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Sequences
The following sequences are available for this feature:
mRNA from alignment at An09:74897..77272- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_005902-T1 ID=CBS51388_005902-T1|Name=CBS51388_005902-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2376bp|location=Sequence derived from alignment at An09:74897..77272- (Aspergillus niger CBS 513.88)
ATGTACATTTATACACCAGATAATTTGCTCACTCAAAATATTGCCAGGTG
CGATGAATGCCGCCGCTTGAAGGAAAAATGCGAAGGAGGCATCCCCTGTC
GTCGATGCGCCCACTTCCGGCGTCCCTGTGAATCCAAAGCCCTCGCGTCG
CGCGCCCGAGATTTTCGCGTTTACGTCCCCAGGCGAGTTCTCTCTGCCAT
GTGGGCACAACGGCAAACTAACCCTTCACTGCAGAACACGGCCAGCCAAG
TCGGAGGTACAAGAGTTGCTGGACCGATGCAGATACATGGAACAGATCTT
GAAGCACACGATTGAGGGCATCGCGCTAGACACCAAGAGCCTCGCCCGTC
TGGCAAACTCCTTCACTACCGGCAAAAGCTCAGATCATCCAGAAGTGATC
AGCCCGGCTGGAATGGCTCTGGAGGAAGAGGATTGTACTATCGACCCGGT
GGGTGACACCACTACGCGTGCGTCTTGCTCTTGCCGTACCCATGTTGGAA
TGATTACTGAGCCATCGTAGACTTCTCCGGAGAATTCTCCTACTGGAACT
TTTCCATGCGCATCAAGCAGCGCATCCAGAGTCGCAGGCGGACCAAGAGC
CCCGACCGTGTTTCAGGATACTGGCGGGCTCAACACCTCAAGACCAATGA
GCATTTATCGGCCGCCCTGGCATGTTTTCCTCCTCGTCCAATAACTGGCT
TCCTTGTCAAGACTTTTCTCAAATATGCCGCGACACATTGGTTTCTCGTG
GAAGAGGATTGGCTATTGGATCGCGCGCACCGACTGTACACCGACCCCGC
GAGCCTTGGGGATACGGCTGCTGCGGTCGCTAGTATTCTTCTCTCTGTGC
TGGCCATCGGAACTCAGTACGCCCATTTGGAGTCTCCTAGCGACCGAGAT
CCCAAAAACCAGACGCCGTCCTTCTCCGAAGAAGATGTCGGGGTGCGATT
CTACGAACAGTCCATCCGACTACTCCCGGAAATAATCGAGCTGTCCTGCT
TGGAGAGTGTACAAGCATGTCTGCTACTTGGATTTTATGCCCTTCCGGTC
GATGCCTCTGGGCTTGGCTATATCTACATAAACTTGGCAGTGCGTCTAGC
TATGCAAAACGGCATGCATCGCAAATGCCGTCGGGACGCGTTCAGTCCGG
TGATGATGGAGACGCGGAACCGCGTCTGGTGGACGGCGTATTCCCTGGAA
AGGTAGGCCGTCTGGACCACTGCTGTGACGCTCGCTAATACTAAATAGAT
TGATTTCGATCTTTCACGGACGACCCTTGTCCGTGCATCGTGCGGATGTG
GATGCAGACCTTCCCCATGCTCGCGGAGATATGGGCCAGGCACAGTCCAC
CTGGAGTTCGCAATGTGCAGTCATCTCAATCCGGATGCTGGACTGGCTGG
