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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000007.1:2537727..2539821+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_50810-T1 ID=ATCC64974_50810-T1|Name=ATCC64974_50810-T1|organism=Aspergillus niger N402|type=mRNA|length=2095bp|location=Sequence derived from alignment at OGUI01000007.1:2537727..2539821+ (Aspergillus niger N402)
ATGTCTTCAGAAGCAGCATCTCAAGTCTCCGTTGGGGCACTCAGGTCAGT
TTCCTGGAACTCACTGTGCATTATCTCACTAATATCCCTCAAGCGCTATC
TTCGATGATACAAAGCCTCAAACGCGTGAGCCTGTTGTTCAGTGTGTCCA
GATAAAGCCATTGCCAGCTCAGCAGAGCCACCCGGAACGCTACCGAGCTG
TATTCAGTGATATTTCAAATTATGTGCAGACGATGCTTGCGACCCGTAAG
TGTGCCATAGTTCTAATGGATTGCCAAAGAAACTGCTAATATCCTTGATC
TTCCAGAATTGAACCCCATGGTTTCTAGTAAGCTATTACGGAAGGGGTGT
TTCGTTCGCCTGAAGTCATTCCAAGCGAACTCCGTGAAAGGCAAAAAGTA
AGTGACCACAAACGTCTTCATCACCAATAGTATACCTGACCTACGAGGCA
GGATTCTTATTATTCTCGACCTTGAAGTCTTGGAGGGACTAGGAGAGGCC
GAGAAGATTGGCGATCCGAAACCACTCGAAAGTAAAACAGATGAAGACGA
GAAGCACCAGCCCACTACAATCTCCAGCAATGGTTTCTATGGATCGAAGA
TATCAGGAGCACAGGTCCAGTCAAATACCGGAGTGCAGTCAGCACGACCT
GTTTTGGCCGCAACGCATGCTACTATATATCCCATCGAAGCTATTTCACC
ATATTCTCACAAATGGACGATCAAAGCACGCTGTACGAGCAAAACAAATA
TTAGGACCTGGCACAACAGGAATACCGAAGGGAGGCTCTTCAGCGTTAAT
CTACTGGACGACAGTGGCGAAATACGAGCTACTGGATTTAATGACCAATG
CGATATGCTGTATGACGTCTTCCAGGAGGGCGGTGTATACTATATTTCCA
ACTGCCGCGTGCAGATTGCGAAAAAGCAGTTCACGAACCTGAACAATGAT
TATGAGCTCACTTTCGAAAGGGATACGGTGGTTGAAAAGGTCAGTCAGAA
TGCTCAGTTCAAATTGCTCTCTTAACTTACCATATCGCATTAGGCAGAGG
ATCAGACCGATGTTCCCCAAGTTCGATTCAATTTCACTTCTATCGGTGAC
CTCCAATCGGTAGAAAAAGATACTACAATCGATGTGATAGGTGTACTGAA
GGAGGCCATGGATGTTACACAGATCACATCCAAAACTACAAACAAACCCT
ATGACAAGCGTGAGCTAATCATGGTTGACAATACTGGGTTCTCCGTTCGC
CTGACCATCTGGGGCTCTACGGCGCAGAAATTCAATGCCTCGCCCGAGTC
TGTGATAGCTTTCAAAGGTGTGAAGGTCTCTGACTTTGGTGGGCGAAGTC
TGAGTTTGCTGAGCTCGGGTTCAATGGCGGTTGATCCTGACATTGAGGAA
GCCCACAAGCTCAAAGGCTGGTATGACGCACAAGGTAGGGATGAGAATTT
