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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000007.1:966361..968905+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_46270-T1 ID=ATCC64974_46270-T1|Name=ATCC64974_46270-T1|organism=Aspergillus niger N402|type=mRNA|length=2545bp|location=Sequence derived from alignment at OGUI01000007.1:966361..968905+ (Aspergillus niger N402)
ATGCCGCTCTCCTCTCTTCTCCGCACTTCGTCCCGCCTGGGGCCGCCAGT
AGTTCGAAGGTTCAGAAGAGCGGCCTCCACCGTGTCCGCCACGACGCCCA
AGGCTGAAAGATCACTGGACTCTATTCTAATCGCAAATAGAGGAGAAATT
GCGCTGTGCGTCTGAGCTCCGAGGGAGCTTTTTTTCTCGAAGTTTTGTCA
ATAGTTAGTACTAACATTTGGTGATATGTTACAGTCGCGTTGGACGGACC
GCTGCTCAACACGGAATCCGAGTAACGACACTCTACACGGATCCGGATAG
CAAGGCTCAGCATGCGTTGAGCTCGCCATTTGCCTTCAACTTGGGATCCG
TTTCCGCTTACCTCGACGGAGATCGAATTATTGAGATTGCCAAGAAGGAA
GGTTGCCAAGGGATACACCCCGGTTACGGCTTCGTGAGTGCTGTCCGTTA
CACACAGGCTGCGAAGATACTAATCACTCCGACCGTACCAGCTTAGCGAG
AATGCAGCATTTGCGCGGAAATGTACGGAAGCTGGATTGGTCTTCATTGG
ACCTCCTTGGAAGGCTATCGAAGACATGGGTGACAAGAGGTAACTTGATA
CATGTACTCCTGTGAGCATAGGCTGACGACCATAAGTCAATCTAAGAAGA
TCATGACCGCTGCTGGAGTGCCGTGTGTACCCGGTTATCATGGTGACAAC
CAGGATGTCAATTTCCTCGAAGCCGAGGCCGACAAGATCAAGTACCCCGT
GCTGATCAAGGCAATCAAGGGTGGCGGTGGCAAAGGAATGCGCATCGCTC
ATACCAAAGCCGACTTTCAGGCACAGCTGCAGTCTGCCAAATCGGAGGCT
ATGAATTCATTCGGGGATGATCACGTACTGGTGGAGAAGTACATTACGAC
ACCCCGGCACATTGAAGTGCAAGTCTTTGCAGACAAGCAAGGAAACGCTG
TTGCTTTGGGAGAGCGAGACTGTAGTATACAAAGAAGACACCAGAAGATC
CTTGAGGAGTCGCCTGCTCCGCACCTTCCCGATGCAACAAGAAAAGATAT
CTGGGCAAAAGCTCGATCTGCCGCGTTGGCTGTTGGCTACGAGGGTGCTG
GTACCGTGGAGTTCATCTTCGACAATGATACTGGCGAGTTCTTTTTCATG
GAGATGAACACTAGACTCCAGGTGGAGCATCCCGTCACCGAAATGGTTAC
CGGTCAGGATCTTGTGCACTGGCAGCTTAAGATCGCGGAAGGCGCCCCAC
TTCCCTTGACCCAGGAAGATGTGGAGGCTTTCATGGCTACCCGCGGCCAT
GCTATCGAAGCTAGGATTTACGCTGAGAACCCTGACCAGGGATTCATTCC
AGACTCCGGCACTTTGCTCCATGTCCGTACTCCCGCCGCTACTGATGATG
