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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000014.1:344090..346245+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_83550-T1 ID=ATCC64974_83550-T1|Name=ATCC64974_83550-T1|organism=Aspergillus niger N402|type=mRNA|length=2156bp|location=Sequence derived from alignment at OGUI01000014.1:344090..346245+ (Aspergillus niger N402)
ATGTCCCCAAGCGCCATCAACGAGGGCTTCCCCAGCCCTTCCACCATACC
CACCACAACAGTGGTGGTAGTAGGCGCTGGCCCCTCGGGCTTAATGCTAA
CGTACCTCCCCCACTCACAATCACCACCAAATACTCCCAACTAACTGGTA
ATGATGTGAATAGAAACAACCTCCTCCGTTACGGCACACCGGTAATTCTC
CTCGACGACCGCCCGACAGCTACATCAACCGGAAAAGCAGACGGTCTGCA
GCCTAAGACCATCGAAACGCTAAAACAGCTGCGACTGTCGGATGAGTTGC
TCCGCAATGGGGCCAAGGTGTATGATATTTGTTTTTGGGTATATAACCTT
TCCAACCAAGAACAACATCGAAATGTCACTTGGTATTAATATCAATGGTA
ACATAGGAATCCACCCCCCAAAACCCAACCCTCAACCGCACATCCCGCCA
AACGCACTACCCGGACCATCTGGTCGGCGCCTCAGACCCATACATTCTGC
TCGCGCACCAGGGCATGCTCGAGGATGTCTTGATCAAGGATATAGAAGAA
AGAGGGGGCAGTGTACAGCGGAACAGTCCATTCGTGTCTGTTTCTAAGAC
ATCAGACGGGAGTGGAGAACTCGAAGTTATCTACAACGACAACACAACAA
ATACCCAAAAACCCATCCGCACGAAATATCTTGTTGGGTGCGACGGCGCA
AGGTCCAAAGTCCGGGACTTCATTCCTGGGGCGCAGTTAGAGGGCGAGAT
GAGTAATGCTTCTTGGGGAGTTCTGGATGGTACTCATCTCTTTCAGATCC
TTCATTGGTAATTCTGGTTGGCTGACGGGTGCTATATGGTATGTATAGGA
ATCATCGATACCGACTTCCCCGACCTCTGGAGCAAAGTCGCCGTTCGCTC
GCACACAGCAGGATCTATTCTCTGGATTCCCAGGGAACGCGGTATGACGC
GGTTATACGTTGAGCTTAGTTCCACGGACGGAGAGAGGGTCGATAGAGCC
AAGGCGACGCCGGAGTACGTTATGGCTAGGGCGCGAGAGGCGATGCAGCC
TTTCCGATTGGAGTGGAAGTTTATCGGTATCCTTATACCCCGCCCCCATA
TTCTAGATGGAGAAATATACTGATCAGATAGAATGGTTCGGCAACTACGT
CGTTGGCCAACGCGTCGCTCGTCGGTTCAGCGATCCCGAAAATCAGATCT
TCATTGCTGGCGATGTATGCCCGTTCCATCCTTCTTTTTCCCACCAGTGT
ACTGATTTGAATAACAAAATACAGGCCGGTCACGTTCACTCCGCCCTAGC
AGCCCAAGGCGCCAACACCAGCATGCATGACAGCGTCAACCTGGCGTGGA
AACTGAACCTCGTTTCACGCGGGCTCGCCCCGGCATCTCTACTAAATACA