CTCTTCACATGCTTCCTTATTAGGCACAGCCTCATCAACGATGAAGTCGG
ATCAATTCAAGACCATCGCCCAAATAAGAGAGGAGCAATTGGGTATGTCG
GAGGAGGCGGTTTACTTTTCGCTGAAAGCAACAGTCATCTATATTAAGCA
GGATAATATGTCTTTTGCTTATCCTGCTTGTCTCTCAGAAGGTTGCAACA
AGAAGGTGACCGAGCTTGATCCTGGTCAGTGGCGCTGTGAGCGCTGCGAT
AAGACTCACCCCCAACCTGACTACCGCTACATAATGCATGTCAATGTCAG
CGATCATACCGGCCAACTTTGGCTGAGCTGCTTTGACGACGTGGGCAGAT
CGATGATGGACATTTCGGCCAATCAGTTAATGGAGCTGTTTCAAACGGAC
GAAAAAGCAGCTGGCGACGTATTCCAGGATGCCAATTGCCGGACCTGGAA
TTTCCGATGCCGTGCCAAAATAGACCATTTCGGCGAACAACAACGGTAAG
GCGATCCGCTTTGTGGCTTAGATGGCACTGCTAATATCAACTCTCTACCA
GTATACGGTATCAGGTATCCTCGGCCAAACCGATTAATTATTCCCACGAG
GCTGGACGCCTTGCTGATCTGATTGGATCTTACACTGTATCTTGA back to topCoding sequence (CDS) from alignment at OGUI01000007.1:2537727..2539821+ >ATCC64974_50810-T1 ID=ATCC64974_50810-T1|Name=ATCC64974_50810-T1|organism=Aspergillus niger N402|type=CDS|length=10926bp|location=Sequence derived from alignment at OGUI01000007.1:2537727..2539821+ (Aspergillus niger N402)
ATGTCTTCAGAAGCAGCATCTCAAGTCTCCGTTGGGGCACTCAGCGCTAT
CTTCGATGATACAAAGCCTCAAACGCGTGAGCCTGTTGTTCAGTGTGTCC
AGATAAAGCCATTGCCAGCTCAGCAGAGCCACCCGGAACGCTACCGAGCT
GTATTCAGTGATATTTCAAATTATGTGCAGACGATGCTTGCGACCCAATT
GAACCCCATGGTTTCTAGTAAGCTATTACGGAAGGGGTGTTTCGTTCGCC
TGAAGTCATTCCAAGCGAACTCCGTGAAAGGCAAAAAGATTCTTATTATT
CTCGACCTTGAAGTCTTGGAGGGACTAGGAGAGGCCGAGAAGATTGGCGA
TCCGAAACCACTCGAAAGTAAAACAGATGAAGACGAGAAGCACCAGCCCA
CTACAATCTCCAGCAATGGTTTCTATGGATCGAAGATATCAGGAGCACAG
GTCCAGTCAAATACCGGAGTGCAGTCAGCACGACCTGTTTTGGCCGCAAC
GCATGCTACTATATATCCCATCGAAGCTATTTCACCATATTCTCACAAAT
GGACGATCAAAGCACGCTGTACGAGCAAAACAAATATTAGGACCTGGCAC
AACAGGAATACCGAAGGGAGGCTCTTCAGCGTTAATCTACTGGACGACAG
TGGCGAAATACGAGCTACTGGATTTAATGACCAATGCGATATGCTGTATG
ACGTCTTCCAGGAGGGCGGTGTATACTATATTTCCAACTGCCGCGTGCAG
ATTGCGAAAAAGCAGTTCACGAACCTGAACAATGATTATGAGCTCACTTT
CGAAAGGGATACGGTGGTTGAAAAGGCAGAGGATCAGACCGATGTTCCCC