TGAGGATAGACGCCGGGTTCGTCGCAGGCGACGATGTCTCGGCACATTAT
GATCCCATGATTGCAAAATTGATTGTGCGGGGCAACACTCGTGAAGAGGC
GATCCGCAAACTTGCGAATGCGTTGGAGGAGTATGAAGTGGCGGGTCCAA
TCACGAACATTGAGTTTCTGAAAACTGTCTGCAGAAGTCCTGATTTTATT
AGCGGGAATGTGGAGACCGGCTACATTGAGAAACATCGCGAGGAGCTATT
CACACGGAAGGCGATTGAGCCGGAGGTATTGGCCCAGGTGGCTCTGGCTT
GTCTTCACCACGATTCAAATCCGGGAAGTGGAACGCAAGCCAGCTTTGAA
GGCTCTGCCGTAGGCTTTGGCCCAGGATACCAGGCACGACAGATCTCGCT
TGCCGAGCTAACACCAGGGACAAAGGGCGACGCCAAATTTGACGTTAGGG
TGCAACAGACGGGTGACGACACATTCAATGTTGATGTTGGAGGACGTTTA
TTCGAGCAAGTTGTAAGCCATCGGGACCCGGATTCGAAGATTGTCACCTC
ATTCTTCCCTCACACACGCCTGGACACGACGGTGATCCGCGATGAGGACA
CGATCATCGCTTTTCAGCGGGGAACCCAATACCGGTTGACGATCCCACGC
GCCAAGTGGATGGAGAAGGCGTTGGGAATGAAGGATGTCACGAACAGCGT
TCTCGCACCGATGCCGTGCAAGGTGCTGCGTGTGGAGGTAGAGACAGGCG
ATGTGGTAGAAAAGGATCAGCCACTGGTGGTGATTGAGAGTATGAAGATG
GAAACAGTCATTCGCAGCCCACAGAGGGGCACCATCTCCAAGGTGGTACA
TAAAGCAGGAGTAAGTCACGCGGCCCCTACCCCTTCTCAGTTATGACTGC
CAGTCACCCCTGGAGATGACTGCCTCGTCCCGAAACTGGGTCAACCAGAG
CCTCGCCATATTGGAACAGCCCGGGCACGGTTTGCCAAGGGACATCCGGA
TTCTCTCTTCAGGCCGCAGGCATTGACCCACTCCAGCTGTCAATCTGCAT
TCTCACTTCAATGCTGGCGATTGCTAACAGCTACTTTACAGGACCAATGT
AAAAGCGGGACACCGCTGGTTGAATTCGAAGAGGGCGGTGAGTAA back to topCoding sequence (CDS) from alignment at OGUI01000007.1:966361..968905+ >ATCC64974_46270-T1 ID=ATCC64974_46270-T1|Name=ATCC64974_46270-T1|organism=Aspergillus niger N402|type=CDS|length=10650bp|location=Sequence derived from alignment at OGUI01000007.1:966361..968905+ (Aspergillus niger N402)
ATGCCGCTCTCCTCTCTTCTCCGCACTTCGTCCCGCCTGGGGCCGCCAGT
AGTTCGAAGGTTCAGAAGAGCGGCCTCCACCGTGTCCGCCACGACGCCCA
AGGCTGAAAGATCACTGGACTCTATTCTAATCGCAAATAGAGGAGAAATT
GCGCTTCGCGTTGGACGGACCGCTGCTCAACACGGAATCCGAGTAACGAC
ACTCTACACGGATCCGGATAGCAAGGCTCAGCATGCGTTGAGCTCGCCAT
TTGCCTTCAACTTGGGATCCGTTTCCGCTTACCTCGACGGAGATCGAATT
ATTGAGATTGCCAAGAAGGAAGGTTGCCAAGGGATACACCCCGGTTACGG
CTTCCTTAGCGAGAATGCAGCATTTGCGCGGAAATGTACGGAAGCTGGAT
