|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000008.1:349823..352171- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_28740-T1 ID=CAN33_28740-T1|Name=CAN33_28740-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2349bp|location=Sequence derived from alignment at NKJJ01000008.1:349823..352171- (Aspergillus niger FDAARGOS_311)
ATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAACCCGCCAGTCTTGGCCC
ACCAGAGGCTGCAATCGCCGGGCGAGCCGACGGGAAGGTTCTGATTCCCC
GGGATCGATCGAGGATCGTACCGGCTAGCACACAGATACGTACTCCTCGT
GCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAATGCAATGGGGGGAAACC
GACATGTACCCAGTGCGAGAGGTTCGGGATCGAATGCAGGTACTCAGAGC
AGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACATGTTGCGGACAGCTATC
AAGCGGCACGAGCGGATGCTGCAACTTATGTCGCGCCGCCCGTCCGGCGC
TGCACTTTCCACCCGTGGGGAGGGTCCATATGTGAGCTTCATTACCATAC
CACTGATCTCTGTCACTGACGGCCAGCTACTAATCAAGTCATCTAGGCTG
TGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGCTGCCTGGT
CAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGTGAGCTGCA
TTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCTTCCTGCTG
TGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAGCCAGTCTG
CTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTGGAGAGGAT
GCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCTGGTGAACC
GAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGTCAATTGTT
GATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTCTGGGATAA
CCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGATTTCCAGC
ATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCATTCTTTTC
TATGCGTGTGTACGTATCCCACTCGCTTTCTGACCGCGCTGACGGACTAG
CACCTTTCATACGACTTTGGAAAGCCGTGGGACCGGCGCATGGAAATGTC
TACCGCCAAACGGCTTCTGCGGGAGGTGGAACGCCTGTGGCATTGTGATA
AGATGAAAATCACAATACCCACCATGCAGTCAGCCCTTCTCTTAGGGTTG
TTCTTCTGCGCTACAGGGAAAGACAAGATCGGAGTAGAGTATATTCAATA
TGGCGCACGAATGGGATTGCAGCTGGGCCTGCACAAGTCGTCGTTTGGGA
CAGTCCAAACCGATCTAGCAGAGGCACCTCGCATTAGACGAGCTCATAAG
CTCATAGCTAGTGCAGTCTATGAGGTGCAGACGTAAGTTACTAATGAGAA
TCGTATGCAACGCAAGCACTAATTCAATAGTCTTTCTGTGCAATTGGCAA
GGATACCGTCAGTATGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAA
GAAGTAGCGGCGGCGGATGTCAATCAGCAGTGGTCACCGTACCCATTTAC
CCACCCTATTCACAAGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAA
ACCTATTGATCATTGTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGT
GGACAGGTTGACCTCTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAG
ACTTCTAAGCCTCGAAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCA
ACAGGACCCCCCACAACCTATGTTTTCAGTGAGTGATCCAAAGGTAGTCA
TAGCTCTGTGCTAACCAAAAAAAAGCATGTATTACCACATGACAGTAGTC
AACCTCTGCGGGCTTTTTATATCCCGTAATAGCACTGGACCGACGGAGGC
GCTAATGCAATCCACCAAATTCGATCCTCAAAGGATACTGGGCGAAGCGA
TGGACTCGATCGCCACTTTAATATTGCTCTATCGGGTATGCCATGGTTGG
AAGTCCACCCCGGTGGTGATGGTTCACTACTTTATGGTGGCCGGTGTACA