AAGTTCGATTCAATTTCACTTCTATCGGTGACCTCCAATCGGTAGAAAAA
GATACTACAATCGATGTGATAGGTGTACTGAAGGAGGCCATGGATGTTAC
ACAGATCACATCCAAAACTACAAACAAACCCTATGACAAGCGTGAGCTAA
TCATGGTTGACAATACTGGGTTCTCCGTTCGCCTGACCATCTGGGGCTCT
ACGGCGCAGAAATTCAATGCCTCGCCCGAGTCTGTGATAGCTTTCAAAGG
TGTGAAGGTCTCTGACTTTGGTGGGCGAAGTCTGAGTTTGCTGAGCTCGG
GTTCAATGGCGGTTGATCCTGACATTGAGGAAGCCCACAAGCTCAAAGGC
TGGTATGACGCACAAGGTAGGGATGAGAATTTCTCTTCACATGCTTCCTT
ATTAGGCACAGCCTCATCAACGATGAAGTCGGATCAATTCAAGACCATCG
CCCAAATAAGAGAGGAGCAATTGGGTATGTCGGAGGAGGCGGTTTACTTT
TCGCTGAAAGCAACAGTCATCTATATTAAGCAGGATAATATGTCTTTTGC
TTATCCTGCTTGTCTCTCAGAAGGTTGCAACAAGAAGGTGACCGAGCTTG
ATCCTGGTCAGTGGCGCTGTGAGCGCTGCGATAAGACTCACCCCCAACCT
GACTACCGCTACATAATGCATGTCAATGTCAGCGATCATACCGGCCAACT
TTGGCTGAGCTGCTTTGACGACGTGGGCAGATCGATGATGGACATTTCGG
CCAATCAGTTAATGGAGCTGTTTCAAACGGACGAAAAAGCAGCTGGCGAC
GTATTCCAGGATGCCAATTGCCGGACCTGGAATTTCCGATGCCGTGCCAA
AATAGACCATTTCGGCGAACAACAACGTATACGGTATCAGGTATCCTCGG
CCAAACCGATTAATTATTCCCACGAGGCTGGACGCCTTGCTGATCTGATT
GGATCTTACACTGTATCTTGAATGTCTTCAGAAGCAGCATCTCAAGTCTC
CGTTGGGGCACTCAGCGCTATCTTCGATGATACAAAGCCTCAAACGCGTG
AGCCTGTTGTTCAGTGTGTCCAGATAAAGCCATTGCCAGCTCAGCAGAGC
CACCCGGAACGCTACCGAGCTGTATTCAGTGATATTTCAAATTATGTGCA
GACGATGCTTGCGACCCAATTGAACCCCATGGTTTCTAGTAAGCTATTAC
GGAAGGGGTGTTTCGTTCGCCTGAAGTCATTCCAAGCGAACTCCGTGAAA
GGCAAAAAGATTCTTATTATTCTCGACCTTGAAGTCTTGGAGGGACTAGG
AGAGGCCGAGAAGATTGGCGATCCGAAACCACTCGAAAGTAAAACAGATG
AAGACGAGAAGCACCAGCCCACTACAATCTCCAGCAATGGTTTCTATGGA
TCGAAGATATCAGGAGCACAGGTCCAGTCAAATACCGGAGTGCAGTCAGC
ACGACCTGTTTTGGCCGCAACGCATGCTACTATATATCCCATCGAAGCTA
TTTCACCATATTCTCACAAATGGACGATCAAAGCACGCTGTACGAGCAAA
ACAAATATTAGGACCTGGCACAACAGGAATACCGAAGGGAGGCTCTTCAG
CGTTAATCTACTGGACGACAGTGGCGAAATACGAGCTACTGGATTTAATG
ACCAATGCGATATGCTGTATGACGTCTTCCAGGAGGGCGGTGTATACTAT
ATTTCCAACTGCCGCGTGCAGATTGCGAAAAAGCAGTTCACGAACCTGAA
CAATGATTATGAGCTCACTTTCGAAAGGGATACGGTGGTTGAAAAGGCAG
