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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000011.1:2403407..2405549+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_19950-T1 ID=CAN33_19950-T1|Name=CAN33_19950-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2143bp|location=Sequence derived from alignment at NKJJ01000011.1:2403407..2405549+ (Aspergillus niger FDAARGOS_311)
ATGCCTTCTTCCTCGAGTACAGCCCGTGCAAGCACTTCCTGCCGTCGCTG
CCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCT
GTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGATCGACAAGTC
GGAACATATCCAATCGCGTAAGTTTGGTGGCAGTAACATGAGTTCATTGA
CTTATTCCAGAGTTTGAAGCTACGTCCAAGGGCTCGAATGTCGCGTCAAG
GAGCTTGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTAA
CCTCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACAC
CTCCGGACACAGACAATAGCGACACCTATCCCATAGCGACACCTCCATCT
CATAACCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTTGA
AGCAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCA
AGTTAACCCAGGCAGTCCTCCGACGGCTATCCCCCGACAAAGCCGAGTTT
GTATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTAAACCTTT
CTCAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACT
CGTTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATG
GAAGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATGT
CGAATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTATACCCTA
TCATCCGCCAGACTGAGTTCACCTCCGTAATATGGCGAGTATACAACAAT
CCACAAGACCCTCTGGCAGGGTCCCCACTATGGATGTTTCGCATCTGGAT
GGTTCTGGCCATTGGGACGACGACACACTGTTCCGTAACCCTGGGAGATG
AATCCGAGTCTGTGCTGTACTACAACAAGGCCATGGGGTATTTCGAGGAT
GCGCTTGGACTAGGCGATATGGTATGTCCACTTCCGATTAGGTAGACTGG
GACAACTGACTAACGACTCAGGCCGCGCTAGAGGTCATGATGCTGCAAGT
CTCATATTCATTCTTCAACCAAGTCGGACCAAGTACGTACCCCCGGATTC
CGATATATTCTCTACTGATTAAATAAAAGACACATTCTTCCTTGTCGGCG
TTGCCGCCCGCATGGCCATCGGGTTAGGCCTACACAGCTCCTCAAGCTAC
GCCAATCTCCCATCTGACGTGGTCGAGTACCGCAAGCGGATCTTCTTCTC
TCTATACATGATGGACAGGTACCTCTCCCATATACCCACACCCTATCCTT
TATCCACCCTAATAAGTATCAATAGAGTAGTATCCATAGCCCTAGGCCGC
CCCTTCGCCATCCACGACGCTGACATTGACGTCGAGGTAGCGCCTCCCCC
AAAGATTCATCTCCTATAAACCGATCTAATACACAACTACAGCCCTTCAC
CGACACCACCACAACAGACGACCTAACCCACACAACCAACCTCTCCATCC
CACTACACATCCTCTCCCTGCGCCGCATCGCCAGTGAAATCACGACAGCA
CTCCACTCCCCAACCAACACACACAACTCAGACCGCCAGACAACCCTCCA
AACTCTACACAAGAAGCTCCTCCACTGGCGACGTACCATGCCTTTCCCAC
TCCCACCAACCCCGTCGCCAATCCCACATCTAACCAGCGCCTGGTTCGAT
CTGAACTACTACACGCACATGACGATGCTATACCGGCCATCTCCTCTCTT
TCCGTCTCTCGACGAACAGAAAGTGAAGGTGTTAGCGACAGCTGCGGCAA
TGGCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGACGGTTCGCGTAT
AACTGGTTGAATCTGTTAGGGGTGTTTCAGAGTGCGGTGGCATTGATGTA
TGCTACGCTGGCGCGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGACTA
AGGTGGTGGAGGATTTGGGGCTGGTGGTGGAGTTGTTGAGGGTTTTTGGG
AGGAAATTTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGT
GGGGAGGTTGGGGGAGTTTTGTGAGGGGGTAGGGTTGGTGTGA back to topCoding sequence (CDS) from alignment at NKJJ01000011.1:2403407..2405549+ >CAN33_19950-T1 ID=CAN33_19950-T1|Name=CAN33_19950-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11286bp|location=Sequence derived from alignment at NKJJ01000011.1:2403407..2405549+ (Aspergillus niger FDAARGOS_311)
ATGCCTTCTTCCTCGAGTACAGCCCGTGCAAGCACTTCCTGCCGTCGCTG
CCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCT
GTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGATCGACAAGTC
GGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTCAAGGA
GCTTGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTAACC
TCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACACCT
CCGGACACAGACAATAGCGACACCTATCCCATAGCGACACCTCCATCTCA
TAACCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTTGAAG
CAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCAAG
TTAACCCAGGCAGTCCTCCGACGGCTATCCCCCGACAAAGCCGAGTTTGT
ATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTAAACCTTTCT
CAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACTCG
TTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATGGA
AGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATGTCG
AATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTATACCCTATC
ATCCGCCAGACTGAGTTCACCTCCGTAATATGGCGAGTATACAACAATCC
ACAAGACCCTCTGGCAGGGTCCCCACTATGGATGTTTCGCATCTGGATGG
TTCTGGCCATTGGGACGACGACACACTGTTCCGTAACCCTGGGAGATGAA
TCCGAGTCTGTGCTGTACTACAACAAGGCCATGGGGTATTTCGAGGATGC
GCTTGGACTAGGCGATATGGCCGCGCTAGAGGTCATGATGCTGCAAGTCT
CATATTCATTCTTCAACCAAGTCGGACCAAACACATTCTTCCTTGTCGGC
GTTGCCGCCCGCATGGCCATCGGGTTAGGCCTACACAGCTCCTCAAGCTA
CGCCAATCTCCCATCTGACGTGGTCGAGTACCGCAAGCGGATCTTCTTCT
CTCTATACATGATGGACAGAGTAGTATCCATAGCCCTAGGCCGCCCCTTC
GCCATCCACGACGCTGACATTGACGTCGAGCCCTTCACCGACACCACCAC
AACAGACGACCTAACCCACACAACCAACCTCTCCATCCCACTACACATCC
TCTCCCTGCGCCGCATCGCCAGTGAAATCACGACAGCACTCCACTCCCCA
ACCAACACACACAACTCAGACCGCCAGACAACCCTCCAAACTCTACACAA
GAAGCTCCTCCACTGGCGACGTACCATGCCTTTCCCACTCCCACCAACCC
CGTCGCCAATCCCACATCTAACCAGCGCCTGGTTCGATCTGAACTACTAC
ACGCACATGACGATGCTATACCGGCCATCTCCTCTCTTTCCGTCTCTCGA
CGAACAGAAAGTGAAGGTGTTAGCGACAGCTGCGGCAATGGCTATTCGGC
AGGCGATGAATCTGCATCGGCAGGGACGGTTCGCGTATAACTGGTTGAAT
CTGTTAGGGGTGTTTCAGAGTGCGGTGGCATTGATGTATGCTACGCTGGC
GCGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGACTAAGGTGGTGGAGG
ATTTGGGGCTGGTGGTGGAGTTGTTGAGGGTTTTTGGGAGGAAATTTGGG
GTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGGTTGGG
GGAGTTTTGTGAGGGGGTAGGGTTGGTGTGAATGCCTTCTTCCTCGAGTA
CAGCCCGTGCAAGCACTTCCTGCCGTCGCTGCCACCGACGGAAGAAGCGC
TGCGACCGTACACTTCCACAATGTGAGACCTGTATCCATGCCCAGGTAGA
ATGCAGCTTTCTTGATGATGATCGACAAGTCGGAACATATCCAATCGCCT