AGGAATTCCTCCATGACATGTCAGACACCATTCCTCTTCGTAGTGACTTT
GATGCTGACTATCGTACAGATCCCGTCTCAGGCACGCTCAACCCGCCGGA
CTGCCCGTCGTCATAGGCCAGCTAATAGCTCGCAAGGAGTCCTGGGACCG
CTGGTGGGCAGGCCAGTCTGACGCGCTTGTCAACTCAATTCAGCCGGGAC
ACCAGCCGAATCGCGCCGTCATGCACCTGTGTCTGGAATCATGTCTGTTG
CGCATGTTTATCGGCCGCCCGTTCCTCCTCCGCAAGGACACTCCTAGCCA
TCCGAATGCAAATCCCCAATCATCTTCGGAGGAAACGTACTTCCAGCCTT
CCGACCGCGACAGTCTTATCGGCGACTGCATCCAGGCTGCCCAGGAGGCG
CTGGGTATCTGTCGCCAGCTCCGCGATCACGGGCCGGGACTGGCACGAGC
GTCCTACCTGGAGTATAGCGCGTGTCGGGCCGCCTTACTGGTTCTGATCG
CTTTCTCCGTACAGAATCTATCGGATGCCTTGCGACAGCCCATGCGCGAG
GGACTTGTCTTGCTCCGGGAGATGTCAGCAGCAGGTGATTCTGCACGGTC
GGAAGTATCTCTGCTCGAGGCACTGGAAAGATCCCTGGCGCGTCTTCATA
CAGTAGCCCAACGACCCGAACCCGCGGCAGAATCGACTGGACTGGTGTCC
GACTACGAAGCCTTTCGCAACTGGGGCACAACATGCAAAAAGCCTGCATC
CGAGGCAGCCCCACCGCACCCAGACACGGTCGAGCCATGGACGGTTCCGC
TGGATGGGATGGAGCAGCTTCCCCCGTATGATCCCGCTCTGGATCTCTCC
ATCTTTGGTGGTGCCAATCTATCCCCTTCCGCGACCTGGCCCACCCGCAC
CGAGACGCAGGTGCTGGAAGAGTTCCTGGCCGGATCGAGCCTGGATCCGA
TCTGGACTCATGTTGATCTTCCATGA back to topCoding sequence (CDS) from alignment at An09:74897..77272- >CBS51388_005902-T1 ID=CBS51388_005902-T1|Name=CBS51388_005902-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=10860bp|location=Sequence derived from alignment at An09:74897..77272- (Aspergillus niger CBS 513.88)
ATCCCGTCTCAGGCACGCTCAACCCGCCGGACTGCCCGTCGTCATAGGCC
AGCTAATAGCTCGCAAGGAGTCCTGGGACCGCTGGTGGGCAGGCCAGTCT
GACGCGCTTGTCAACTCAATTCAGCCGGGACACCAGCCGAATCGCGCCGT
CATGCACCTGTGTCTGGAATCATGTCTGTTGCGCATGTTTATCGGCCGCC
CGTTCCTCCTCCGCAAGGACACTCCTAGCCATCCGAATGCAAATCCCCAA
TCATCTTCGGAGGAAACGTACTTCCAGCCTTCCGACCGCGACAGTCTTAT
CGGCGACTGCATCCAGGCTGCCCAGGAGGCGCTGGGTATCTGTCGCCAGC
TCCGCGATCACGGGCCGGGACTGGCACGAGCGTCCTACCTGGAGTATAGC
GCGTGTCGGGCCGCCTTACTGGTTCTGATCGCTTTCTCCGTACAGAATCT
ATCGGATGCCTTGCGACAGCCCATGCGCGAGGGACTTGTCTTGCTCCGGG
AGATGTCAGCAGCAGGTGATTCTGCACGGTCGGAAGTATCTCTGCTCGAG
GCACTGGAAAGATCCCTGGCGCGTCTTCATACAGTAGCCCAACGACCCGA