CGCGGCCTCGCACCTGGAGTCGTCAAAGTGGCGCGAAGTGTTGATCAGCT
GTGTCTCTGGTCTCTGGCATATGGGCCTAGTTTGGAGGGTCTGTCGACCG
TTTCTGCGGACGATTCAGCTAGTACTTCAAAGCAAGGACGAGACCTTGAT
TCCCACCGAAACAATGGCAATATTGCGTGAGTTCAACGAGAAGGTGTGGA
ATCGGAACGAGGTAGACGCACTGGCAGCCAACTATGTGGTGCAACACCAT
CCGAGTCAACCACTCGCGCTGGACCAAGACAGTAACTTTCAAGGCAAAGG
TCTCGAAAGCTTGATACGAGATTTCGAGAAACTAAGCACGGATGGTTAG back to topCoding sequence (CDS) from alignment at NKJJ01000008.1:349823..352171- >CAN33_28740-T1 ID=CAN33_28740-T1|Name=CAN33_28740-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10740bp|location=Sequence derived from alignment at NKJJ01000008.1:349823..352171- (Aspergillus niger FDAARGOS_311)
CATGTATTACCACATGACAGTAGTCAACCTCTGCGGGCTTTTTATATCCC
GTAATAGCACTGGACCGACGGAGGCGCTAATGCAATCCACCAAATTCGAT
CCTCAAAGGATACTGGGCGAAGCGATGGACTCGATCGCCACTTTAATATT
GCTCTATCGGGTATGCCATGGTTGGAAGTCCACCCCGGTGGTGATGGTTC
ACTACTTTATGGTGGCCGGTGTACACGCGGCCTCGCACCTGGAGTCGTCA
AAGTGGCGCGAAGTGTTGATCAGCTGTGTCTCTGGTCTCTGGCATATGGG
CCTAGTTTGGAGGGTCTGTCGACCGTTTCTGCGGACGATTCAGCTAGTAC
TTCAAAGCAAGGACGAGACCTTGATTCCCACCGAAACAATGGCAATATTG
CGTGAGTTCAACGAGAAGGTGTGGAATCGGAACGAGGTAGACGCACTGGC
AGCCAACTATGTGGTGCAACACCATCCGAGTCAACCACTCGCGCTGGACC
AAGACAGTAACTTTCAAGGCAAAGGTCTCGAAAGCTTGATACGAGATTTC
GAGAAACTAAGCACGGATGGTTAGTCTTTCTGTGCAATTGGCAAGGATAC
CGTCAGTATGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAAGAAGTA
GCGGCGGCGGATGTCAATCAGCAGTGGTCACCGTACCCATTTACCCACCC
TATTCACAAGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAAACCTAT
TGATCATTGTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGTGGACAG
GTTGACCTCTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAGACTTCT
AAGCCTCGAAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCAACAGGA
CCCCCCACAACCTATGTTTTCACACCTTTCATACGACTTTGGAAAGCCGT
GGGACCGGCGCATGGAAATGTCTACCGCCAAACGGCTTCTGCGGGAGGTG
GAACGCCTGTGGCATTGTGATAAGATGAAAATCACAATACCCACCATGCA
GTCAGCCCTTCTCTTAGGGTTGTTCTTCTGCGCTACAGGGAAAGACAAGA
TCGGAGTAGAGTATATTCAATATGGCGCACGAATGGGATTGCAGCTGGGC
CTGCACAAGTCGTCGTTTGGGACAGTCCAAACCGATCTAGCAGAGGCACC
TCGCATTAGACGAGCTCATAAGCTCATAGCTAGTGCAGTCTATGAGGTGC
AGACGCTGTGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGC
TGCCTGGTCAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGT
GAGCTGCATTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCT
TCCTGCTGTGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAG
CCAGTCTGCTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTG
GAGAGGATGCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCT
GGTGAACCGAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGT
CAATTGTTGATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTC
TGGGATAACCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGA
TTTCCAGCATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCA
TTCTTTTCTATGCGTGTATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAA
CCCGCCAGTCTTGGCCCACCAGAGGCTGCAATCGCCGGGCGAGCCGACGG
GAAGGTTCTGATTCCCCGGGATCGATCGAGGATCGTACCGGCTAGCACAC
AGATACGTACTCCTCGTGCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAA
TGCAATGGGGGGAAACCGACATGTACCCAGTGCGAGAGGTTCGGGATCGA
ATGCAGGTACTCAGAGCAGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACA
TGTTGCGGACAGCTATCAAGCGGCACGAGCGGATGCTGCAACTTATGTCG
CGCCGCCCGTCCGGCGCTGCACTTTCCACCCGTGGGGAGGGTCCATATCA
TGTATTACCACATGACAGTAGTCAACCTCTGCGGGCTTTTTATATCCCGT
AATAGCACTGGACCGACGGAGGCGCTAATGCAATCCACCAAATTCGATCC
TCAAAGGATACTGGGCGAAGCGATGGACTCGATCGCCACTTTAATATTGC
TCTATCGGGTATGCCATGGTTGGAAGTCCACCCCGGTGGTGATGGTTCAC
TACTTTATGGTGGCCGGTGTACACGCGGCCTCGCACCTGGAGTCGTCAAA
GTGGCGCGAAGTGTTGATCAGCTGTGTCTCTGGTCTCTGGCATATGGGCC
TAGTTTGGAGGGTCTGTCGACCGTTTCTGCGGACGATTCAGCTAGTACTT
CAAAGCAAGGACGAGACCTTGATTCCCACCGAAACAATGGCAATATTGCG
TGAGTTCAACGAGAAGGTGTGGAATCGGAACGAGGTAGACGCACTGGCAG
CCAACTATGTGGTGCAACACCATCCGAGTCAACCACTCGCGCTGGACCAA
GACAGTAACTTTCAAGGCAAAGGTCTCGAAAGCTTGATACGAGATTTCGA
GAAACTAAGCACGGATGGTTAGTCTTTCTGTGCAATTGGCAAGGATACCG
TCAGTATGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAAGAAGTAGC
GGCGGCGGATGTCAATCAGCAGTGGTCACCGTACCCATTTACCCACCCTA
TTCACAAGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAAACCTATTG
ATCATTGTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGTGGACAGGT
TGACCTCTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAGACTTCTAA
GCCTCGAAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCAACAGGACC
CCCCACAACCTATGTTTTCACACCTTTCATACGACTTTGGAAAGCCGTGG
GACCGGCGCATGGAAATGTCTACCGCCAAACGGCTTCTGCGGGAGGTGGA
ACGCCTGTGGCATTGTGATAAGATGAAAATCACAATACCCACCATGCAGT
CAGCCCTTCTCTTAGGGTTGTTCTTCTGCGCTACAGGGAAAGACAAGATC
GGAGTAGAGTATATTCAATATGGCGCACGAATGGGATTGCAGCTGGGCCT
GCACAAGTCGTCGTTTGGGACAGTCCAAACCGATCTAGCAGAGGCACCTC
GCATTAGACGAGCTCATAAGCTCATAGCTAGTGCAGTCTATGAGGTGCAG
ACGCTGTGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGCTG
CCTGGTCAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGTGA
GCTGCATTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCTTC
CTGCTGTGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAGCC
AGTCTGCTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTGGA
GAGGATGCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCTGG
TGAACCGAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGTCA
ATTGTTGATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTCTG
GGATAACCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGATT
TCCAGCATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCATT
CTTTTCTATGCGTGTATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAACC
CGCCAGTCTTGGCCCACCAGAGGCTGCAATCGCCGGGCGAGCCGACGGGA