ACGTCCAAGGGCTCGAATGTCGCGTCAAGGAGCTTGAAAAGCAACTTTCC
GCAGCCCTAGCATCAACACCATACCCTAACCTCCAACTTGATCAGGATTT
CGACCAGCCAGTAATCAACTTCGCGACACCTCCGGACACAGACAATAGCG
ACACCTATCCCATAGCGACACCTCCATCTCATAACCGATCGGACTTTCTG
GTCGATGAGCTCAAGCGACTGTCCCTTGAAGCAGCAGCAGAGCGACATCT
TGGTTCCTCTTCAGGGCTATCCTTCGCCAAGTTAACCCAGGCAGTCCTCC
GACGGCTATCCCCCGACAAAGCCGAGTTTGTATTCGATGATACCCCAGAC
GAGTCGCCAGAGCAATACGGTAAACCTTTCTCAGACCCTCTACTCGATGC
TTCAACTTCCCTCTGGGAACTGAACAACTCGTTCTCCTCACCATGCCTCT
TCAACCAACTTCCACTGTCACACGTCATGGAAGACGAGACAACGCTGGCC
GATCTGCAATTACCCGACAGAGCACATGTCGAATACTTAATGGAGTTCTA
CTTCGCACATTCCCACACACTATACCCTATCATCCGCCAGACTGAGTTCA
CCTCCGTAATATGGCGAGTATACAACAATCCACAAGACCCTCTGGCAGGG
TCCCCACTATGGATGTTTCGCATCTGGATGGTTCTGGCCATTGGGACGAC
GACACACTGTTCCGTAACCCTGGGAGATGAATCCGAGTCTGTGCTGTACT
ACAACAAGGCCATGGGGTATTTCGAGGATGCGCTTGGACTAGGCGATATG
GCCGCGCTAGAGGTCATGATGCTGCAAGTCTCATATTCATTCTTCAACCA
AGTCGGACCAAACACATTCTTCCTTGTCGGCGTTGCCGCCCGCATGGCCA
TCGGGTTAGGCCTACACAGCTCCTCAAGCTACGCCAATCTCCCATCTGAC
GTGGTCGAGTACCGCAAGCGGATCTTCTTCTCTCTATACATGATGGACAG
AGTAGTATCCATAGCCCTAGGCCGCCCCTTCGCCATCCACGACGCTGACA
TTGACGTCGAGCCCTTCACCGACACCACCACAACAGACGACCTAACCCAC
ACAACCAACCTCTCCATCCCACTACACATCCTCTCCCTGCGCCGCATCGC
CAGTGAAATCACGACAGCACTCCACTCCCCAACCAACACACACAACTCAG
ACCGCCAGACAACCCTCCAAACTCTACACAAGAAGCTCCTCCACTGGCGA
CGTACCATGCCTTTCCCACTCCCACCAACCCCGTCGCCAATCCCACATCT
AACCAGCGCCTGGTTCGATCTGAACTACTACACGCACATGACGATGCTAT
ACCGGCCATCTCCTCTCTTTCCGTCTCTCGACGAACAGAAAGTGAAGGTG
TTAGCGACAGCTGCGGCAATGGCTATTCGGCAGGCGATGAATCTGCATCG
GCAGGGACGGTTCGCGTATAACTGGTTGAATCTGTTAGGGGTGTTTCAGA
GTGCGGTGGCATTGATGTATGCTACGCTGGCGCGGCCGGATGAGTTGGGG
GTTGTGGTTCGGGAGACTAAGGTGGTGGAGGATTTGGGGCTGGTGGTGGA
GTTGTTGAGGGTTTTTGGGAGGAAATTTGGGGTTGCGGGGAGGTTGGAGA
GGATTGTAGGGGTAGTGGTGGGGAGGTTGGGGGAGTTTTGTGAGGGGGTA
GGGTTGGTGTGAATGCCTTCTTCCTCGAGTACAGCCCGTGCAAGCACTTC
CTGCCGTCGCTGCCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCAC
AATGTGAGACCTGTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGAT
GATCGACAAGTCGGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATG
TCGCGTCAAGGAGCTTGAAAAGCAACTTTCCGCAGCCCTAGCATCAACAC
CATACCCTAACCTCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAAC
TTCGCGACACCTCCGGACACAGACAATAGCGACACCTATCCCATAGCGAC
ACCTCCATCTCATAACCGATCGGACTTTCTGGTCGATGAGCTCAAGCGAC
TGTCCCTTGAAGCAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTA
TCCTTCGCCAAGTTAACCCAGGCAGTCCTCCGACGGCTATCCCCCGACAA
AGCCGAGTTTGTATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACG
GTAAACCTTTCTCAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAA
CTGAACAACTCGTTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTC
ACACGTCATGGAAGACGAGACAACGCTGGCCGATCTGCAATTACCCGACA
GAGCACATGTCGAATACTTAATGGAGTTCTACTTCGCACATTCCCACACA