ACCCGCGGCAGAATCGACTGGACTGGTGTCCGACTACGAAGCCTTTCGCA
ACTGGGGCACAACATGCAAAAAGCCTGCATCCGAGGCAGCCCCACCGCAC
CCAGACACGGTCGAGCCATGGACGGTTCCGCTGGATGGGATGGAGCAGCT
TCCCCCGTATGATCCCGCTCTGGATCTCTCCATCTTTGGTGGTGCCAATC
TATCCCCTTCCGCGACCTGGCCCACCCGCACCGAGACGCAGGTGCTGGAA
GAGTTCCTGGCCGGATCGAGCCTGGATCCGATCTGGACTCATGTTGATCT
TCCATGAATTGATTTCGATCTTTCACGGACGACCCTTGTCCGTGCATCGT
GCGGATGTGGATGCAGACCTTCCCCATGCTCGCGGAGATATGGGCCAGGC
ACAGTCCACCTGGAGTTCGCAATGTGCAGTCATCTCAATCCGGATGCTGG
ACTGGCTGGAGGAATTCCTCCATGACATACTTCTCCGGAGAATTCTCCTA
CTGGAACTTTTCCATGCGCATCAAGCAGCGCATCCAGAGTCGCAGGCGGA
CCAAGAGCCCCGACCGTGTTTCAGGATACTGGCGGGCTCAACACCTCAAG
ACCAATGAGCATTTATCGGCCGCCCTGGCATGTTTTCCTCCTCGTCCAAT
AACTGGCTTCCTTGTCAAGACTTTTCTCAAATATGCCGCGACACATTGGT
TTCTCGTGGAAGAGGATTGGCTATTGGATCGCGCGCACCGACTGTACACC
GACCCCGCGAGCCTTGGGGATACGGCTGCTGCGGTCGCTAGTATTCTTCT
CTCTGTGCTGGCCATCGGAACTCAGTACGCCCATTTGGAGTCTCCTAGCG
ACCGAGATCCCAAAAACCAGACGCCGTCCTTCTCCGAAGAAGATGTCGGG
GTGCGATTCTACGAACAGTCCATCCGACTACTCCCGGAAATAATCGAGCT
GTCCTGCTTGGAGAGTGTACAAGCATGTCTGCTACTTGGATTTTATGCCC
TTCCGGTCGATGCCTCTGGGCTTGGCTATATCTACATAAACTTGGCAGTG
CGTCTAGCTATGCAAAACGGCATGCATCGCAAATGCCGTCGGGACGCGTT
CAGTCCGGTGATGATGGAGACGCGGAACCGCGTCTGGTGGACGGCGTATT
CCCTGGAAAGGCGAGTTCTCTCTGCCATGTGGGCACAACGGCAAACTAAC
CCTTCACTGCAGAACACGGCCAGCCAAGTCGGAGGTACAAGAGTTGCTGG
ACCGATGCAGATACATGGAACAGATCTTGAAGCACACGATTGAGGGCATC
GCGCTAGACACCAAGAGCCTCGCCCGTCTGGCAAACTCCTTCACTACCGG
CAAAAGCTCAGATCATCCAGAAGTGATCAGCCCGGCTGGAATGGCTCTGG
AGGAAGAGGATTGTACTATCGACCCGGTGGGTGACACCACTACGCATGTA
CATTTATACACCAGATAATTTGCTCACTCAAAATATTGCCAGGTGCGATG
AATGCCGCCGCTTGAAGGAAAAATGCGAAGGAGGCATCCCCTGTCGTCGA
TGCGCCCACTTCCGGCGTCCCTATCCCGTCTCAGGCACGCTCAACCCGCC
GGACTGCCCGTCGTCATAGGCCAGCTAATAGCTCGCAAGGAGTCCTGGGA
CCGCTGGTGGGCAGGCCAGTCTGACGCGCTTGTCAACTCAATTCAGCCGG
GACACCAGCCGAATCGCGCCGTCATGCACCTGTGTCTGGAATCATGTCTG
TTGCGCATGTTTATCGGCCGCCCGTTCCTCCTCCGCAAGGACACTCCTAG