AGGTTCTGATTCCCCGGGATCGATCGAGGATCGTACCGGCTAGCACACAG
ATACGTACTCCTCGTGCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAATG
CAATGGGGGGAAACCGACATGTACCCAGTGCGAGAGGTTCGGGATCGAAT
GCAGGTACTCAGAGCAGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACATG
TTGCGGACAGCTATCAAGCGGCACGAGCGGATGCTGCAACTTATGTCGCG
CCGCCCGTCCGGCGCTGCACTTTCCACCCGTGGGGAGGGTCCATATCATG
TATTACCACATGACAGTAGTCAACCTCTGCGGGCTTTTTATATCCCGTAA
TAGCACTGGACCGACGGAGGCGCTAATGCAATCCACCAAATTCGATCCTC
AAAGGATACTGGGCGAAGCGATGGACTCGATCGCCACTTTAATATTGCTC
TATCGGGTATGCCATGGTTGGAAGTCCACCCCGGTGGTGATGGTTCACTA
CTTTATGGTGGCCGGTGTACACGCGGCCTCGCACCTGGAGTCGTCAAAGT
GGCGCGAAGTGTTGATCAGCTGTGTCTCTGGTCTCTGGCATATGGGCCTA
GTTTGGAGGGTCTGTCGACCGTTTCTGCGGACGATTCAGCTAGTACTTCA
AAGCAAGGACGAGACCTTGATTCCCACCGAAACAATGGCAATATTGCGTG
AGTTCAACGAGAAGGTGTGGAATCGGAACGAGGTAGACGCACTGGCAGCC
AACTATGTGGTGCAACACCATCCGAGTCAACCACTCGCGCTGGACCAAGA
CAGTAACTTTCAAGGCAAAGGTCTCGAAAGCTTGATACGAGATTTCGAGA
AACTAAGCACGGATGGTTAGTCTTTCTGTGCAATTGGCAAGGATACCGTC
AGTATGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAAGAAGTAGCGG
CGGCGGATGTCAATCAGCAGTGGTCACCGTACCCATTTACCCACCCTATT
CACAAGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAAACCTATTGAT
CATTGTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGTGGACAGGTTG
ACCTCTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAGACTTCTAAGC
CTCGAAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCAACAGGACCCC
CCACAACCTATGTTTTCACACCTTTCATACGACTTTGGAAAGCCGTGGGA
CCGGCGCATGGAAATGTCTACCGCCAAACGGCTTCTGCGGGAGGTGGAAC
GCCTGTGGCATTGTGATAAGATGAAAATCACAATACCCACCATGCAGTCA
GCCCTTCTCTTAGGGTTGTTCTTCTGCGCTACAGGGAAAGACAAGATCGG
AGTAGAGTATATTCAATATGGCGCACGAATGGGATTGCAGCTGGGCCTGC
ACAAGTCGTCGTTTGGGACAGTCCAAACCGATCTAGCAGAGGCACCTCGC
ATTAGACGAGCTCATAAGCTCATAGCTAGTGCAGTCTATGAGGTGCAGAC
GCTGTGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGCTGCC
TGGTCAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGTGAGC
TGCATTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCTTCCT
GCTGTGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAGCCAG
TCTGCTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTGGAGA
GGATGCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCTGGTG
AACCGAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGTCAAT
TGTTGATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTCTGGG
ATAACCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGATTTC
CAGCATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCATTCT
TTTCTATGCGTGTATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAACCCG
CCAGTCTTGGCCCACCAGAGGCTGCAATCGCCGGGCGAGCCGACGGGAAG
GTTCTGATTCCCCGGGATCGATCGAGGATCGTACCGGCTAGCACACAGAT
ACGTACTCCTCGTGCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAATGCA
ATGGGGGGAAACCGACATGTACCCAGTGCGAGAGGTTCGGGATCGAATGC
AGGTACTCAGAGCAGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACATGTT
GCGGACAGCTATCAAGCGGCACGAGCGGATGCTGCAACTTATGTCGCGCC
GCCCGTCCGGCGCTGCACTTTCCACCCGTGGGGAGGGTCCATATCATGTA
TTACCACATGACAGTAGTCAACCTCTGCGGGCTTTTTATATCCCGTAATA
GCACTGGACCGACGGAGGCGCTAATGCAATCCACCAAATTCGATCCTCAA
AGGATACTGGGCGAAGCGATGGACTCGATCGCCACTTTAATATTGCTCTA
TCGGGTATGCCATGGTTGGAAGTCCACCCCGGTGGTGATGGTTCACTACT
TTATGGTGGCCGGTGTACACGCGGCCTCGCACCTGGAGTCGTCAAAGTGG
CGCGAAGTGTTGATCAGCTGTGTCTCTGGTCTCTGGCATATGGGCCTAGT
TTGGAGGGTCTGTCGACCGTTTCTGCGGACGATTCAGCTAGTACTTCAAA
GCAAGGACGAGACCTTGATTCCCACCGAAACAATGGCAATATTGCGTGAG
TTCAACGAGAAGGTGTGGAATCGGAACGAGGTAGACGCACTGGCAGCCAA
CTATGTGGTGCAACACCATCCGAGTCAACCACTCGCGCTGGACCAAGACA
GTAACTTTCAAGGCAAAGGTCTCGAAAGCTTGATACGAGATTTCGAGAAA
CTAAGCACGGATGGTTAGTCTTTCTGTGCAATTGGCAAGGATACCGTCAG
TATGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAAGAAGTAGCGGCG
GCGGATGTCAATCAGCAGTGGTCACCGTACCCATTTACCCACCCTATTCA
CAAGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAAACCTATTGATCA
TTGTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGTGGACAGGTTGAC
CTCTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAGACTTCTAAGCCT
CGAAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCAACAGGACCCCCC
ACAACCTATGTTTTCACACCTTTCATACGACTTTGGAAAGCCGTGGGACC
GGCGCATGGAAATGTCTACCGCCAAACGGCTTCTGCGGGAGGTGGAACGC
CTGTGGCATTGTGATAAGATGAAAATCACAATACCCACCATGCAGTCAGC
CCTTCTCTTAGGGTTGTTCTTCTGCGCTACAGGGAAAGACAAGATCGGAG
TAGAGTATATTCAATATGGCGCACGAATGGGATTGCAGCTGGGCCTGCAC
AAGTCGTCGTTTGGGACAGTCCAAACCGATCTAGCAGAGGCACCTCGCAT
TAGACGAGCTCATAAGCTCATAGCTAGTGCAGTCTATGAGGTGCAGACGC
TGTGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGCTGCCTG
GTCAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGTGAGCTG
CATTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCTTCCTGC
TGTGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAGCCAGTC
TGCTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTGGAGAGG
ATGCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCTGGTGAA
CCGAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGTCAATTG
TTGATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTCTGGGAT
AACCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGATTTCCA
GCATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCATTCTTT
TCTATGCGTGTATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAACCCGCC
AGTCTTGGCCCACCAGAGGCTGCAATCGCCGGGCGAGCCGACGGGAAGGT
TCTGATTCCCCGGGATCGATCGAGGATCGTACCGGCTAGCACACAGATAC
GTACTCCTCGTGCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAATGCAAT
GGGGGGAAACCGACATGTACCCAGTGCGAGAGGTTCGGGATCGAATGCAG
GTACTCAGAGCAGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACATGTTGC
GGACAGCTATCAAGCGGCACGAGCGGATGCTGCAACTTATGTCGCGCCGC
CCGTCCGGCGCTGCACTTTCCACCCGTGGGGAGGGTCCATATCATGTATT