TGGTCTTCATTGGACCTCCTTGGAAGGCTATCGAAGACATGGGTGACAAG
AGTCAATCTAAGAAGATCATGACCGCTGCTGGAGTGCCGTGTGTACCCGG
TTATCATGGTGACAACCAGGATGTCAATTTCCTCGAAGCCGAGGCCGACA
AGATCAAGTACCCCGTGCTGATCAAGGCAATCAAGGGTGGCGGTGGCAAA
GGAATGCGCATCGCTCATACCAAAGCCGACTTTCAGGCACAGCTGCAGTC
TGCCAAATCGGAGGCTATGAATTCATTCGGGGATGATCACGTACTGGTGG
AGAAGTACATTACGACACCCCGGCACATTGAAGTGCAAGTCTTTGCAGAC
AAGCAAGGAAACGCTGTTGCTTTGGGAGAGCGAGACTGTAGTATACAAAG
AAGACACCAGAAGATCCTTGAGGAGTCGCCTGCTCCGCACCTTCCCGATG
CAACAAGAAAAGATATCTGGGCAAAAGCTCGATCTGCCGCGTTGGCTGTT
GGCTACGAGGGTGCTGGTACCGTGGAGTTCATCTTCGACAATGATACTGG
CGAGTTCTTTTTCATGGAGATGAACACTAGACTCCAGGTGGAGCATCCCG
TCACCGAAATGGTTACCGGTCAGGATCTTGTGCACTGGCAGCTTAAGATC
GCGGAAGGCGCCCCACTTCCCTTGACCCAGGAAGATGTGGAGGCTTTCAT
GGCTACCCGCGGCCATGCTATCGAAGCTAGGATTTACGCTGAGAACCCTG
ACCAGGGATTCATTCCAGACTCCGGCACTTTGCTCCATGTCCGTACTCCC
GCCGCTACTGATGATGTGAGGATAGACGCCGGGTTCGTCGCAGGCGACGA
TGTCTCGGCACATTATGATCCCATGATTGCAAAATTGATTGTGCGGGGCA
ACACTCGTGAAGAGGCGATCCGCAAACTTGCGAATGCGTTGGAGGAGTAT
GAAGTGGCGGGTCCAATCACGAACATTGAGTTTCTGAAAACTGTCTGCAG
AAGTCCTGATTTTATTAGCGGGAATGTGGAGACCGGCTACATTGAGAAAC
ATCGCGAGGAGCTATTCACACGGAAGGCGATTGAGCCGGAGGTATTGGCC
CAGGTGGCTCTGGCTTGTCTTCACCACGATTCAAATCCGGGAAGTGGAAC
GCAAGCCAGCTTTGAAGGCTCTGCCGTAGGCTTTGGCCCAGGATACCAGG
CACGACAGATCTCGCTTGCCGAGCTAACACCAGGGACAAAGGGCGACGCC
AAATTTGACGTTAGGGTGCAACAGACGGGTGACGACACATTCAATGTTGA
TGTTGGAGGACGTTTATTCGAGCAAGTTGTAAGCCATCGGGACCCGGATT
CGAAGATTGTCACCTCATTCTTCCCTCACACACGCCTGGACACGACGGTG
ATCCGCGATGAGGACACGATCATCGCTTTTCAGCGGGGAACCCAATACCG
GTTGACGATCCCACGCGCCAAGTGGATGGAGAAGGCGTTGGGAATGAAGG
ATGTCACGAACAGCGTTCTCGCACCGATGCCGTGCAAGGTGCTGCGTGTG
GAGGTAGAGACAGGCGATGTGGTAGAAAAGGATCAGCCACTGGTGGTGAT
TGAGAGTATGAAGATGGAAACAGTCATTCGCAGCCCACAGAGGGGCACCA
TCTCCAAGGTGGTACATAAAGCAGGAGACCAATGTAAAAGCGGGACACCG
CTGGTTGAATTCGAAGAGGGCGGTGAGTAAATGCCGCTCTCCTCTCTTCT
CCGCACTTCGTCCCGCCTGGGGCCGCCAGTAGTTCGAAGGTTCAGAAGAG