CCATCCGAATGCAAATCCCCAATCATCTTCGGAGGAAACGTACTTCCAGC
CTTCCGACCGCGACAGTCTTATCGGCGACTGCATCCAGGCTGCCCAGGAG
GCGCTGGGTATCTGTCGCCAGCTCCGCGATCACGGGCCGGGACTGGCACG
AGCGTCCTACCTGGAGTATAGCGCGTGTCGGGCCGCCTTACTGGTTCTGA
TCGCTTTCTCCGTACAGAATCTATCGGATGCCTTGCGACAGCCCATGCGC
GAGGGACTTGTCTTGCTCCGGGAGATGTCAGCAGCAGGTGATTCTGCACG
GTCGGAAGTATCTCTGCTCGAGGCACTGGAAAGATCCCTGGCGCGTCTTC
ATACAGTAGCCCAACGACCCGAACCCGCGGCAGAATCGACTGGACTGGTG
TCCGACTACGAAGCCTTTCGCAACTGGGGCACAACATGCAAAAAGCCTGC
ATCCGAGGCAGCCCCACCGCACCCAGACACGGTCGAGCCATGGACGGTTC
CGCTGGATGGGATGGAGCAGCTTCCCCCGTATGATCCCGCTCTGGATCTC
TCCATCTTTGGTGGTGCCAATCTATCCCCTTCCGCGACCTGGCCCACCCG
CACCGAGACGCAGGTGCTGGAAGAGTTCCTGGCCGGATCGAGCCTGGATC
CGATCTGGACTCATGTTGATCTTCCATGAATTGATTTCGATCTTTCACGG
ACGACCCTTGTCCGTGCATCGTGCGGATGTGGATGCAGACCTTCCCCATG
CTCGCGGAGATATGGGCCAGGCACAGTCCACCTGGAGTTCGCAATGTGCA
GTCATCTCAATCCGGATGCTGGACTGGCTGGAGGAATTCCTCCATGACAT
ACTTCTCCGGAGAATTCTCCTACTGGAACTTTTCCATGCGCATCAAGCAG
CGCATCCAGAGTCGCAGGCGGACCAAGAGCCCCGACCGTGTTTCAGGATA
CTGGCGGGCTCAACACCTCAAGACCAATGAGCATTTATCGGCCGCCCTGG
CATGTTTTCCTCCTCGTCCAATAACTGGCTTCCTTGTCAAGACTTTTCTC
AAATATGCCGCGACACATTGGTTTCTCGTGGAAGAGGATTGGCTATTGGA
TCGCGCGCACCGACTGTACACCGACCCCGCGAGCCTTGGGGATACGGCTG
CTGCGGTCGCTAGTATTCTTCTCTCTGTGCTGGCCATCGGAACTCAGTAC
GCCCATTTGGAGTCTCCTAGCGACCGAGATCCCAAAAACCAGACGCCGTC
CTTCTCCGAAGAAGATGTCGGGGTGCGATTCTACGAACAGTCCATCCGAC
TACTCCCGGAAATAATCGAGCTGTCCTGCTTGGAGAGTGTACAAGCATGT
CTGCTACTTGGATTTTATGCCCTTCCGGTCGATGCCTCTGGGCTTGGCTA
TATCTACATAAACTTGGCAGTGCGTCTAGCTATGCAAAACGGCATGCATC
GCAAATGCCGTCGGGACGCGTTCAGTCCGGTGATGATGGAGACGCGGAAC
CGCGTCTGGTGGACGGCGTATTCCCTGGAAAGGCGAGTTCTCTCTGCCAT
GTGGGCACAACGGCAAACTAACCCTTCACTGCAGAACACGGCCAGCCAAG
TCGGAGGTACAAGAGTTGCTGGACCGATGCAGATACATGGAACAGATCTT
GAAGCACACGATTGAGGGCATCGCGCTAGACACCAAGAGCCTCGCCCGTC
TGGCAAACTCCTTCACTACCGGCAAAAGCTCAGATCATCCAGAAGTGATC
AGCCCGGCTGGAATGGCTCTGGAGGAAGAGGATTGTACTATCGACCCGGT
