCGAACATCACTACATTGAACCCATCCGACAGGGCAAA
ATTCAGTTCCTACCTGAAAATTTCCCACGAATGCGTCCTGAGCTGGTCAC
TGCCGAGTATTTCGAGCGAGGCAATGGCATGACGGAACCAATTGTCATCC
CTGCGGAGTGGAACACTCGCGAGTCCGTTTCGATCAGTAATTCCGAGTTT
GACACCTTAGTACAAGAGGCGCCTACGCAAGAAATGTTCGACGAGCTGCT
GGATCATATTGTCGAGCAAGAGGAAGGCTACGAGCAAGTGATAGATTGTG
GCCAGGATCAGTTGGACATGGTGATTCCTGAAGGCCTTACCGTTCGAAGA
GTTGCGGAGCTTTACGGACCAGAAGAAAGAGTCGAGGTCATTGATGTCAA
ATCGCAGCAGAACGAAGACAAGAGGTGGACAATGCAGAAATGGGCGGAAT
ACTACGAGAGTACTGGCGACAAGGTTGTCCGAAACGTCATCAGTTTGGAA
GTCTCACAGAGCCCATTGGGCAGGCTCATTCGTCGGCCAAAGGTTGTCCG
GGATCTTGACCTTCAGGACTCTGTCTGGCCTGACGAACAGAAGGCCGTCG
GCGATTGCCCGAAAGTCCAGTTCTACGTCTTAATGTCTGTCGCTGACTGC
TATACCGATTTCCACATCGACTTTGGAGGGTCCTCGGTATATTATCATAT
TCTGAAAGGCAAAAAGACCTTCTTTTTCATCCCGCCCAAGGACAAGCACC
TGAAAAAGTATGAGGAGTGGTGTAATTCTCCTGCGCAGGATTCCACCTTT
CTTGGGGACCAAACCAAGGAATGCTATCGCGTGGATCTGTCTGAAGGCGA
TACGATGCTGATCCCCTCGGGCTGGATCCATGCCGTCTGGACCCCGAGAA
CAGTCTTGTCATCGATTAAGATCGCGCAGATCGAGAAGGATACCAAGGTT
CCACGGAAGTTCAGGTACCCGTTCTTCCAGAAGATACAATGGTATACCGC
GTTGCGATATCTCGAAGATGACCCGCTACCGCAGAGCGTTCTTGACGCCT
TCGCGCAGGACGAAAACTACCGCTTCCACCGAGCGTATCCGATCTACTAC
GAATTCGGCGAACGGACGAACAATGCGCCTGCCGGGTCGCCTTATCACAA
CTCGCGCTTCTATTCTCAAGCGGAACTGGAAGGGCTACCAGATCTTGCAA
AATACCTCTATCACACTGCCCTCATTGCTGGCGCCTATCTGACGGAGGGC
GTGACGATGGATACCAGGAATGCGGTCAAACGCTCGATACCTAAGATGTC
CGGGGAGCCAATCGATGCCGTAAGGAAGTTTGGCATCTGGGTCGCCTGGA
AGCGTGGCAATGAGAGGGCACCGCATTGGACCCGCCCTGGCGTGGCTGAA
AGCAATGCGAAACTCAGTCTCGCGGAGAAGAAACCCGCCGGAAGGCCCAG
CCGTCGCTCAGAGCGTAATGCCGAGAGCCAACGCACGTACGCAGAAAGAC
AGGCTGTACAGCGGCTTCCAGAGCCGGCTCATGACCCAGCAACCGAAATG
AGCAACAGTAGTGGCCCTAGTGGTCCGCTGAATGCCGGAGCTGCTATGCC
AGACGGCCCGTCGAGCAGTGGCATCAAAGAAGAGCCTGCTCCCAAATCGC
GCGCTGCACCCCGTGGCTCCGGACTGGGCCCTAAGCGCGTTGCCTGCGAT
GCCTGTCGCAAGCGAAGGATCCGGTGTCACCACAAGGATGAACATAACGA
CGGTATTTCCAGCAAGCAAACGGCCGTGACCGCTTTCGGCCCCAGCAACC
ATTCGTTAGCACACGACGCAGCGTCTGCGCTGAATTCACTTGCCGCTATT
GCATCGGAAGCAGGCTTTCAAGACAATGGAAGTGGCAGGAACCCGGATCG
GTTTGAAGTCGCTGCCAAGTTCAACTCCGCCATTTTGGGTACGCCGCGTG
CACCGGTCAATGGACTCGGACTCAATGATGCCAGTCCTGAAGGCGCCAAC
ACCGGAAAGAAGGGCCGCAGCAAGGCCTGCGACGACTGCCGGAAGAGCAA
GCGTCGGTGTATCCACGATGAGTACGGCCGTATTGACCCTGTTAAGGCGC
AAGAACGAGCAAAGCCGCGCGCTGCTGCTTCTGCCAAACGGCCTCGTATC
AACGAAGAAGGAACTGGGCCGATGATCAACAAACGGATGAAGCAGGAGAG
CACATCGCCTACGTCGAGGCCGGCACATCTCAGCAACAATCGTGAAGCTG
GTGCGCCAGGGACGCAAGATCACCTGTCCGATCATGCTCATGCAGCCGTG
GATCTCCATGCCCCGTTCTCGGATGCGCCGCTGGCTGATAAAGACTCAAA
TCGGCAGTCGGGAATGACCGTTGGGGAAAAGGAAGCACCATTGGGGCCAA
CCTCCTACGCATCACCGCCTACGTTCCAGACTGACACGGTCGATGCGAAG
GAAATAGATTCTGCGCCTGTCTCTAAGCCTACTGCCACCCTTGTATCACC
GCCGACCTCACTGGCCGACGAGACCGATGTTCCTCAGGAACAAGCAGACG
GAGAAGGGGACCATGTGGTAGTCCTGCACACACCAACCTCAAGTTCCCGG
CACTCTTCGCGCCAACCGCGCCAGGTTGATCGGTACATGCCTGAGACGCA
TGTTTCCAGGCCGACCAAGGGGACGACCCATACCCCCACCGCCCGTCGTT
CTTCGTTCGGCGGTTCAAGCGGTGGTGTGCGAAAATCCACCCCAGGTCCT
TCTTCAGGCTCCAAAAAGTCCGCATCACGCCCCTCCTCGTCCTCGCATGC
CAAGAAGAGTTTCTGGTCGACCGACGAGAAAAAGGGCGACCGGCACTCTG
CGACGTCAACATCTCCTGGGCAGCCGGGCAAAAACCCTAAGCGGGTTGCG
GACGAGGAGCCGGATGCTGAGAGCCTCCGCTTGATCCGTGAACTGCAAGA
AGCCGAGTTCGGGCTACGCAAGAGATCCACACGAGTGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006355 | regulation of transcription, DNA-templated |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
| GO:0008270 | zinc ion binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR011011 |
| DBxref | InterPro:IPR001138 |
| DBxref | InterPro:IPR019786 |
| DBxref | InterPro:IPR013083 |
| DBxref | InterPro:IPR019787 |
| DBxref | InterPro:IPR041667 |
| DBxref | InterPro:IPR041070 |
| DBxref | InterPro:IPR001965 |
| DBxref | InterPro:IPR003347 |
| DBxref | PFAM:PF00628 |
| DBxref | PFAM:PF02373 |
| DBxref | PFAM:PF13621 |
| Product | JmjC domain-containing histone demethylation protein 1 |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| NKJJ01000020.1 | supercontig | NKJJ01000020.1:165506..169852 + |
|