CGGCCTCCACCGTGTCCGCCACGACGCCCAAGGCTGAAAGATCACTGGAC
TCTATTCTAATCGCAAATAGAGGAGAAATTGCGCTTCGCGTTGGACGGAC
CGCTGCTCAACACGGAATCCGAGTAACGACACTCTACACGGATCCGGATA
GCAAGGCTCAGCATGCGTTGAGCTCGCCATTTGCCTTCAACTTGGGATCC
GTTTCCGCTTACCTCGACGGAGATCGAATTATTGAGATTGCCAAGAAGGA
AGGTTGCCAAGGGATACACCCCGGTTACGGCTTCCTTAGCGAGAATGCAG
CATTTGCGCGGAAATGTACGGAAGCTGGATTGGTCTTCATTGGACCTCCT
TGGAAGGCTATCGAAGACATGGGTGACAAGAGTCAATCTAAGAAGATCAT
GACCGCTGCTGGAGTGCCGTGTGTACCCGGTTATCATGGTGACAACCAGG
ATGTCAATTTCCTCGAAGCCGAGGCCGACAAGATCAAGTACCCCGTGCTG
ATCAAGGCAATCAAGGGTGGCGGTGGCAAAGGAATGCGCATCGCTCATAC
CAAAGCCGACTTTCAGGCACAGCTGCAGTCTGCCAAATCGGAGGCTATGA
ATTCATTCGGGGATGATCACGTACTGGTGGAGAAGTACATTACGACACCC
CGGCACATTGAAGTGCAAGTCTTTGCAGACAAGCAAGGAAACGCTGTTGC
TTTGGGAGAGCGAGACTGTAGTATACAAAGAAGACACCAGAAGATCCTTG
AGGAGTCGCCTGCTCCGCACCTTCCCGATGCAACAAGAAAAGATATCTGG
GCAAAAGCTCGATCTGCCGCGTTGGCTGTTGGCTACGAGGGTGCTGGTAC
CGTGGAGTTCATCTTCGACAATGATACTGGCGAGTTCTTTTTCATGGAGA
TGAACACTAGACTCCAGGTGGAGCATCCCGTCACCGAAATGGTTACCGGT
CAGGATCTTGTGCACTGGCAGCTTAAGATCGCGGAAGGCGCCCCACTTCC
CTTGACCCAGGAAGATGTGGAGGCTTTCATGGCTACCCGCGGCCATGCTA
TCGAAGCTAGGATTTACGCTGAGAACCCTGACCAGGGATTCATTCCAGAC
TCCGGCACTTTGCTCCATGTCCGTACTCCCGCCGCTACTGATGATGTGAG
GATAGACGCCGGGTTCGTCGCAGGCGACGATGTCTCGGCACATTATGATC
CCATGATTGCAAAATTGATTGTGCGGGGCAACACTCGTGAAGAGGCGATC
CGCAAACTTGCGAATGCGTTGGAGGAGTATGAAGTGGCGGGTCCAATCAC
GAACATTGAGTTTCTGAAAACTGTCTGCAGAAGTCCTGATTTTATTAGCG
GGAATGTGGAGACCGGCTACATTGAGAAACATCGCGAGGAGCTATTCACA
CGGAAGGCGATTGAGCCGGAGGTATTGGCCCAGGTGGCTCTGGCTTGTCT
TCACCACGATTCAAATCCGGGAAGTGGAACGCAAGCCAGCTTTGAAGGCT
CTGCCGTAGGCTTTGGCCCAGGATACCAGGCACGACAGATCTCGCTTGCC
GAGCTAACACCAGGGACAAAGGGCGACGCCAAATTTGACGTTAGGGTGCA
ACAGACGGGTGACGACACATTCAATGTTGATGTTGGAGGACGTTTATTCG
AGCAAGTTGTAAGCCATCGGGACCCGGATTCGAAGATTGTCACCTCATTC
TTCCCTCACACACGCCTGGACACGACGGTGATCCGCGATGAGGACACGAT
CATCGCTTTTCAGCGGGGAACCCAATACCGGTTGACGATCCCACGCGCCA