GGGTGACACCACTACGCATGTACATTTATACACCAGATAATTTGCTCACT
CAAAATATTGCCAGGTGCGATGAATGCCGCCGCTTGAAGGAAAAATGCGA
AGGAGGCATCCCCTGTCGTCGATGCGCCCACTTCCGGCGTCCCTATCCCG
TCTCAGGCACGCTCAACCCGCCGGACTGCCCGTCGTCATAGGCCAGCTAA
TAGCTCGCAAGGAGTCCTGGGACCGCTGGTGGGCAGGCCAGTCTGACGCG
CTTGTCAACTCAATTCAGCCGGGACACCAGCCGAATCGCGCCGTCATGCA
CCTGTGTCTGGAATCATGTCTGTTGCGCATGTTTATCGGCCGCCCGTTCC
TCCTCCGCAAGGACACTCCTAGCCATCCGAATGCAAATCCCCAATCATCT
TCGGAGGAAACGTACTTCCAGCCTTCCGACCGCGACAGTCTTATCGGCGA
CTGCATCCAGGCTGCCCAGGAGGCGCTGGGTATCTGTCGCCAGCTCCGCG
ATCACGGGCCGGGACTGGCACGAGCGTCCTACCTGGAGTATAGCGCGTGT
CGGGCCGCCTTACTGGTTCTGATCGCTTTCTCCGTACAGAATCTATCGGA
TGCCTTGCGACAGCCCATGCGCGAGGGACTTGTCTTGCTCCGGGAGATGT
CAGCAGCAGGTGATTCTGCACGGTCGGAAGTATCTCTGCTCGAGGCACTG
GAAAGATCCCTGGCGCGTCTTCATACAGTAGCCCAACGACCCGAACCCGC
GGCAGAATCGACTGGACTGGTGTCCGACTACGAAGCCTTTCGCAACTGGG
GCACAACATGCAAAAAGCCTGCATCCGAGGCAGCCCCACCGCACCCAGAC
ACGGTCGAGCCATGGACGGTTCCGCTGGATGGGATGGAGCAGCTTCCCCC
GTATGATCCCGCTCTGGATCTCTCCATCTTTGGTGGTGCCAATCTATCCC
CTTCCGCGACCTGGCCCACCCGCACCGAGACGCAGGTGCTGGAAGAGTTC
CTGGCCGGATCGAGCCTGGATCCGATCTGGACTCATGTTGATCTTCCATG
AATTGATTTCGATCTTTCACGGACGACCCTTGTCCGTGCATCGTGCGGAT
GTGGATGCAGACCTTCCCCATGCTCGCGGAGATATGGGCCAGGCACAGTC
CACCTGGAGTTCGCAATGTGCAGTCATCTCAATCCGGATGCTGGACTGGC
TGGAGGAATTCCTCCATGACATACTTCTCCGGAGAATTCTCCTACTGGAA
CTTTTCCATGCGCATCAAGCAGCGCATCCAGAGTCGCAGGCGGACCAAGA
GCCCCGACCGTGTTTCAGGATACTGGCGGGCTCAACACCTCAAGACCAAT
GAGCATTTATCGGCCGCCCTGGCATGTTTTCCTCCTCGTCCAATAACTGG
CTTCCTTGTCAAGACTTTTCTCAAATATGCCGCGACACATTGGTTTCTCG
TGGAAGAGGATTGGCTATTGGATCGCGCGCACCGACTGTACACCGACCCC
GCGAGCCTTGGGGATACGGCTGCTGCGGTCGCTAGTATTCTTCTCTCTGT
GCTGGCCATCGGAACTCAGTACGCCCATTTGGAGTCTCCTAGCGACCGAG
ATCCCAAAAACCAGACGCCGTCCTTCTCCGAAGAAGATGTCGGGGTGCGA
TTCTACGAACAGTCCATCCGACTACTCCCGGAAATAATCGAGCTGTCCTG
CTTGGAGAGTGTACAAGCATGTCTGCTACTTGGATTTTATGCCCTTCCGG
TCGATGCCTCTGGGCTTGGCTATATCTACATAAACTTGGCAGTGCGTCTA
GCTATGCAAAACGGCATGCATCGCAAATGCCGTCGGGACGCGTTCAGTCC