AGGATCAGACCGATGTTCCCCAAGTTCGATTCAATTTCACTTCTATCGGT
GACCTCCAATCGGTAGAAAAAGATACTACAATCGATGTGATAGGTGTACT
GAAGGAGGCCATGGATGTTACACAGATCACATCCAAAACTACAAACAAAC
CCTATGACAAGCGTGAGCTAATCATGGTTGACAATACTGGGTTCTCCGTT
CGCCTGACCATCTGGGGCTCTACGGCGCAGAAATTCAATGCCTCGCCCGA
GTCTGTGATAGCTTTCAAAGGTGTGAAGGTCTCTGACTTTGGTGGGCGAA
GTCTGAGTTTGCTGAGCTCGGGTTCAATGGCGGTTGATCCTGACATTGAG
GAAGCCCACAAGCTCAAAGGCTGGTATGACGCACAAGGTAGGGATGAGAA
TTTCTCTTCACATGCTTCCTTATTAGGCACAGCCTCATCAACGATGAAGT
CGGATCAATTCAAGACCATCGCCCAAATAAGAGAGGAGCAATTGGGTATG
TCGGAGGAGGCGGTTTACTTTTCGCTGAAAGCAACAGTCATCTATATTAA
GCAGGATAATATGTCTTTTGCTTATCCTGCTTGTCTCTCAGAAGGTTGCA
ACAAGAAGGTGACCGAGCTTGATCCTGGTCAGTGGCGCTGTGAGCGCTGC
GATAAGACTCACCCCCAACCTGACTACCGCTACATAATGCATGTCAATGT
CAGCGATCATACCGGCCAACTTTGGCTGAGCTGCTTTGACGACGTGGGCA
GATCGATGATGGACATTTCGGCCAATCAGTTAATGGAGCTGTTTCAAACG
GACGAAAAAGCAGCTGGCGACGTATTCCAGGATGCCAATTGCCGGACCTG
GAATTTCCGATGCCGTGCCAAAATAGACCATTTCGGCGAACAACAACGTA
TACGGTATCAGGTATCCTCGGCCAAACCGATTAATTATTCCCACGAGGCT
GGACGCCTTGCTGATCTGATTGGATCTTACACTGTATCTTGAATGTCTTC
AGAAGCAGCATCTCAAGTCTCCGTTGGGGCACTCAGCGCTATCTTCGATG
ATACAAAGCCTCAAACGCGTGAGCCTGTTGTTCAGTGTGTCCAGATAAAG
CCATTGCCAGCTCAGCAGAGCCACCCGGAACGCTACCGAGCTGTATTCAG
TGATATTTCAAATTATGTGCAGACGATGCTTGCGACCCAATTGAACCCCA
TGGTTTCTAGTAAGCTATTACGGAAGGGGTGTTTCGTTCGCCTGAAGTCA
TTCCAAGCGAACTCCGTGAAAGGCAAAAAGATTCTTATTATTCTCGACCT
TGAAGTCTTGGAGGGACTAGGAGAGGCCGAGAAGATTGGCGATCCGAAAC
CACTCGAAAGTAAAACAGATGAAGACGAGAAGCACCAGCCCACTACAATC
TCCAGCAATGGTTTCTATGGATCGAAGATATCAGGAGCACAGGTCCAGTC
AAATACCGGAGTGCAGTCAGCACGACCTGTTTTGGCCGCAACGCATGCTA
CTATATATCCCATCGAAGCTATTTCACCATATTCTCACAAATGGACGATC
AAAGCACGCTGTACGAGCAAAACAAATATTAGGACCTGGCACAACAGGAA
TACCGAAGGGAGGCTCTTCAGCGTTAATCTACTGGACGACAGTGGCGAAA
TACGAGCTACTGGATTTAATGACCAATGCGATATGCTGTATGACGTCTTC
CAGGAGGGCGGTGTATACTATATTTCCAACTGCCGCGTGCAGATTGCGAA
AAAGCAGTTCACGAACCTGAACAATGATTATGAGCTCACTTTCGAAAGGG
ATACGGTGGTTGAAAAGGCAGAGGATCAGACCGATGTTCCCCAAGTTCGA