CTATACCCTATCATCCGCCAGACTGAGTTCACCTCCGTAATATGGCGAGT
ATACAACAATCCACAAGACCCTCTGGCAGGGTCCCCACTATGGATGTTTC
GCATCTGGATGGTTCTGGCCATTGGGACGACGACACACTGTTCCGTAACC
CTGGGAGATGAATCCGAGTCTGTGCTGTACTACAACAAGGCCATGGGGTA
TTTCGAGGATGCGCTTGGACTAGGCGATATGGCCGCGCTAGAGGTCATGA
TGCTGCAAGTCTCATATTCATTCTTCAACCAAGTCGGACCAAACACATTC
TTCCTTGTCGGCGTTGCCGCCCGCATGGCCATCGGGTTAGGCCTACACAG
CTCCTCAAGCTACGCCAATCTCCCATCTGACGTGGTCGAGTACCGCAAGC
GGATCTTCTTCTCTCTATACATGATGGACAGAGTAGTATCCATAGCCCTA
GGCCGCCCCTTCGCCATCCACGACGCTGACATTGACGTCGAGCCCTTCAC
CGACACCACCACAACAGACGACCTAACCCACACAACCAACCTCTCCATCC
CACTACACATCCTCTCCCTGCGCCGCATCGCCAGTGAAATCACGACAGCA
CTCCACTCCCCAACCAACACACACAACTCAGACCGCCAGACAACCCTCCA
AACTCTACACAAGAAGCTCCTCCACTGGCGACGTACCATGCCTTTCCCAC
TCCCACCAACCCCGTCGCCAATCCCACATCTAACCAGCGCCTGGTTCGAT
CTGAACTACTACACGCACATGACGATGCTATACCGGCCATCTCCTCTCTT
TCCGTCTCTCGACGAACAGAAAGTGAAGGTGTTAGCGACAGCTGCGGCAA
TGGCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGACGGTTCGCGTAT
AACTGGTTGAATCTGTTAGGGGTGTTTCAGAGTGCGGTGGCATTGATGTA
TGCTACGCTGGCGCGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGACTA
AGGTGGTGGAGGATTTGGGGCTGGTGGTGGAGTTGTTGAGGGTTTTTGGG
AGGAAATTTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGT
GGGGAGGTTGGGGGAGTTTTGTGAGGGGGTAGGGTTGGTGTGAATGCCTT
CTTCCTCGAGTACAGCCCGTGCAAGCACTTCCTGCCGTCGCTGCCACCGA
CGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCTGTATCCA
TGCCCAGGTAGAATGCAGCTTTCTTGATGATGATCGACAAGTCGGAACAT
ATCCAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTCAAGGAGCTTGAA
AAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTAACCTCCAACT
TGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACACCTCCGGACA
CAGACAATAGCGACACCTATCCCATAGCGACACCTCCATCTCATAACCGA
TCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTTGAAGCAGCAGC
AGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCAAGTTAACCC
AGGCAGTCCTCCGACGGCTATCCCCCGACAAAGCCGAGTTTGTATTCGAT
GATACCCCAGACGAGTCGCCAGAGCAATACGGTAAACCTTTCTCAGACCC
TCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACTCGTTCTCCT
CACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATGGAAGACGAG
ACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATGTCGAATACTT
AATGGAGTTCTACTTCGCACATTCCCACACACTATACCCTATCATCCGCC
AGACTGAGTTCACCTCCGTAATATGGCGAGTATACAACAATCCACAAGAC
CCTCTGGCAGGGTCCCCACTATGGATGTTTCGCATCTGGATGGTTCTGGC
CATTGGGACGACGACACACTGTTCCGTAACCCTGGGAGATGAATCCGAGT
CTGTGCTGTACTACAACAAGGCCATGGGGTATTTCGAGGATGCGCTTGGA
CTAGGCGATATGGCCGCGCTAGAGGTCATGATGCTGCAAGTCTCATATTC
ATTCTTCAACCAAGTCGGACCAAACACATTCTTCCTTGTCGGCGTTGCCG
CCCGCATGGCCATCGGGTTAGGCCTACACAGCTCCTCAAGCTACGCCAAT
CTCCCATCTGACGTGGTCGAGTACCGCAAGCGGATCTTCTTCTCTCTATA
CATGATGGACAGAGTAGTATCCATAGCCCTAGGCCGCCCCTTCGCCATCC
ACGACGCTGACATTGACGTCGAGCCCTTCACCGACACCACCACAACAGAC