GGTGATGATGGAGACGCGGAACCGCGTCTGGTGGACGGCGTATTCCCTGG
AAAGGCGAGTTCTCTCTGCCATGTGGGCACAACGGCAAACTAACCCTTCA
CTGCAGAACACGGCCAGCCAAGTCGGAGGTACAAGAGTTGCTGGACCGAT
GCAGATACATGGAACAGATCTTGAAGCACACGATTGAGGGCATCGCGCTA
GACACCAAGAGCCTCGCCCGTCTGGCAAACTCCTTCACTACCGGCAAAAG
CTCAGATCATCCAGAAGTGATCAGCCCGGCTGGAATGGCTCTGGAGGAAG
AGGATTGTACTATCGACCCGGTGGGTGACACCACTACGCATGTACATTTA
TACACCAGATAATTTGCTCACTCAAAATATTGCCAGGTGCGATGAATGCC
GCCGCTTGAAGGAAAAATGCGAAGGAGGCATCCCCTGTCGTCGATGCGCC
CACTTCCGGCGTCCCTATCCCGTCTCAGGCACGCTCAACCCGCCGGACTG
CCCGTCGTCATAGGCCAGCTAATAGCTCGCAAGGAGTCCTGGGACCGCTG
GTGGGCAGGCCAGTCTGACGCGCTTGTCAACTCAATTCAGCCGGGACACC
AGCCGAATCGCGCCGTCATGCACCTGTGTCTGGAATCATGTCTGTTGCGC
ATGTTTATCGGCCGCCCGTTCCTCCTCCGCAAGGACACTCCTAGCCATCC
GAATGCAAATCCCCAATCATCTTCGGAGGAAACGTACTTCCAGCCTTCCG
ACCGCGACAGTCTTATCGGCGACTGCATCCAGGCTGCCCAGGAGGCGCTG
GGTATCTGTCGCCAGCTCCGCGATCACGGGCCGGGACTGGCACGAGCGTC
CTACCTGGAGTATAGCGCGTGTCGGGCCGCCTTACTGGTTCTGATCGCTT
TCTCCGTACAGAATCTATCGGATGCCTTGCGACAGCCCATGCGCGAGGGA
CTTGTCTTGCTCCGGGAGATGTCAGCAGCAGGTGATTCTGCACGGTCGGA
AGTATCTCTGCTCGAGGCACTGGAAAGATCCCTGGCGCGTCTTCATACAG
TAGCCCAACGACCCGAACCCGCGGCAGAATCGACTGGACTGGTGTCCGAC
TACGAAGCCTTTCGCAACTGGGGCACAACATGCAAAAAGCCTGCATCCGA
GGCAGCCCCACCGCACCCAGACACGGTCGAGCCATGGACGGTTCCGCTGG
ATGGGATGGAGCAGCTTCCCCCGTATGATCCCGCTCTGGATCTCTCCATC
TTTGGTGGTGCCAATCTATCCCCTTCCGCGACCTGGCCCACCCGCACCGA
GACGCAGGTGCTGGAAGAGTTCCTGGCCGGATCGAGCCTGGATCCGATCT
GGACTCATGTTGATCTTCCATGAATTGATTTCGATCTTTCACGGACGACC
CTTGTCCGTGCATCGTGCGGATGTGGATGCAGACCTTCCCCATGCTCGCG
GAGATATGGGCCAGGCACAGTCCACCTGGAGTTCGCAATGTGCAGTCATC
TCAATCCGGATGCTGGACTGGCTGGAGGAATTCCTCCATGACATACTTCT
CCGGAGAATTCTCCTACTGGAACTTTTCCATGCGCATCAAGCAGCGCATC
CAGAGTCGCAGGCGGACCAAGAGCCCCGACCGTGTTTCAGGATACTGGCG
GGCTCAACACCTCAAGACCAATGAGCATTTATCGGCCGCCCTGGCATGTT
TTCCTCCTCGTCCAATAACTGGCTTCCTTGTCAAGACTTTTCTCAAATAT
GCCGCGACACATTGGTTTCTCGTGGAAGAGGATTGGCTATTGGATCGCGC