TACTCCGAGGAACGACGGAAGATCGCCAACGACCTGATCGCCTTCGACGC
GGGTCACGTCGCGGCGTTCGAGAAAGGCGAGACCGCCCTAGCGAGGAACT
TTGAAGAGAACATCCGGTTTATTTCCGGTGTTGGGGCTGAGTATGACGCT
GGTGTTGTTACCAAATCTCCTCAAAGTAAAGTGAAGGGTGGCATTCAGCC
GGGGACATTGACCCGTCCTGCTAAGGTGACGAGGTATATTGATGCCAATC
CGGTGGATCTGCAGCTTGATATCCCGATGATGGGACAGTTTAGGGTGGTT
TTGTTTGTGGCGGATGTGGTTGGTGGGAAGGGGTTTTTGGAGGGGTTTTG
TGGGGCGGATGCCTTGGAGGGGGTGCATTCTGTGGCAAAGGAGTCATATA
AGAAGTGTCCTCGGGGACTGAGTGACGAGGATAAGTATTTTCCACTGGAA
AGGTATACCTCTGTTTCGGAGGTGGTGACGTATGGCTTGGTGACGAGGAG
TGAGAAGAGGGAGTTTGAGTTGGGAGATTTGCCGGAATTGTTGCAGAAGA
GTCGATGGACAGTGTATCTGGATGATGTTGAAGGCGAGGAGGGGTGTACT
GGGGAGTGGATAGGAGAGATGGAGAGGGAGCAGGTAGGAGTGATGGTTGT
GAGGCCGGATGGGTATGTTGGTGCAAAGGGGGTTTGGGGATGGAGTGAGG
GAGAGGGTTGCAGGGCAGCGGAGTGGGTTGGGGAGTATTTGGCTTTGGAA
GAGTAG back to topCoding sequence (CDS) from alignment at OGUI01000014.1:344090..346245+ >ATCC64974_83550-T1 ID=ATCC64974_83550-T1|Name=ATCC64974_83550-T1|organism=Aspergillus niger N402|type=CDS|length=11052bp|location=Sequence derived from alignment at OGUI01000014.1:344090..346245+ (Aspergillus niger N402)
ATGTCCCCAAGCGCCATCAACGAGGGCTTCCCCAGCCCTTCCACCATACC
CACCACAACAGTGGTGGTAGTAGGCGCTGGCCCCTCGGGCTTAATGCTAA
CAAACAACCTCCTCCGTTACGGCACACCGGTAATTCTCCTCGACGACCGC
CCGACAGCTACATCAACCGGAAAAGCAGACGGTCTGCAGCCTAAGACCAT
CGAAACGCTAAAACAGCTGCGACTGTCGGATGAGTTGCTCCGCAATGGGG
CCAAGGTGTATGATATTTGTTTTTGGGAATCCACCCCCCAAAACCCAACC
CTCAACCGCACATCCCGCCAAACGCACTACCCGGACCATCTGGTCGGCGC
CTCAGACCCATACATTCTGCTCGCGCACCAGGGCATGCTCGAGGATGTCT
TGATCAAGGATATAGAAGAAAGAGGGGGCAGTGTACAGCGGAACAGTCCA
TTCGTGTCTGTTTCTAAGACATCAGACGGGAGTGGAGAACTCGAAGTTAT
CTACAACGACAACACAACAAATACCCAAAAACCCATCCGCACGAAATATC
TTGTTGGGTGCGACGGCGCAAGGTCCAAAGTCCGGGACTTCATTCCTGGG
GCGCAGTTAGAGGGCGAGATGAGTAATGCTTCTTGGGGAGTTCTGGATGG
AATCATCGATACCGACTTCCCCGACCTCTGGAGCAAAGTCGCCGTTCGCT
CGCACACAGCAGGATCTATTCTCTGGATTCCCAGGGAACGCGGTATGACG