GACCTAACCCACACAACCAACCTCTCCATCCCACTACACATCCTCTCCCT
GCGCCGCATCGCCAGTGAAATCACGACAGCACTCCACTCCCCAACCAACA
CACACAACTCAGACCGCCAGACAACCCTCCAAACTCTACACAAGAAGCTC
CTCCACTGGCGACGTACCATGCCTTTCCCACTCCCACCAACCCCGTCGCC
AATCCCACATCTAACCAGCGCCTGGTTCGATCTGAACTACTACACGCACA
TGACGATGCTATACCGGCCATCTCCTCTCTTTCCGTCTCTCGACGAACAG
AAAGTGAAGGTGTTAGCGACAGCTGCGGCAATGGCTATTCGGCAGGCGAT
GAATCTGCATCGGCAGGGACGGTTCGCGTATAACTGGTTGAATCTGTTAG
GGGTGTTTCAGAGTGCGGTGGCATTGATGTATGCTACGCTGGCGCGGCCG
GATGAGTTGGGGGTTGTGGTTCGGGAGACTAAGGTGGTGGAGGATTTGGG
GCTGGTGGTGGAGTTGTTGAGGGTTTTTGGGAGGAAATTTGGGGTTGCGG
GGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGGTTGGGGGAGTTT
TGTGAGGGGGTAGGGTTGGTGTGAATGCCTTCTTCCTCGAGTACAGCCCG
TGCAAGCACTTCCTGCCGTCGCTGCCACCGACGGAAGAAGCGCTGCGACC
GTACACTTCCACAATGTGAGACCTGTATCCATGCCCAGGTAGAATGCAGC
TTTCTTGATGATGATCGACAAGTCGGAACATATCCAATCGCCTACGTCCA
AGGGCTCGAATGTCGCGTCAAGGAGCTTGAAAAGCAACTTTCCGCAGCCC
TAGCATCAACACCATACCCTAACCTCCAACTTGATCAGGATTTCGACCAG
CCAGTAATCAACTTCGCGACACCTCCGGACACAGACAATAGCGACACCTA
TCCCATAGCGACACCTCCATCTCATAACCGATCGGACTTTCTGGTCGATG
AGCTCAAGCGACTGTCCCTTGAAGCAGCAGCAGAGCGACATCTTGGTTCC
TCTTCAGGGCTATCCTTCGCCAAGTTAACCCAGGCAGTCCTCCGACGGCT
ATCCCCCGACAAAGCCGAGTTTGTATTCGATGATACCCCAGACGAGTCGC
CAGAGCAATACGGTAAACCTTTCTCAGACCCTCTACTCGATGCTTCAACT
TCCCTCTGGGAACTGAACAACTCGTTCTCCTCACCATGCCTCTTCAACCA
ACTTCCACTGTCACACGTCATGGAAGACGAGACAACGCTGGCCGATCTGC
AATTACCCGACAGAGCACATGTCGAATACTTAATGGAGTTCTACTTCGCA
CATTCCCACACACTATACCCTATCATCCGCCAGACTGAGTTCACCTCCGT
AATATGGCGAGTATACAACAATCCACAAGACCCTCTGGCAGGGTCCCCAC
TATGGATGTTTCGCATCTGGATGGTTCTGGCCATTGGGACGACGACACAC
TGTTCCGTAACCCTGGGAGATGAATCCGAGTCTGTGCTGTACTACAACAA
GGCCATGGGGTATTTCGAGGATGCGCTTGGACTAGGCGATATGGCCGCGC
TAGAGGTCATGATGCTGCAAGTCTCATATTCATTCTTCAACCAAGTCGGA
CCAAACACATTCTTCCTTGTCGGCGTTGCCGCCCGCATGGCCATCGGGTT
AGGCCTACACAGCTCCTCAAGCTACGCCAATCTCCCATCTGACGTGGTCG
AGTACCGCAAGCGGATCTTCTTCTCTCTATACATGATGGACAGAGTAGTA
TCCATAGCCCTAGGCCGCCCCTTCGCCATCCACGACGCTGACATTGACGT
CGAGCCCTTCACCGACACCACCACAACAGACGACCTAACCCACACAACCA
ACCTCTCCATCCCACTACACATCCTCTCCCTGCGCCGCATCGCCAGTGAA
ATCACGACAGCACTCCACTCCCCAACCAACACACACAACTCAGACCGCCA
GACAACCCTCCAAACTCTACACAAGAAGCTCCTCCACTGGCGACGTACCA
TGCCTTTCCCACTCCCACCAACCCCGTCGCCAATCCCACATCTAACCAGC
GCCTGGTTCGATCTGAACTACTACACGCACATGACGATGCTATACCGGCC
ATCTCCTCTCTTTCCGTCTCTCGACGAACAGAAAGTGAAGGTGTTAGCGA
CAGCTGCGGCAATGGCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGA
CGGTTCGCGTATAACTGGTTGAATCTGTTAGGGGTGTTTCAGAGTGCGGT
GGCATTGATGTATGCTACGCTGGCGCGGCCGGATGAGTTGGGGGTTGTGG
TTCGGGAGACTAAGGTGGTGGAGGATTTGGGGCTGGTGGTGGAGTTGTTG
AGGGTTTTTGGGAGGAAATTTGGGGTTGCGGGGAGGTTGGAGAGGATTGT
AGGGGTAGTGGTGGGGAGGTTGGGGGAGTTTTGTGAGGGGGTAGGGTTGG
TGTGAATGCCTTCTTCCTCGAGTACAGCCCGTGCAAGCACTTCCTGCCGT
CGCTGCCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGA
GACCTGTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGATCGAC
AAGTCGGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTC
AAGGAGCTTGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCC
TAACCTCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGA
CACCTCCGGACACAGACAATAGCGACACCTATCCCATAGCGACACCTCCA
TCTCATAACCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCT
TGAAGCAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCG
CCAAGTTAACCCAGGCAGTCCTCCGACGGCTATCCCCCGACAAAGCCGAG
TTTGTATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTAAACC
TTTCTCAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACA
ACTCGTTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTC
ATGGAAGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACA
TGTCGAATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTATACC
CTATCATCCGCCAGACTGAGTTCACCTCCGTAATATGGCGAGTATACAAC
AATCCACAAGACCCTCTGGCAGGGTCCCCACTATGGATGTTTCGCATCTG
GATGGTTCTGGCCATTGGGACGACGACACACTGTTCCGTAACCCTGGGAG
ATGAATCCGAGTCTGTGCTGTACTACAACAAGGCCATGGGGTATTTCGAG
GATGCGCTTGGACTAGGCGATATGGCCGCGCTAGAGGTCATGATGCTGCA
AGTCTCATATTCATTCTTCAACCAAGTCGGACCAAACACATTCTTCCTTG
TCGGCGTTGCCGCCCGCATGGCCATCGGGTTAGGCCTACACAGCTCCTCA
AGCTACGCCAATCTCCCATCTGACGTGGTCGAGTACCGCAAGCGGATCTT
CTTCTCTCTATACATGATGGACAGAGTAGTATCCATAGCCCTAGGCCGCC
CCTTCGCCATCCACGACGCTGACATTGACGTCGAGCCCTTCACCGACACC
ACCACAACAGACGACCTAACCCACACAACCAACCTCTCCATCCCACTACA
CATCCTCTCCCTGCGCCGCATCGCCAGTGAAATCACGACAGCACTCCACT
CCCCAACCAACACACACAACTCAGACCGCCAGACAACCCTCCAAACTCTA
CACAAGAAGCTCCTCCACTGGCGACGTACCATGCCTTTCCCACTCCCACC
AACCCCGTCGCCAATCCCACATCTAACCAGCGCCTGGTTCGATCTGAACT
ACTACACGCACATGACGATGCTATACCGGCCATCTCCTCTCTTTCCGTCT
CTCGACGAACAGAAAGTGAAGGTGTTAGCGACAGCTGCGGCAATGGCTAT
TCGGCAGGCGATGAATCTGCATCGGCAGGGACGGTTCGCGTATAACTGGT
TGAATCTGTTAGGGGTGTTTCAGAGTGCGGTGGCATTGATGTATGCTACG
CTGGCGCGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGACTAAGGTGGT
GGAGGATTTGGGGCTGGTGGTGGAGTTGTTGAGGGTTTTTGGGAGGAAAT
TTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGG
TTGGGGGAGTTTTGTGAGGGGGTAGGGTTGGTGTGA 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:0003677 | DNA binding |
| GO:0008270 | zinc ion binding |
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006351 | transcription, DNA-templated |
| 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 exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR036864 |
| DBxref | InterPro:IPR007219 |
| DBxref | InterPro:IPR001138 |
| DBxref | PFAM:PF00172 |
| DBxref | PFAM:PF04082 |
| Product | Fungal specific transcription factor 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 |
|---|
| NKJJ01000011.1 | supercontig | NKJJ01000011.1:2403407..2405549 + |
|