ACCACATGACAGTAGTCAACCTCTGCGGGCTTTTTATATCCCGTAATAGC
ACTGGACCGACGGAGGCGCTAATGCAATCCACCAAATTCGATCCTCAAAG
GATACTGGGCGAAGCGATGGACTCGATCGCCACTTTAATATTGCTCTATC
GGGTATGCCATGGTTGGAAGTCCACCCCGGTGGTGATGGTTCACTACTTT
ATGGTGGCCGGTGTACACGCGGCCTCGCACCTGGAGTCGTCAAAGTGGCG
CGAAGTGTTGATCAGCTGTGTCTCTGGTCTCTGGCATATGGGCCTAGTTT
GGAGGGTCTGTCGACCGTTTCTGCGGACGATTCAGCTAGTACTTCAAAGC
AAGGACGAGACCTTGATTCCCACCGAAACAATGGCAATATTGCGTGAGTT
CAACGAGAAGGTGTGGAATCGGAACGAGGTAGACGCACTGGCAGCCAACT
ATGTGGTGCAACACCATCCGAGTCAACCACTCGCGCTGGACCAAGACAGT
AACTTTCAAGGCAAAGGTCTCGAAAGCTTGATACGAGATTTCGAGAAACT
AAGCACGGATGGTTAGTCTTTCTGTGCAATTGGCAAGGATACCGTCAGTA
TGGTCGGGACCATCGGAGCTTGCCTTTGCTGAAGAAGAAGTAGCGGCGGC
GGATGTCAATCAGCAGTGGTCACCGTACCCATTTACCCACCCTATTCACA
AGCCTTTCTTTTATACGGCGTTATGGTGCAGAAGAAACCTATTGATCATT
GTTAATGATGTGGCGGATTTGCAGCGGCGTCTCGGTGGACAGGTTGACCT
CTCTGGATGGCAGCATGGTGCTGTATTGTATCAGAGACTTCTAAGCCTCG
AAAGGAACATTCCTACCGTCCTAGGGGTACAGCGCAACAGGACCCCCCAC
AACCTATGTTTTCACACCTTTCATACGACTTTGGAAAGCCGTGGGACCGG
CGCATGGAAATGTCTACCGCCAAACGGCTTCTGCGGGAGGTGGAACGCCT
GTGGCATTGTGATAAGATGAAAATCACAATACCCACCATGCAGTCAGCCC
TTCTCTTAGGGTTGTTCTTCTGCGCTACAGGGAAAGACAAGATCGGAGTA
GAGTATATTCAATATGGCGCACGAATGGGATTGCAGCTGGGCCTGCACAA
GTCGTCGTTTGGGACAGTCCAAACCGATCTAGCAGAGGCACCTCGCATTA
GACGAGCTCATAAGCTCATAGCTAGTGCAGTCTATGAGGTGCAGACGCTG
TGGCTATACCACAGACAGAGGCGCTAGCTACCCAGCAAACGCTGCCTGGT
CAACTGGACCGCACGATAGAGCTTCTCCAGACCCAGCTACGTGAGCTGCA
TTATGTGTATCAGAATGTTCACGATTGTGACCCCACAGTCCTTCCTGCTG
TGGTGGACACAATCCGTAGGAGTTCCTCGGTGCATGAGGCAGCCAGTCTG
CTGAGTCGGCAGATGTCGTCACAATTCCCGGGTATAACTCTGGAGAGGAT
GCAGAGGTCGTGGCTGACACGGCTATCGGGAAAGCCGGAGCTGGTGAACC
GAAACCCCCCCTATAGCGTGAATGCTGCAGAACGTTGGACGTCAATTGTT
GATGATGCGGCCACTTCGCATCTCTTCTCTTTATTCTTCGTCTGGGATAA
CCCAATTTGGCATATCGTTGATCCAGTGTCGTTCCTGGATGATTTCCAGC
ATGGAGGGACACACTTCTGCTCGTCACTCTTGGTCCATACCATTCTTTTC
TATGCGTGTATGTCTGCGCGGAAGGTCCCTCCGCCCAGCCAACCCGCCAG
TCTTGGCCCACCAGAGGCTGCAATCGCCGGGCGAGCCGACGGGAAGGTTC
TGATTCCCCGGGATCGATCGAGGATCGTACCGGCTAGCACACAGATACGT
ACTCCTCGTGCTTGTGATCCTTGTCGGCAGCGCAAGGCCAAATGCAATGG
GGGGAAACCGACATGTACCCAGTGCGAGAGGTTCGGGATCGAATGCAGGT
ACTCAGAGCAGAAGCGGGCCCAAGAGAAAAGAGAGCTTGACATGTTGCGG
ACAGCTATCAAGCGGCACGAGCGGATGCTGCAACTTATGTCGCGCCGCCC
GTCCGGCGCTGCACTTTCCACCCGTGGGGAGGGTCCATAT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
| GO:0008270 | zinc ion binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006355 | regulation of transcription, DNA-templated |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR036864 |
| DBxref | InterPro:IPR001138 |
| DBxref | PFAM:PF00172 |
| Product | Fungal Zn(2)-Cys(6) binuclear cluster domain family protein |
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 |
|---|
| NKJJ01000008.1 | supercontig | NKJJ01000008.1:349823..352171 - |
|