CGGTTATACGTTGAGCTTAGTTCCACGGACGGAGAGAGGGTCGATAGAGC
CAAGGCGACGCCGGAGTACGTTATGGCTAGGGCGCGAGAGGCGATGCAGC
CTTTCCGATTGGAGTGGAAGTTTATCGAATGGTTCGGCAACTACGTCGTT
GGCCAACGCGTCGCTCGTCGGTTCAGCGATCCCGAAAATCAGATCTTCAT
TGCTGGCGATGCCGGTCACGTTCACTCCGCCCTAGCAGCCCAAGGCGCCA
ACACCAGCATGCATGACAGCGTCAACCTGGCGTGGAAACTGAACCTCGTT
TCACGCGGGCTCGCCCCGGCATCTCTACTAAATACATACTCCGAGGAACG
ACGGAAGATCGCCAACGACCTGATCGCCTTCGACGCGGGTCACGTCGCGG
CGTTCGAGAAAGGCGAGACCGCCCTAGCGAGGAACTTTGAAGAGAACATC
CGGTTTATTTCCGGTGTTGGGGCTGAGTATGACGCTGGTGTTGTTACCAA
ATCTCCTCAAAGTAAAGTGAAGGGTGGCATTCAGCCGGGGACATTGACCC
GTCCTGCTAAGGTGACGAGGTATATTGATGCCAATCCGGTGGATCTGCAG
CTTGATATCCCGATGATGGGACAGTTTAGGGTGGTTTTGTTTGTGGCGGA
TGTGGTTGGTGGGAAGGGGTTTTTGGAGGGGTTTTGTGGGGCGGATGCCT
TGGAGGGGGTGCATTCTGTGGCAAAGGAGTCATATAAGAAGTGTCCTCGG
GGACTGAGTGACGAGGATAAGTATTTTCCACTGGAAAGGTATACCTCTGT
TTCGGAGGTGGTGACGTATGGCTTGGTGACGAGGAGTGAGAAGAGGGAGT
TTGAGTTGGGAGATTTGCCGGAATTGTTGCAGAAGAGTCGATGGACAGTG
TATCTGGATGATGTTGAAGGCGAGGAGGGGTGTACTGGGGAGTGGATAGG
AGAGATGGAGAGGGAGCAGGTAGGAGTGATGGTTGTGAGGCCGGATGGGT
ATGTTGGTGCAAAGGGGGTTTGGGGATGGAGTGAGGGAGAGGGTTGCAGG
GCAGCGGAGTGGGTTGGGGAGTATTTGGCTTTGGAAGAGTAGATGTCCCC
AAGCGCCATCAACGAGGGCTTCCCCAGCCCTTCCACCATACCCACCACAA
CAGTGGTGGTAGTAGGCGCTGGCCCCTCGGGCTTAATGCTAACAAACAAC
CTCCTCCGTTACGGCACACCGGTAATTCTCCTCGACGACCGCCCGACAGC
TACATCAACCGGAAAAGCAGACGGTCTGCAGCCTAAGACCATCGAAACGC
TAAAACAGCTGCGACTGTCGGATGAGTTGCTCCGCAATGGGGCCAAGGTG
TATGATATTTGTTTTTGGGAATCCACCCCCCAAAACCCAACCCTCAACCG
CACATCCCGCCAAACGCACTACCCGGACCATCTGGTCGGCGCCTCAGACC
CATACATTCTGCTCGCGCACCAGGGCATGCTCGAGGATGTCTTGATCAAG
GATATAGAAGAAAGAGGGGGCAGTGTACAGCGGAACAGTCCATTCGTGTC
TGTTTCTAAGACATCAGACGGGAGTGGAGAACTCGAAGTTATCTACAACG
ACAACACAACAAATACCCAAAAACCCATCCGCACGAAATATCTTGTTGGG
TGCGACGGCGCAAGGTCCAAAGTCCGGGACTTCATTCCTGGGGCGCAGTT
AGAGGGCGAGATGAGTAATGCTTCTTGGGGAGTTCTGGATGGAATCATCG
ATACCGACTTCCCCGACCTCTGGAGCAAAGTCGCCGTTCGCTCGCACACA
GCAGGATCTATTCTCTGGATTCCCAGGGAACGCGGTATGACGCGGTTATA