TTCAATTTCACTTCTATCGGTGACCTCCAATCGGTAGAAAAAGATACTAC
AATCGATGTGATAGGTGTACTGAAGGAGGCCATGGATGTTACACAGATCA
CATCCAAAACTACAAACAAACCCTATGACAAGCGTGAGCTAATCATGGTT
GACAATACTGGGTTCTCCGTTCGCCTGACCATCTGGGGCTCTACGGCGCA
GAAATTCAATGCCTCGCCCGAGTCTGTGATAGCTTTCAAAGGTGTGAAGG
TCTCTGACTTTGGTGGGCGAAGTCTGAGTTTGCTGAGCTCGGGTTCAATG
GCGGTTGATCCTGACATTGAGGAAGCCCACAAGCTCAAAGGCTGGTATGA
CGCACAAGGTAGGGATGAGAATTTCTCTTCACATGCTTCCTTATTAGGCA
CAGCCTCATCAACGATGAAGTCGGATCAATTCAAGACCATCGCCCAAATA
AGAGAGGAGCAATTGGGTATGTCGGAGGAGGCGGTTTACTTTTCGCTGAA
AGCAACAGTCATCTATATTAAGCAGGATAATATGTCTTTTGCTTATCCTG
CTTGTCTCTCAGAAGGTTGCAACAAGAAGGTGACCGAGCTTGATCCTGGT
CAGTGGCGCTGTGAGCGCTGCGATAAGACTCACCCCCAACCTGACTACCG
CTACATAATGCATGTCAATGTCAGCGATCATACCGGCCAACTTTGGCTGA
GCTGCTTTGACGACGTGGGCAGATCGATGATGGACATTTCGGCCAATCAG
TTAATGGAGCTGTTTCAAACGGACGAAAAAGCAGCTGGCGACGTATTCCA
GGATGCCAATTGCCGGACCTGGAATTTCCGATGCCGTGCCAAAATAGACC
ATTTCGGCGAACAACAACGTATACGGTATCAGGTATCCTCGGCCAAACCG
ATTAATTATTCCCACGAGGCTGGACGCCTTGCTGATCTGATTGGATCTTA
CACTGTATCTTGAATGTCTTCAGAAGCAGCATCTCAAGTCTCCGTTGGGG
CACTCAGCGCTATCTTCGATGATACAAAGCCTCAAACGCGTGAGCCTGTT
GTTCAGTGTGTCCAGATAAAGCCATTGCCAGCTCAGCAGAGCCACCCGGA
ACGCTACCGAGCTGTATTCAGTGATATTTCAAATTATGTGCAGACGATGC
TTGCGACCCAATTGAACCCCATGGTTTCTAGTAAGCTATTACGGAAGGGG
TGTTTCGTTCGCCTGAAGTCATTCCAAGCGAACTCCGTGAAAGGCAAAAA
GATTCTTATTATTCTCGACCTTGAAGTCTTGGAGGGACTAGGAGAGGCCG
AGAAGATTGGCGATCCGAAACCACTCGAAAGTAAAACAGATGAAGACGAG
AAGCACCAGCCCACTACAATCTCCAGCAATGGTTTCTATGGATCGAAGAT
ATCAGGAGCACAGGTCCAGTCAAATACCGGAGTGCAGTCAGCACGACCTG
TTTTGGCCGCAACGCATGCTACTATATATCCCATCGAAGCTATTTCACCA
TATTCTCACAAATGGACGATCAAAGCACGCTGTACGAGCAAAACAAATAT
TAGGACCTGGCACAACAGGAATACCGAAGGGAGGCTCTTCAGCGTTAATC
TACTGGACGACAGTGGCGAAATACGAGCTACTGGATTTAATGACCAATGC
GATATGCTGTATGACGTCTTCCAGGAGGGCGGTGTATACTATATTTCCAA
CTGCCGCGTGCAGATTGCGAAAAAGCAGTTCACGAACCTGAACAATGATT
ATGAGCTCACTTTCGAAAGGGATACGGTGGTTGAAAAGGCAGAGGATCAG
