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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000017.1:2196981..2199105+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_102710-T1 ID=ATCC64974_102710-T1|Name=ATCC64974_102710-T1|organism=Aspergillus niger N402|type=mRNA|length=2125bp|location=Sequence derived from alignment at OGUI01000017.1:2196981..2199105+ (Aspergillus niger N402)
ATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCA
CGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATA
TCCCCATCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATC
CACAATGTCCACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAG
GACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCG
CGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGTT
TGTAGGTTTAGCAGGAGGTTGTTGAAAGCTGTTTCTAACCTCTATAGATG
TCAACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGA
TACAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGC
GCTGACAACCTGTAAGTCTCCTCTAGGCCTCAAGCATGAGAGCGGTCGCT
AACTGAACTTACAGTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGG
GTGCCTGGATTGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGTC
TCCATCGGATTTGCTATGCTCGGTCACATTATCATCATCATCTCATCTAT
TCCCCCGGTTATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTG
GTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCAAGTAGGTGCTGTCT
AGTCATCTCGAGAATCAAACTAACCTGTCCAGATCCAATATCTCGCCCCT
GATCGCAGAACAATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTA
AGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATC
TTCCTCTACTTCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGT
GGCCATGGTGTACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGC
TGCCGACCATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGC
AAGCGATACACCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTT
CCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCA
CTTTGTAAGTCTATCTGCTACATTACTCAAAACCTGGCTAACGGATCAGC
TACCATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCG
TCTTGCCAACAAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAG
AAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTT
TACTGTCAGTTCTTCACAATAATGTAACCGAGCGATGCTAACCTCCATAG
GGCTGGCCTACGGACAAATGACCAACAACCTAACCTCCCAGGCGGCCACC
ATGCAGCTGCACGGCGTGCCTAACGACATCATCAACAACCTGGACCCCCT
TGCCCTCATCATCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGTC
TCCGCAAGATGGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGA
TACCTGCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTA
CATCTACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGG
CCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCC
TTTTCGGAAATTTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCAA
GGCGCCCAAGAACATGAAGAGTTTAGGTATGCGCTTTACCCTCTATGTGT
GTTCATTACATTGTTACTAACATGTACTAGTTCAATCTCTGTACCTGTTC
ATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGAC
CGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCG
TCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAA
GACGAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGG
TGACTCCGGAAAGGTCGAGGCATAG back to topCoding sequence (CDS) from alignment at OGUI01000017.1:2196981..2199105+ >ATCC64974_102710-T1 ID=ATCC64974_102710-T1|Name=ATCC64974_102710-T1|organism=Aspergillus niger N402|type=CDS|length=12852bp|location=Sequence derived from alignment at OGUI01000017.1:2196981..2199105+ (Aspergillus niger N402)
ATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCA
CGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATA
TCCCCATCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATC
CACAATGTCCACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAG
GACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCG
CGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGTT
TATGTCAACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGC
CGGATACAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTA
CTGCGCTGACAACCTTCAACACCTTCTGGTGCTACGTCATGCCCATCTTG
GGTGCCTGGATTGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGT
CTCCATCGGATTTGCTATGCTCGGTCACATTATCATCATCATCTCATCTA
TTCCCCCGGTTATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTT
GGTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCAAATCCAATATCTC
GCCCCTGATCGCAGAACAATACAAGGAGACCAGACTCTTCATCAAGACCA
TTCCTAAGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGACCATCACT
CGCATCTTCCTCTACTTCTACTTCATGATTAACGTCGGCTCCCTGATCGG
ATCCGTGGCCATGGTGTACGCGGAGAAGTATGTGGGATACTGGCTGGCAT
TCCTGCTGCCGACCATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTC
TGTCGCAAGCGATACACCGTGACGCCCCCGACTGGATCGGTCGTGACCAA
AGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACC
CTGTCACTTTCTACCATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTC
AAGCCCAGTCGTCTTGCCAACAAGCCCACGTGGATGACCTTTGATGACCA
GTGGGTCGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCT
GGTACCCTCTTTACTGGCTGGCCTACGGACAAATGACCAACAACCTAACC
TCCCAGGCGGCCACCATGCAGCTGCACGGCGTGCCTAACGACATCATCAA
CAACCTGGACCCCCTTGCCCTCATCATCTTCATCCCGATCATGGACCAGT
TCATCTACCCGGGTCTCCGCAAGATGGGCTTCCACTTCACCCCGATCAAG
CGTATCTATGTGGGATACCTGCTGGCCTCCGCATCCATGATTGCCGCCGC
CGTCACGCAGTACTACATCTACAAGCTGAGCCCGTGCGGCAACCACCCCA
GCAGCTGTGATGAGGCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCG
TACGTGCTGATTGCCTTTTCGGAAATTTTCGCCTCCATCACGGGTTACGA
GTATGCGTATACCAAGGCGCCCAAGAACATGAAGAGTTTAGTTCAATCTC
TGTACCTGTTCATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACC
GCCCTGTCGACCGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGT
GCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTG
ATAAGGAGGAAGACGAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGG
CGCAACGTGGGTGACTCCGGAAAGGTCGAGGCATAGATGAGTGACCCCGT
TGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGG
AGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCATCAACGAG
AAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATCCACAATGTCCACGA
TGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAG
TCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTG
TGCGAGCGCTTCTCATACTATGGAACAACTGCAGTTTATGTCAACTTTAT
TCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACAGTGGAC
AGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTGACAACC
TTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGGATTGC
CGATGAATACTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGGATTTG
CTATGCTCGGTCACATTATCATCATCATCTCATCTATTCCCCCGGTTATT
GTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTT
CGGCATTGGTGTGGGCGGATTCAAATCCAATATCTCGCCCCTGATCGCAG
AACAATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTAAGACTGGC
GAGCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATCTTCCTCTA
CTTCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGG
TGTACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGACC
ATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATA
CACCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGT
GGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTCTAC
CATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCT
TGCCAACAAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAG
TGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTAC
TGGCTGGCCTACGGACAAATGACCAACAACCTAACCTCCCAGGCGGCCAC
CATGCAGCTGCACGGCGTGCCTAACGACATCATCAACAACCTGGACCCCC
TTGCCCTCATCATCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGT
CTCCGCAAGATGGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGG
ATACCTGCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACT
ACATCTACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAG
GCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGC
CTTTTCGGAAATTTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCA
AGGCGCCCAAGAACATGAAGAGTTTAGTTCAATCTCTGTACCTGTTCATG
AACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGA
TCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCG
GTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGAC
GAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGA
CTCCGGAAAGGTCGAGGCATAGATGAGTGACCCCGTTGGCGCAGACGATC
TGGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTC
GATGAGAAGAAGGAGCCTCATATCCCCATCAACGAGAAAGAAACCACAGT
GGTGTCGACGGTGCCCTCAATCCACAATGTCCACGATGATGGGCGCGAAT
ACCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTT
AGCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTC
ATACTATGGAACAACTGCAGTTTATGTCAACTTTATTCAGCAGCCTCTTC
CCGCCGGCTCCACCACGGGTGCCGGATACAGTGGACAGTCCGGTGCTCTG
GGCCAGGGTGAACGGACCTCTACTGCGCTGACAACCTTCAACACCTTCTG
GTGCTACGTCATGCCCATCTTGGGTGCCTGGATTGCCGATGAATACTGGG
GTCGTATGCGAACCATCCAAGTCTCCATCGGATTTGCTATGCTCGGTCAC
ATTATCATCATCATCTCATCTATTCCCCCGGTTATTGTACATGCAAACGG
TGCACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGGCATTGGTGTGG
GCGGATTCAAATCCAATATCTCGCCCCTGATCGCAGAACAATACAAGGAG
ACCAGACTCTTCATCAAGACCATTCCTAAGACTGGCGAGCGCGTCATCGT
CGATCCTGCGCAGACCATCACTCGCATCTTCCTCTACTTCTACTTCATGA
TTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGGTGTACGCGGAGAAG
TATGTGGGATACTGGCTGGCATTCCTGCTGCCGACCATCATGTTCGGTAT
TTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATACACCGTGACGCCCC
CGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTT
CGGGGCCAATGGTCCTGGAACCCTGTCACTTTCTACCATCGCTGCAAATC
TACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCA
CGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTC
AAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTGGCTGGCCTACGG
ACAAATGACCAACAACCTAACCTCCCAGGCGGCCACCATGCAGCTGCACG
GCGTGCCTAACGACATCATCAACAACCTGGACCCCCTTGCCCTCATCATC
TTCATCCCGATCATGGACCAGTTCATCTACCCGGGTCTCCGCAAGATGGG
CTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGATACCTGCTGGCCT
CCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTACATCTACAAGCTG
AGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCCCCCATCAA
CGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAATTT
TCGCCTCCATCACGGGTTACGAGTATGCGTATACCAAGGCGCCCAAGAAC
ATGAAGAGTTTAGTTCAATCTCTGTACCTGTTCATGAACGCCATCTCCTC
TGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCTCCTGATCT
GGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTCTTC
TTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTGAACAACAT
CGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGGAAAGGTCG
AGGCATAGATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCA
CAGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGA
GCCTCATATCCCCATCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGC
CCTCAATCCACAATGTCCACGATGATGGGCGCGAATACCCCACTGAGGAA
GAGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTA
CACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAA
CTGCAGTTTATGTCAACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACC
ACGGGTGCCGGATACAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACG
GACCTCTACTGCGCTGACAACCTTCAACACCTTCTGGTGCTACGTCATGC
CCATCTTGGGTGCCTGGATTGCCGATGAATACTGGGGTCGTATGCGAACC
ATCCAAGTCTCCATCGGATTTGCTATGCTCGGTCACATTATCATCATCAT
CTCATCTATTCCCCCGGTTATTGTACATGCAAACGGTGCACTGGCTTGCT
TCGCTGTTGGTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCAAATCC
AATATCTCGCCCCTGATCGCAGAACAATACAAGGAGACCAGACTCTTCAT
CAAGACCATTCCTAAGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGA
CCATCACTCGCATCTTCCTCTACTTCTACTTCATGATTAACGTCGGCTCC
CTGATCGGATCCGTGGCCATGGTGTACGCGGAGAAGTATGTGGGATACTG
GCTGGCATTCCTGCTGCCGACCATCATGTTCGGTATTTGTCCGATTGTTT
TGTTCTTCTGTCGCAAGCGATACACCGTGACGCCCCCGACTGGATCGGTC
GTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTC
CTGGAACCCTGTCACTTTCTACCATCGCTGCAAATCTACCGAGTTTTGGG
ACAGTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCACGTGGATGACCTTT
GATGACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGT
CTTTGCCTGGTACCCTCTTTACTGGCTGGCCTACGGACAAATGACCAACA
ACCTAACCTCCCAGGCGGCCACCATGCAGCTGCACGGCGTGCCTAACGAC
ATCATCAACAACCTGGACCCCCTTGCCCTCATCATCTTCATCCCGATCAT
GGACCAGTTCATCTACCCGGGTCTCCGCAAGATGGGCTTCCACTTCACCC
CGATCAAGCGTATCTATGTGGGATACCTGCTGGCCTCCGCATCCATGATT