CGTTGAGCTTAGTTCCACGGACGGAGAGAGGGTCGATAGAGCCAAGGCGA
CGCCGGAGTACGTTATGGCTAGGGCGCGAGAGGCGATGCAGCCTTTCCGA
TTGGAGTGGAAGTTTATCGAATGGTTCGGCAACTACGTCGTTGGCCAACG
CGTCGCTCGTCGGTTCAGCGATCCCGAAAATCAGATCTTCATTGCTGGCG
ATGCCGGTCACGTTCACTCCGCCCTAGCAGCCCAAGGCGCCAACACCAGC
ATGCATGACAGCGTCAACCTGGCGTGGAAACTGAACCTCGTTTCACGCGG
GCTCGCCCCGGCATCTCTACTAAATACATACTCCGAGGAACGACGGAAGA
TCGCCAACGACCTGATCGCCTTCGACGCGGGTCACGTCGCGGCGTTCGAG
AAAGGCGAGACCGCCCTAGCGAGGAACTTTGAAGAGAACATCCGGTTTAT
TTCCGGTGTTGGGGCTGAGTATGACGCTGGTGTTGTTACCAAATCTCCTC
AAAGTAAAGTGAAGGGTGGCATTCAGCCGGGGACATTGACCCGTCCTGCT
AAGGTGACGAGGTATATTGATGCCAATCCGGTGGATCTGCAGCTTGATAT
CCCGATGATGGGACAGTTTAGGGTGGTTTTGTTTGTGGCGGATGTGGTTG
GTGGGAAGGGGTTTTTGGAGGGGTTTTGTGGGGCGGATGCCTTGGAGGGG
GTGCATTCTGTGGCAAAGGAGTCATATAAGAAGTGTCCTCGGGGACTGAG
TGACGAGGATAAGTATTTTCCACTGGAAAGGTATACCTCTGTTTCGGAGG
TGGTGACGTATGGCTTGGTGACGAGGAGTGAGAAGAGGGAGTTTGAGTTG
GGAGATTTGCCGGAATTGTTGCAGAAGAGTCGATGGACAGTGTATCTGGA
TGATGTTGAAGGCGAGGAGGGGTGTACTGGGGAGTGGATAGGAGAGATGG
AGAGGGAGCAGGTAGGAGTGATGGTTGTGAGGCCGGATGGGTATGTTGGT
GCAAAGGGGGTTTGGGGATGGAGTGAGGGAGAGGGTTGCAGGGCAGCGGA
GTGGGTTGGGGAGTATTTGGCTTTGGAAGAGTAGATGTCCCCAAGCGCCA
TCAACGAGGGCTTCCCCAGCCCTTCCACCATACCCACCACAACAGTGGTG
GTAGTAGGCGCTGGCCCCTCGGGCTTAATGCTAACAAACAACCTCCTCCG
TTACGGCACACCGGTAATTCTCCTCGACGACCGCCCGACAGCTACATCAA
CCGGAAAAGCAGACGGTCTGCAGCCTAAGACCATCGAAACGCTAAAACAG
CTGCGACTGTCGGATGAGTTGCTCCGCAATGGGGCCAAGGTGTATGATAT
TTGTTTTTGGGAATCCACCCCCCAAAACCCAACCCTCAACCGCACATCCC
GCCAAACGCACTACCCGGACCATCTGGTCGGCGCCTCAGACCCATACATT
CTGCTCGCGCACCAGGGCATGCTCGAGGATGTCTTGATCAAGGATATAGA
AGAAAGAGGGGGCAGTGTACAGCGGAACAGTCCATTCGTGTCTGTTTCTA
AGACATCAGACGGGAGTGGAGAACTCGAAGTTATCTACAACGACAACACA
ACAAATACCCAAAAACCCATCCGCACGAAATATCTTGTTGGGTGCGACGG
CGCAAGGTCCAAAGTCCGGGACTTCATTCCTGGGGCGCAGTTAGAGGGCG
AGATGAGTAATGCTTCTTGGGGAGTTCTGGATGGAATCATCGATACCGAC
TTCCCCGACCTCTGGAGCAAAGTCGCCGTTCGCTCGCACACAGCAGGATC