GCACCGACTGTACACCGACCCCGCGAGCCTTGGGGATACGGCTGCTGCGG
TCGCTAGTATTCTTCTCTCTGTGCTGGCCATCGGAACTCAGTACGCCCAT
TTGGAGTCTCCTAGCGACCGAGATCCCAAAAACCAGACGCCGTCCTTCTC
CGAAGAAGATGTCGGGGTGCGATTCTACGAACAGTCCATCCGACTACTCC
CGGAAATAATCGAGCTGTCCTGCTTGGAGAGTGTACAAGCATGTCTGCTA
CTTGGATTTTATGCCCTTCCGGTCGATGCCTCTGGGCTTGGCTATATCTA
CATAAACTTGGCAGTGCGTCTAGCTATGCAAAACGGCATGCATCGCAAAT
GCCGTCGGGACGCGTTCAGTCCGGTGATGATGGAGACGCGGAACCGCGTC
TGGTGGACGGCGTATTCCCTGGAAAGGCGAGTTCTCTCTGCCATGTGGGC
ACAACGGCAAACTAACCCTTCACTGCAGAACACGGCCAGCCAAGTCGGAG
GTACAAGAGTTGCTGGACCGATGCAGATACATGGAACAGATCTTGAAGCA
CACGATTGAGGGCATCGCGCTAGACACCAAGAGCCTCGCCCGTCTGGCAA
ACTCCTTCACTACCGGCAAAAGCTCAGATCATCCAGAAGTGATCAGCCCG
GCTGGAATGGCTCTGGAGGAAGAGGATTGTACTATCGACCCGGTGGGTGA
CACCACTACGCATGTACATTTATACACCAGATAATTTGCTCACTCAAAAT
ATTGCCAGGTGCGATGAATGCCGCCGCTTGAAGGAAAAATGCGAAGGAGG
CATCCCCTGTCGTCGATGCGCCCACTTCCGGCGTCCCTATCCCGTCTCAG
GCACGCTCAACCCGCCGGACTGCCCGTCGTCATAGGCCAGCTAATAGCTC
GCAAGGAGTCCTGGGACCGCTGGTGGGCAGGCCAGTCTGACGCGCTTGTC
AACTCAATTCAGCCGGGACACCAGCCGAATCGCGCCGTCATGCACCTGTG
TCTGGAATCATGTCTGTTGCGCATGTTTATCGGCCGCCCGTTCCTCCTCC
GCAAGGACACTCCTAGCCATCCGAATGCAAATCCCCAATCATCTTCGGAG
GAAACGTACTTCCAGCCTTCCGACCGCGACAGTCTTATCGGCGACTGCAT
CCAGGCTGCCCAGGAGGCGCTGGGTATCTGTCGCCAGCTCCGCGATCACG
GGCCGGGACTGGCACGAGCGTCCTACCTGGAGTATAGCGCGTGTCGGGCC
GCCTTACTGGTTCTGATCGCTTTCTCCGTACAGAATCTATCGGATGCCTT
GCGACAGCCCATGCGCGAGGGACTTGTCTTGCTCCGGGAGATGTCAGCAG
CAGGTGATTCTGCACGGTCGGAAGTATCTCTGCTCGAGGCACTGGAAAGA
TCCCTGGCGCGTCTTCATACAGTAGCCCAACGACCCGAACCCGCGGCAGA
ATCGACTGGACTGGTGTCCGACTACGAAGCCTTTCGCAACTGGGGCACAA
CATGCAAAAAGCCTGCATCCGAGGCAGCCCCACCGCACCCAGACACGGTC
GAGCCATGGACGGTTCCGCTGGATGGGATGGAGCAGCTTCCCCCGTATGA
TCCCGCTCTGGATCTCTCCATCTTTGGTGGTGCCAATCTATCCCCTTCCG
CGACCTGGCCCACCCGCACCGAGACGCAGGTGCTGGAAGAGTTCCTGGCC
GGATCGAGCCTGGATCCGATCTGGACTCATGTTGATCTTCCATGAATTGA
TTTCGATCTTTCACGGACGACCCTTGTCCGTGCATCGTGCGGATGTGGAT
GCAGACCTTCCCCATGCTCGCGGAGATATGGGCCAGGCACAGTCCACCTG