ACCGATGTTCCCCAAGTTCGATTCAATTTCACTTCTATCGGTGACCTCCA
ATCGGTAGAAAAAGATACTACAATCGATGTGATAGGTGTACTGAAGGAGG
CCATGGATGTTACACAGATCACATCCAAAACTACAAACAAACCCTATGAC
AAGCGTGAGCTAATCATGGTTGACAATACTGGGTTCTCCGTTCGCCTGAC
CATCTGGGGCTCTACGGCGCAGAAATTCAATGCCTCGCCCGAGTCTGTGA
TAGCTTTCAAAGGTGTGAAGGTCTCTGACTTTGGTGGGCGAAGTCTGAGT
TTGCTGAGCTCGGGTTCAATGGCGGTTGATCCTGACATTGAGGAAGCCCA
CAAGCTCAAAGGCTGGTATGACGCACAAGGTAGGGATGAGAATTTCTCTT
CACATGCTTCCTTATTAGGCACAGCCTCATCAACGATGAAGTCGGATCAA
TTCAAGACCATCGCCCAAATAAGAGAGGAGCAATTGGGTATGTCGGAGGA
GGCGGTTTACTTTTCGCTGAAAGCAACAGTCATCTATATTAAGCAGGATA
ATATGTCTTTTGCTTATCCTGCTTGTCTCTCAGAAGGTTGCAACAAGAAG
GTGACCGAGCTTGATCCTGGTCAGTGGCGCTGTGAGCGCTGCGATAAGAC
TCACCCCCAACCTGACTACCGCTACATAATGCATGTCAATGTCAGCGATC
ATACCGGCCAACTTTGGCTGAGCTGCTTTGACGACGTGGGCAGATCGATG
ATGGACATTTCGGCCAATCAGTTAATGGAGCTGTTTCAAACGGACGAAAA
AGCAGCTGGCGACGTATTCCAGGATGCCAATTGCCGGACCTGGAATTTCC
GATGCCGTGCCAAAATAGACCATTTCGGCGAACAACAACGTATACGGTAT
CAGGTATCCTCGGCCAAACCGATTAATTATTCCCACGAGGCTGGACGCCT
TGCTGATCTGATTGGATCTTACACTGTATCTTGAATGTCTTCAGAAGCAG
CATCTCAAGTCTCCGTTGGGGCACTCAGCGCTATCTTCGATGATACAAAG
CCTCAAACGCGTGAGCCTGTTGTTCAGTGTGTCCAGATAAAGCCATTGCC
AGCTCAGCAGAGCCACCCGGAACGCTACCGAGCTGTATTCAGTGATATTT
CAAATTATGTGCAGACGATGCTTGCGACCCAATTGAACCCCATGGTTTCT
AGTAAGCTATTACGGAAGGGGTGTTTCGTTCGCCTGAAGTCATTCCAAGC
GAACTCCGTGAAAGGCAAAAAGATTCTTATTATTCTCGACCTTGAAGTCT
TGGAGGGACTAGGAGAGGCCGAGAAGATTGGCGATCCGAAACCACTCGAA
AGTAAAACAGATGAAGACGAGAAGCACCAGCCCACTACAATCTCCAGCAA
TGGTTTCTATGGATCGAAGATATCAGGAGCACAGGTCCAGTCAAATACCG
GAGTGCAGTCAGCACGACCTGTTTTGGCCGCAACGCATGCTACTATATAT
CCCATCGAAGCTATTTCACCATATTCTCACAAATGGACGATCAAAGCACG
CTGTACGAGCAAAACAAATATTAGGACCTGGCACAACAGGAATACCGAAG
GGAGGCTCTTCAGCGTTAATCTACTGGACGACAGTGGCGAAATACGAGCT
ACTGGATTTAATGACCAATGCGATATGCTGTATGACGTCTTCCAGGAGGG
CGGTGTATACTATATTTCCAACTGCCGCGTGCAGATTGCGAAAAAGCAGT
TCACGAACCTGAACAATGATTATGAGCTCACTTTCGAAAGGGATACGGTG