TATTCTCTGGATTCCCAGGGAACGCGGTATGACGCGGTTATACGTTGAGC
TTAGTTCCACGGACGGAGAGAGGGTCGATAGAGCCAAGGCGACGCCGGAG
TACGTTATGGCTAGGGCGCGAGAGGCGATGCAGCCTTTCCGATTGGAGTG
GAAGTTTATCGAATGGTTCGGCAACTACGTCGTTGGCCAACGCGTCGCTC
GTCGGTTCAGCGATCCCGAAAATCAGATCTTCATTGCTGGCGATGCCGGT
CACGTTCACTCCGCCCTAGCAGCCCAAGGCGCCAACACCAGCATGCATGA
CAGCGTCAACCTGGCGTGGAAACTGAACCTCGTTTCACGCGGGCTCGCCC
CGGCATCTCTACTAAATACATACTCCGAGGAACGACGGAAGATCGCCAAC
GACCTGATCGCCTTCGACGCGGGTCACGTCGCGGCGTTCGAGAAAGGCGA
GACCGCCCTAGCGAGGAACTTTGAAGAGAACATCCGGTTTATTTCCGGTG
TTGGGGCTGAGTATGACGCTGGTGTTGTTACCAAATCTCCTCAAAGTAAA
GTGAAGGGTGGCATTCAGCCGGGGACATTGACCCGTCCTGCTAAGGTGAC
GAGGTATATTGATGCCAATCCGGTGGATCTGCAGCTTGATATCCCGATGA
TGGGACAGTTTAGGGTGGTTTTGTTTGTGGCGGATGTGGTTGGTGGGAAG
GGGTTTTTGGAGGGGTTTTGTGGGGCGGATGCCTTGGAGGGGGTGCATTC
TGTGGCAAAGGAGTCATATAAGAAGTGTCCTCGGGGACTGAGTGACGAGG
ATAAGTATTTTCCACTGGAAAGGTATACCTCTGTTTCGGAGGTGGTGACG
TATGGCTTGGTGACGAGGAGTGAGAAGAGGGAGTTTGAGTTGGGAGATTT
GCCGGAATTGTTGCAGAAGAGTCGATGGACAGTGTATCTGGATGATGTTG
AAGGCGAGGAGGGGTGTACTGGGGAGTGGATAGGAGAGATGGAGAGGGAG
CAGGTAGGAGTGATGGTTGTGAGGCCGGATGGGTATGTTGGTGCAAAGGG
GGTTTGGGGATGGAGTGAGGGAGAGGGTTGCAGGGCAGCGGAGTGGGTTG
GGGAGTATTTGGCTTTGGAAGAGTAGATGTCCCCAAGCGCCATCAACGAG
GGCTTCCCCAGCCCTTCCACCATACCCACCACAACAGTGGTGGTAGTAGG
CGCTGGCCCCTCGGGCTTAATGCTAACAAACAACCTCCTCCGTTACGGCA
CACCGGTAATTCTCCTCGACGACCGCCCGACAGCTACATCAACCGGAAAA
GCAGACGGTCTGCAGCCTAAGACCATCGAAACGCTAAAACAGCTGCGACT
GTCGGATGAGTTGCTCCGCAATGGGGCCAAGGTGTATGATATTTGTTTTT
GGGAATCCACCCCCCAAAACCCAACCCTCAACCGCACATCCCGCCAAACG
CACTACCCGGACCATCTGGTCGGCGCCTCAGACCCATACATTCTGCTCGC
GCACCAGGGCATGCTCGAGGATGTCTTGATCAAGGATATAGAAGAAAGAG
GGGGCAGTGTACAGCGGAACAGTCCATTCGTGTCTGTTTCTAAGACATCA
GACGGGAGTGGAGAACTCGAAGTTATCTACAACGACAACACAACAAATAC
CCAAAAACCCATCCGCACGAAATATCTTGTTGGGTGCGACGGCGCAAGGT
CCAAAGTCCGGGACTTCATTCCTGGGGCGCAGTTAGAGGGCGAGATGAGT
AATGCTTCTTGGGGAGTTCTGGATGGAATCATCGATACCGACTTCCCCGA