GAGTTCGCAATGTGCAGTCATCTCAATCCGGATGCTGGACTGGCTGGAGG
AATTCCTCCATGACATACTTCTCCGGAGAATTCTCCTACTGGAACTTTTC
CATGCGCATCAAGCAGCGCATCCAGAGTCGCAGGCGGACCAAGAGCCCCG
ACCGTGTTTCAGGATACTGGCGGGCTCAACACCTCAAGACCAATGAGCAT
TTATCGGCCGCCCTGGCATGTTTTCCTCCTCGTCCAATAACTGGCTTCCT
TGTCAAGACTTTTCTCAAATATGCCGCGACACATTGGTTTCTCGTGGAAG
AGGATTGGCTATTGGATCGCGCGCACCGACTGTACACCGACCCCGCGAGC
CTTGGGGATACGGCTGCTGCGGTCGCTAGTATTCTTCTCTCTGTGCTGGC
CATCGGAACTCAGTACGCCCATTTGGAGTCTCCTAGCGACCGAGATCCCA
AAAACCAGACGCCGTCCTTCTCCGAAGAAGATGTCGGGGTGCGATTCTAC
GAACAGTCCATCCGACTACTCCCGGAAATAATCGAGCTGTCCTGCTTGGA
GAGTGTACAAGCATGTCTGCTACTTGGATTTTATGCCCTTCCGGTCGATG
CCTCTGGGCTTGGCTATATCTACATAAACTTGGCAGTGCGTCTAGCTATG
CAAAACGGCATGCATCGCAAATGCCGTCGGGACGCGTTCAGTCCGGTGAT
GATGGAGACGCGGAACCGCGTCTGGTGGACGGCGTATTCCCTGGAAAGGC
GAGTTCTCTCTGCCATGTGGGCACAACGGCAAACTAACCCTTCACTGCAG
AACACGGCCAGCCAAGTCGGAGGTACAAGAGTTGCTGGACCGATGCAGAT
ACATGGAACAGATCTTGAAGCACACGATTGAGGGCATCGCGCTAGACACC
AAGAGCCTCGCCCGTCTGGCAAACTCCTTCACTACCGGCAAAAGCTCAGA
TCATCCAGAAGTGATCAGCCCGGCTGGAATGGCTCTGGAGGAAGAGGATT
GTACTATCGACCCGGTGGGTGACACCACTACGCATGTACATTTATACACC
AGATAATTTGCTCACTCAAAATATTGCCAGGTGCGATGAATGCCGCCGCT
TGAAGGAAAAATGCGAAGGAGGCATCCCCTGTCGTCGATGCGCCCACTTC
CGGCGTCCCT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0042025 | host cell nucleus |
| GO:0005634 | nucleus |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
| GO:0008270 | zinc ion binding |
| GO:0003677 | DNA binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006355 | regulation of transcription, DNA-templated |
| GO:0006351 | 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 | antiSMASH:Cluster_9.1 |
| DBxref | InterPro:IPR036864 |
| DBxref | InterPro:IPR001138 |
| DBxref | InterPro:IPR007219 |
| DBxref | PFAM:PF04082 |
| Product | hypothetical 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 |
|---|
| An09 | supercontig | An09:74897..77272 - |
|