GTTGAAAAGGCAGAGGATCAGACCGATGTTCCCCAAGTTCGATTCAATTT
CACTTCTATCGGTGACCTCCAATCGGTAGAAAAAGATACTACAATCGATG
TGATAGGTGTACTGAAGGAGGCCATGGATGTTACACAGATCACATCCAAA
ACTACAAACAAACCCTATGACAAGCGTGAGCTAATCATGGTTGACAATAC
TGGGTTCTCCGTTCGCCTGACCATCTGGGGCTCTACGGCGCAGAAATTCA
ATGCCTCGCCCGAGTCTGTGATAGCTTTCAAAGGTGTGAAGGTCTCTGAC
TTTGGTGGGCGAAGTCTGAGTTTGCTGAGCTCGGGTTCAATGGCGGTTGA
TCCTGACATTGAGGAAGCCCACAAGCTCAAAGGCTGGTATGACGCACAAG
GTAGGGATGAGAATTTCTCTTCACATGCTTCCTTATTAGGCACAGCCTCA
TCAACGATGAAGTCGGATCAATTCAAGACCATCGCCCAAATAAGAGAGGA
GCAATTGGGTATGTCGGAGGAGGCGGTTTACTTTTCGCTGAAAGCAACAG
TCATCTATATTAAGCAGGATAATATGTCTTTTGCTTATCCTGCTTGTCTC
TCAGAAGGTTGCAACAAGAAGGTGACCGAGCTTGATCCTGGTCAGTGGCG
CTGTGAGCGCTGCGATAAGACTCACCCCCAACCTGACTACCGCTACATAA
TGCATGTCAATGTCAGCGATCATACCGGCCAACTTTGGCTGAGCTGCTTT
GACGACGTGGGCAGATCGATGATGGACATTTCGGCCAATCAGTTAATGGA
GCTGTTTCAAACGGACGAAAAAGCAGCTGGCGACGTATTCCAGGATGCCA
ATTGCCGGACCTGGAATTTCCGATGCCGTGCCAAAATAGACCATTTCGGC
GAACAACAACGTATACGGTATCAGGTATCCTCGGCCAAACCGATTAATTA
TTCCCACGAGGCTGGACGCCTTGCTGATCTGATTGGATCTTACACTGTAT
CTTGAATGTCTTCAGAAGCAGCATCTCAAGTCTCCGTTGGGGCACTCAGC
GCTATCTTCGATGATACAAAGCCTCAAACGCGTGAGCCTGTTGTTCAGTG
TGTCCAGATAAAGCCATTGCCAGCTCAGCAGAGCCACCCGGAACGCTACC
GAGCTGTATTCAGTGATATTTCAAATTATGTGCAGACGATGCTTGCGACC
CAATTGAACCCCATGGTTTCTAGTAAGCTATTACGGAAGGGGTGTTTCGT
TCGCCTGAAGTCATTCCAAGCGAACTCCGTGAAAGGCAAAAAGATTCTTA
TTATTCTCGACCTTGAAGTCTTGGAGGGACTAGGAGAGGCCGAGAAGATT
GGCGATCCGAAACCACTCGAAAGTAAAACAGATGAAGACGAGAAGCACCA
GCCCACTACAATCTCCAGCAATGGTTTCTATGGATCGAAGATATCAGGAG
CACAGGTCCAGTCAAATACCGGAGTGCAGTCAGCACGACCTGTTTTGGCC
GCAACGCATGCTACTATATATCCCATCGAAGCTATTTCACCATATTCTCA
CAAATGGACGATCAAAGCACGCTGTACGAGCAAAACAAATATTAGGACCT
GGCACAACAGGAATACCGAAGGGAGGCTCTTCAGCGTTAATCTACTGGAC
GACAGTGGCGAAATACGAGCTACTGGATTTAATGACCAATGCGATATGCT
GTATGACGTCTTCCAGGAGGGCGGTGTATACTATATTTCCAACTGCCGCG
TGCAGATTGCGAAAAAGCAGTTCACGAACCTGAACAATGATTATGAGCTC
ACTTTCGAAAGGGATACGGTGGTTGAAAAGGCAGAGGATCAGACCGATGT