CCTCTGGAGCAAAGTCGCCGTTCGCTCGCACACAGCAGGATCTATTCTCT
GGATTCCCAGGGAACGCGGTATGACGCGGTTATACGTTGAGCTTAGTTCC
ACGGACGGAGAGAGGGTCGATAGAGCCAAGGCGACGCCGGAGTACGTTAT
GGCTAGGGCGCGAGAGGCGATGCAGCCTTTCCGATTGGAGTGGAAGTTTA
TCGAATGGTTCGGCAACTACGTCGTTGGCCAACGCGTCGCTCGTCGGTTC
AGCGATCCCGAAAATCAGATCTTCATTGCTGGCGATGCCGGTCACGTTCA
CTCCGCCCTAGCAGCCCAAGGCGCCAACACCAGCATGCATGACAGCGTCA
ACCTGGCGTGGAAACTGAACCTCGTTTCACGCGGGCTCGCCCCGGCATCT
CTACTAAATACATACTCCGAGGAACGACGGAAGATCGCCAACGACCTGAT
CGCCTTCGACGCGGGTCACGTCGCGGCGTTCGAGAAAGGCGAGACCGCCC
TAGCGAGGAACTTTGAAGAGAACATCCGGTTTATTTCCGGTGTTGGGGCT
GAGTATGACGCTGGTGTTGTTACCAAATCTCCTCAAAGTAAAGTGAAGGG
TGGCATTCAGCCGGGGACATTGACCCGTCCTGCTAAGGTGACGAGGTATA
TTGATGCCAATCCGGTGGATCTGCAGCTTGATATCCCGATGATGGGACAG
TTTAGGGTGGTTTTGTTTGTGGCGGATGTGGTTGGTGGGAAGGGGTTTTT
GGAGGGGTTTTGTGGGGCGGATGCCTTGGAGGGGGTGCATTCTGTGGCAA
AGGAGTCATATAAGAAGTGTCCTCGGGGACTGAGTGACGAGGATAAGTAT
TTTCCACTGGAAAGGTATACCTCTGTTTCGGAGGTGGTGACGTATGGCTT
GGTGACGAGGAGTGAGAAGAGGGAGTTTGAGTTGGGAGATTTGCCGGAAT
TGTTGCAGAAGAGTCGATGGACAGTGTATCTGGATGATGTTGAAGGCGAG
GAGGGGTGTACTGGGGAGTGGATAGGAGAGATGGAGAGGGAGCAGGTAGG
AGTGATGGTTGTGAGGCCGGATGGGTATGTTGGTGCAAAGGGGGTTTGGG
GATGGAGTGAGGGAGAGGGTTGCAGGGCAGCGGAGTGGGTTGGGGAGTAT
TTGGCTTTGGAAGAGTAGATGTCCCCAAGCGCCATCAACGAGGGCTTCCC
CAGCCCTTCCACCATACCCACCACAACAGTGGTGGTAGTAGGCGCTGGCC
CCTCGGGCTTAATGCTAACAAACAACCTCCTCCGTTACGGCACACCGGTA
ATTCTCCTCGACGACCGCCCGACAGCTACATCAACCGGAAAAGCAGACGG
TCTGCAGCCTAAGACCATCGAAACGCTAAAACAGCTGCGACTGTCGGATG
AGTTGCTCCGCAATGGGGCCAAGGTGTATGATATTTGTTTTTGGGAATCC
ACCCCCCAAAACCCAACCCTCAACCGCACATCCCGCCAAACGCACTACCC
GGACCATCTGGTCGGCGCCTCAGACCCATACATTCTGCTCGCGCACCAGG
GCATGCTCGAGGATGTCTTGATCAAGGATATAGAAGAAAGAGGGGGCAGT
GTACAGCGGAACAGTCCATTCGTGTCTGTTTCTAAGACATCAGACGGGAG
TGGAGAACTCGAAGTTATCTACAACGACAACACAACAAATACCCAAAAAC
CCATCCGCACGAAATATCTTGTTGGGTGCGACGGCGCAAGGTCCAAAGTC
CGGGACTTCATTCCTGGGGCGCAGTTAGAGGGCGAGATGAGTAATGCTTC