GCCGCCGCCGTCACGCAGTACTACATCTACAAGCTGAGCCCGTGCGGCAA
CCACCCCAGCAGCTGTGATGAGGCCGCCCCCATCAACGTGTGGGTGCAGG
CAGTGCCGTACGTGCTGATTGCCTTTTCGGAAATTTTCGCCTCCATCACG
GGTTACGAGTATGCGTATACCAAGGCGCCCAAGAACATGAAGAGTTTAGT
TCAATCTCTGTACCTGTTCATGAACGCCATCTCCTCTGCTATTCAGCAAG
GTCTTACCGCCCTGTCGACCGATCCCCTCCTGATCTGGAACTATGGCTTC
GTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACTT
GAAGCTTGATAAGGAGGAAGACGAGTTGAACAACATCGAGGAGTCGGCGT
ATCTGGGGCGCAACGTGGGTGACTCCGGAAAGGTCGAGGCATAGATGAGT
GACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCACGTTCC
CCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCA
TCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATCCACAAT
GTCCACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCT
GCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTG
TCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGTTTATGTC
AACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATA
CAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGC
TGACAACCTTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCC
TGGATTGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGTCTCCAT
CGGATTTGCTATGCTCGGTCACATTATCATCATCATCTCATCTATTCCCC
CGGTTATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTG
GTGATTTTCGGCATTGGTGTGGGCGGATTCAAATCCAATATCTCGCCCCT
GATCGCAGAACAATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTA
AGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATC
TTCCTCTACTTCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGT
GGCCATGGTGTACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGC
TGCCGACCATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGC
AAGCGATACACCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTT
CCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCA
CTTTCTACCATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCC
AGTCGTCTTGCCAACAAGCCCACGTGGATGACCTTTGATGACCAGTGGGT
CGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACC
CTCTTTACTGGCTGGCCTACGGACAAATGACCAACAACCTAACCTCCCAG
GCGGCCACCATGCAGCTGCACGGCGTGCCTAACGACATCATCAACAACCT
GGACCCCCTTGCCCTCATCATCTTCATCCCGATCATGGACCAGTTCATCT
ACCCGGGTCTCCGCAAGATGGGCTTCCACTTCACCCCGATCAAGCGTATC
TATGTGGGATACCTGCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCAC
GCAGTACTACATCTACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCT
GTGATGAGGCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTG
CTGATTGCCTTTTCGGAAATTTTCGCCTCCATCACGGGTTACGAGTATGC
GTATACCAAGGCGCCCAAGAACATGAAGAGTTTAGTTCAATCTCTGTACC
TGTTCATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTG
TCGACCGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGC
GTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGG
AGGAAGACGAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAAC
GTGGGTGACTCCGGAAAGGTCGAGGCATAGATGAGTGACCCCGTTGGCGC
AGACGATCTGGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCC
AGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCATCAACGAGAAAGAA
ACCACAGTGGTGTCGACGGTGCCCTCAATCCACAATGTCCACGATGATGG
GCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCG
ACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAG
CGCTTCTCATACTATGGAACAACTGCAGTTTATGTCAACTTTATTCAGCA
GCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACAGTGGACAGTCCG
GTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTGACAACCTTCAAC
ACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGGATTGCCGATGA
ATACTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGGATTTGCTATGC
TCGGTCACATTATCATCATCATCTCATCTATTCCCCCGGTTATTGTACAT
GCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGGCAT
TGGTGTGGGCGGATTCAAATCCAATATCTCGCCCCTGATCGCAGAACAAT
ACAAGGAGACCAGACTCTTCATCAAGACCATTCCTAAGACTGGCGAGCGC
GTCATCGTCGATCCTGCGCAGACCATCACTCGCATCTTCCTCTACTTCTA
CTTCATGATTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGGTGTACG
CGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGACCATCATG
TTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATACACCGT
GACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAGCC
TGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTCTACCATCGC
TGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAA
CAAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTC
GTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTGGCTG
GCCTACGGACAAATGACCAACAACCTAACCTCCCAGGCGGCCACCATGCA
GCTGCACGGCGTGCCTAACGACATCATCAACAACCTGGACCCCCTTGCCC
TCATCATCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGTCTCCGC
AAGATGGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGATACCT
GCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTACATCT
ACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCC
CCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTC
GGAAATTTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCAAGGCGC
CCAAGAACATGAAGAGTTTAGTTCAATCTCTGTACCTGTTCATGAACGCC
ATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCT
CCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAA
ACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTG
AACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGG
AAAGGTCGAGGCATAGATGAGTGACCCCGTTGGCGCAGACGATCTGGTCT
ATGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAG
AAGAAGGAGCCTCATATCCCCATCAACGAGAAAGAAACCACAGTGGTGTC
GACGGTGCCCTCAATCCACAATGTCCACGATGATGGGCGCGAATACCCCA
CTGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGG
ACCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTA
TGGAACAACTGCAGTTTATGTCAACTTTATTCAGCAGCCTCTTCCCGCCG
GCTCCACCACGGGTGCCGGATACAGTGGACAGTCCGGTGCTCTGGGCCAG
GGTGAACGGACCTCTACTGCGCTGACAACCTTCAACACCTTCTGGTGCTA
CGTCATGCCCATCTTGGGTGCCTGGATTGCCGATGAATACTGGGGTCGTA
TGCGAACCATCCAAGTCTCCATCGGATTTGCTATGCTCGGTCACATTATC
ATCATCATCTCATCTATTCCCCCGGTTATTGTACATGCAAACGGTGCACT
GGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGGCATTGGTGTGGGCGGAT
TCAAATCCAATATCTCGCCCCTGATCGCAGAACAATACAAGGAGACCAGA
CTCTTCATCAAGACCATTCCTAAGACTGGCGAGCGCGTCATCGTCGATCC
TGCGCAGACCATCACTCGCATCTTCCTCTACTTCTACTTCATGATTAACG
TCGGCTCCCTGATCGGATCCGTGGCCATGGTGTACGCGGAGAAGTATGTG
GGATACTGGCTGGCATTCCTGCTGCCGACCATCATGTTCGGTATTTGTCC
GATTGTTTTGTTCTTCTGTCGCAAGCGATACACCGTGACGCCCCCGACTG
GATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGGGC
CAATGGTCCTGGAACCCTGTCACTTTCTACCATCGCTGCAAATCTACCGA
GTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCACGTGGA
TGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTCAAGGCC
TGTGCTGTCTTTGCCTGGTACCCTCTTTACTGGCTGGCCTACGGACAAAT
GACCAACAACCTAACCTCCCAGGCGGCCACCATGCAGCTGCACGGCGTGC
CTAACGACATCATCAACAACCTGGACCCCCTTGCCCTCATCATCTTCATC
CCGATCATGGACCAGTTCATCTACCCGGGTCTCCGCAAGATGGGCTTCCA
CTTCACCCCGATCAAGCGTATCTATGTGGGATACCTGCTGGCCTCCGCAT
CCATGATTGCCGCCGCCGTCACGCAGTACTACATCTACAAGCTGAGCCCG
TGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCCCCCATCAACGTGTG
GGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAATTTTCGCCT
CCATCACGGGTTACGAGTATGCGTATACCAAGGCGCCCAAGAACATGAAG
AGTTTAGTTCAATCTCTGTACCTGTTCATGAACGCCATCTCCTCTGCTAT
TCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCTCCTGATCTGGAACT
ATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCTC
TGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTGAACAACATCGAGGA
GTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGGAAAGGTCGAGGCAT
AG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016020 | membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006857 | oligopeptide transport |
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0022857 | transmembrane transporter activity |
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_102710-T1 | ATCC64974_102710-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 |
|---|
| DBxref | InterPro:IPR036259 |
| DBxref | InterPro:IPR018456 |
| DBxref | InterPro:IPR000109 |
| DBxref | PFAM:PF00854 |
| 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 |
|---|
| OGUI01000017.1 | supercontig | OGUI01000017.1:2196981..2199105 + |
|