TCCCCAAGTTCGATTCAATTTCACTTCTATCGGTGACCTCCAATCGGTAG
AAAAAGATACTACAATCGATGTGATAGGTGTACTGAAGGAGGCCATGGAT
GTTACACAGATCACATCCAAAACTACAAACAAACCCTATGACAAGCGTGA
GCTAATCATGGTTGACAATACTGGGTTCTCCGTTCGCCTGACCATCTGGG
GCTCTACGGCGCAGAAATTCAATGCCTCGCCCGAGTCTGTGATAGCTTTC
AAAGGTGTGAAGGTCTCTGACTTTGGTGGGCGAAGTCTGAGTTTGCTGAG
CTCGGGTTCAATGGCGGTTGATCCTGACATTGAGGAAGCCCACAAGCTCA
AAGGCTGGTATGACGCACAAGGTAGGGATGAGAATTTCTCTTCACATGCT
TCCTTATTAGGCACAGCCTCATCAACGATGAAGTCGGATCAATTCAAGAC
CATCGCCCAAATAAGAGAGGAGCAATTGGGTATGTCGGAGGAGGCGGTTT
ACTTTTCGCTGAAAGCAACAGTCATCTATATTAAGCAGGATAATATGTCT
TTTGCTTATCCTGCTTGTCTCTCAGAAGGTTGCAACAAGAAGGTGACCGA
GCTTGATCCTGGTCAGTGGCGCTGTGAGCGCTGCGATAAGACTCACCCCC
AACCTGACTACCGCTACATAATGCATGTCAATGTCAGCGATCATACCGGC
CAACTTTGGCTGAGCTGCTTTGACGACGTGGGCAGATCGATGATGGACAT
TTCGGCCAATCAGTTAATGGAGCTGTTTCAAACGGACGAAAAAGCAGCTG
GCGACGTATTCCAGGATGCCAATTGCCGGACCTGGAATTTCCGATGCCGT
GCCAAAATAGACCATTTCGGCGAACAACAACGTATACGGTATCAGGTATC
CTCGGCCAAACCGATTAATTATTCCCACGAGGCTGGACGCCTTGCTGATC
TGATTGGATCTTACACTGTATCTTGA 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:0003676 | nucleic acid binding |
| GO:0003677 | DNA binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006260 | DNA replication |
| GO:0006281 | DNA repair |
| GO:0006310 | DNA recombination |
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_50810-T1 | ATCC64974_50810-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 | BUSCO:EOG09262387 |
| DBxref | InterPro:IPR012340 |
| DBxref | InterPro:IPR031657 |
| DBxref | InterPro:IPR013955 |
| DBxref | InterPro:IPR004365 |
| DBxref | InterPro:IPR007199 |
| DBxref | InterPro:IPR004591 |
| DBxref | PFAM:PF01336 |
| DBxref | PFAM:PF08646 |
| DBxref | PFAM:PF16900 |
| DBxref | PFAM:PF04057 |
| 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 |
|---|
| OGUI01000007.1 | supercontig | OGUI01000007.1:2537727..2539821 + |
|