TTGGGGAGTTCTGGATGGAATCATCGATACCGACTTCCCCGACCTCTGGA
GCAAAGTCGCCGTTCGCTCGCACACAGCAGGATCTATTCTCTGGATTCCC
AGGGAACGCGGTATGACGCGGTTATACGTTGAGCTTAGTTCCACGGACGG
AGAGAGGGTCGATAGAGCCAAGGCGACGCCGGAGTACGTTATGGCTAGGG
CGCGAGAGGCGATGCAGCCTTTCCGATTGGAGTGGAAGTTTATCGAATGG
TTCGGCAACTACGTCGTTGGCCAACGCGTCGCTCGTCGGTTCAGCGATCC
CGAAAATCAGATCTTCATTGCTGGCGATGCCGGTCACGTTCACTCCGCCC
TAGCAGCCCAAGGCGCCAACACCAGCATGCATGACAGCGTCAACCTGGCG
TGGAAACTGAACCTCGTTTCACGCGGGCTCGCCCCGGCATCTCTACTAAA
TACATACTCCGAGGAACGACGGAAGATCGCCAACGACCTGATCGCCTTCG
ACGCGGGTCACGTCGCGGCGTTCGAGAAAGGCGAGACCGCCCTAGCGAGG
AACTTTGAAGAGAACATCCGGTTTATTTCCGGTGTTGGGGCTGAGTATGA
CGCTGGTGTTGTTACCAAATCTCCTCAAAGTAAAGTGAAGGGTGGCATTC
AGCCGGGGACATTGACCCGTCCTGCTAAGGTGACGAGGTATATTGATGCC
AATCCGGTGGATCTGCAGCTTGATATCCCGATGATGGGACAGTTTAGGGT
GGTTTTGTTTGTGGCGGATGTGGTTGGTGGGAAGGGGTTTTTGGAGGGGT
TTTGTGGGGCGGATGCCTTGGAGGGGGTGCATTCTGTGGCAAAGGAGTCA
TATAAGAAGTGTCCTCGGGGACTGAGTGACGAGGATAAGTATTTTCCACT
GGAAAGGTATACCTCTGTTTCGGAGGTGGTGACGTATGGCTTGGTGACGA
GGAGTGAGAAGAGGGAGTTTGAGTTGGGAGATTTGCCGGAATTGTTGCAG
AAGAGTCGATGGACAGTGTATCTGGATGATGTTGAAGGCGAGGAGGGGTG
TACTGGGGAGTGGATAGGAGAGATGGAGAGGGAGCAGGTAGGAGTGATGG
TTGTGAGGCCGGATGGGTATGTTGGTGCAAAGGGGGTTTGGGGATGGAGT
GAGGGAGAGGGTTGCAGGGCAGCGGAGTGGGTTGGGGAGTATTTGGCTTT
GGAAGAGTAGATGTCCCCAAGCGCCATCAACGAGGGCTTCCCCAGCCCTT
CCACCATACCCACCACAACAGTGGTGGTAGTAGGCGCTGGCCCCTCGGGC
TTAATGCTAACAAACAACCTCCTCCGTTACGGCACACCGGTAATTCTCCT
CGACGACCGCCCGACAGCTACATCAACCGGAAAAGCAGACGGTCTGCAGC
CTAAGACCATCGAAACGCTAAAACAGCTGCGACTGTCGGATGAGTTGCTC
CGCAATGGGGCCAAGGTGTATGATATTTGTTTTTGGGAATCCACCCCCCA
AAACCCAACCCTCAACCGCACATCCCGCCAAACGCACTACCCGGACCATC
TGGTCGGCGCCTCAGACCCATACATTCTGCTCGCGCACCAGGGCATGCTC
GAGGATGTCTTGATCAAGGATATAGAAGAAAGAGGGGGCAGTGTACAGCG
GAACAGTCCATTCGTGTCTGTTTCTAAGACATCAGACGGGAGTGGAGAAC
TCGAAGTTATCTACAACGACAACACAACAAATACCCAAAAACCCATCCGC
ACGAAATATCTTGTTGGGTGCGACGGCGCAAGGTCCAAAGTCCGGGACTT
CATTCCTGGGGCGCAGTTAGAGGGCGAGATGAGTAATGCTTCTTGGGGAG
TTCTGGATGGAATCATCGATACCGACTTCCCCGACCTCTGGAGCAAAGTC
GCCGTTCGCTCGCACACAGCAGGATCTATTCTCTGGATTCCCAGGGAACG
CGGTATGACGCGGTTATACGTTGAGCTTAGTTCCACGGACGGAGAGAGGG
TCGATAGAGCCAAGGCGACGCCGGAGTACGTTATGGCTAGGGCGCGAGAG
GCGATGCAGCCTTTCCGATTGGAGTGGAAGTTTATCGAATGGTTCGGCAA
CTACGTCGTTGGCCAACGCGTCGCTCGTCGGTTCAGCGATCCCGAAAATC
AGATCTTCATTGCTGGCGATGCCGGTCACGTTCACTCCGCCCTAGCAGCC
CAAGGCGCCAACACCAGCATGCATGACAGCGTCAACCTGGCGTGGAAACT
GAACCTCGTTTCACGCGGGCTCGCCCCGGCATCTCTACTAAATACATACT
CCGAGGAACGACGGAAGATCGCCAACGACCTGATCGCCTTCGACGCGGGT
CACGTCGCGGCGTTCGAGAAAGGCGAGACCGCCCTAGCGAGGAACTTTGA
AGAGAACATCCGGTTTATTTCCGGTGTTGGGGCTGAGTATGACGCTGGTG
TTGTTACCAAATCTCCTCAAAGTAAAGTGAAGGGTGGCATTCAGCCGGGG
ACATTGACCCGTCCTGCTAAGGTGACGAGGTATATTGATGCCAATCCGGT
GGATCTGCAGCTTGATATCCCGATGATGGGACAGTTTAGGGTGGTTTTGT
TTGTGGCGGATGTGGTTGGTGGGAAGGGGTTTTTGGAGGGGTTTTGTGGG
GCGGATGCCTTGGAGGGGGTGCATTCTGTGGCAAAGGAGTCATATAAGAA
GTGTCCTCGGGGACTGAGTGACGAGGATAAGTATTTTCCACTGGAAAGGT
ATACCTCTGTTTCGGAGGTGGTGACGTATGGCTTGGTGACGAGGAGTGAG
AAGAGGGAGTTTGAGTTGGGAGATTTGCCGGAATTGTTGCAGAAGAGTCG
ATGGACAGTGTATCTGGATGATGTTGAAGGCGAGGAGGGGTGTACTGGGG
AGTGGATAGGAGAGATGGAGAGGGAGCAGGTAGGAGTGATGGTTGTGAGG
CCGGATGGGTATGTTGGTGCAAAGGGGGTTTGGGGATGGAGTGAGGGAGA
GGGTTGCAGGGCAGCGGAGTGGGTTGGGGAGTATTTGGCTTTGGAAGAGT
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0071949 | FAD binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_83550-T1 | ATCC64974_83550-T1-protein | Aspergillus niger N402 | polypeptide |
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:IPR036249 |
| DBxref | InterPro:IPR036188 |
| DBxref | InterPro:IPR012941 |
| DBxref | InterPro:IPR002938 |
| DBxref | InterPro:IPR038220 |
| DBxref | PFAM:PF07976 |
| DBxref | PFAM:PF01494 |
| 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 |
|---|
| OGUI01000014.1 | supercontig | OGUI01000014.1:344090..346245 + |
|