AGTGGATGGAGAAGGCGTTGGGAATGAAGGATGTCACGAACAGCGTTCTC
GCACCGATGCCGTGCAAGGTGCTGCGTGTGGAGGTAGAGACAGGCGATGT
GGTAGAAAAGGATCAGCCACTGGTGGTGATTGAGAGTATGAAGATGGAAA
CAGTCATTCGCAGCCCACAGAGGGGCACCATCTCCAAGGTGGTACATAAA
GCAGGAGACCAATGTAAAAGCGGGACACCGCTGGTTGAATTCGAAGAGGG
CGGTGAGTAAATGCCGCTCTCCTCTCTTCTCCGCACTTCGTCCCGCCTGG
GGCCGCCAGTAGTTCGAAGGTTCAGAAGAGCGGCCTCCACCGTGTCCGCC
ACGACGCCCAAGGCTGAAAGATCACTGGACTCTATTCTAATCGCAAATAG
AGGAGAAATTGCGCTTCGCGTTGGACGGACCGCTGCTCAACACGGAATCC
GAGTAACGACACTCTACACGGATCCGGATAGCAAGGCTCAGCATGCGTTG
AGCTCGCCATTTGCCTTCAACTTGGGATCCGTTTCCGCTTACCTCGACGG
AGATCGAATTATTGAGATTGCCAAGAAGGAAGGTTGCCAAGGGATACACC
CCGGTTACGGCTTCCTTAGCGAGAATGCAGCATTTGCGCGGAAATGTACG
GAAGCTGGATTGGTCTTCATTGGACCTCCTTGGAAGGCTATCGAAGACAT
GGGTGACAAGAGTCAATCTAAGAAGATCATGACCGCTGCTGGAGTGCCGT
GTGTACCCGGTTATCATGGTGACAACCAGGATGTCAATTTCCTCGAAGCC
GAGGCCGACAAGATCAAGTACCCCGTGCTGATCAAGGCAATCAAGGGTGG
CGGTGGCAAAGGAATGCGCATCGCTCATACCAAAGCCGACTTTCAGGCAC
AGCTGCAGTCTGCCAAATCGGAGGCTATGAATTCATTCGGGGATGATCAC
GTACTGGTGGAGAAGTACATTACGACACCCCGGCACATTGAAGTGCAAGT
CTTTGCAGACAAGCAAGGAAACGCTGTTGCTTTGGGAGAGCGAGACTGTA
GTATACAAAGAAGACACCAGAAGATCCTTGAGGAGTCGCCTGCTCCGCAC
CTTCCCGATGCAACAAGAAAAGATATCTGGGCAAAAGCTCGATCTGCCGC
GTTGGCTGTTGGCTACGAGGGTGCTGGTACCGTGGAGTTCATCTTCGACA
ATGATACTGGCGAGTTCTTTTTCATGGAGATGAACACTAGACTCCAGGTG
GAGCATCCCGTCACCGAAATGGTTACCGGTCAGGATCTTGTGCACTGGCA
GCTTAAGATCGCGGAAGGCGCCCCACTTCCCTTGACCCAGGAAGATGTGG
AGGCTTTCATGGCTACCCGCGGCCATGCTATCGAAGCTAGGATTTACGCT
GAGAACCCTGACCAGGGATTCATTCCAGACTCCGGCACTTTGCTCCATGT
CCGTACTCCCGCCGCTACTGATGATGTGAGGATAGACGCCGGGTTCGTCG
CAGGCGACGATGTCTCGGCACATTATGATCCCATGATTGCAAAATTGATT
GTGCGGGGCAACACTCGTGAAGAGGCGATCCGCAAACTTGCGAATGCGTT
GGAGGAGTATGAAGTGGCGGGTCCAATCACGAACATTGAGTTTCTGAAAA
CTGTCTGCAGAAGTCCTGATTTTATTAGCGGGAATGTGGAGACCGGCTAC
ATTGAGAAACATCGCGAGGAGCTATTCACACGGAAGGCGATTGAGCCGGA
GGTATTGGCCCAGGTGGCTCTGGCTTGTCTTCACCACGATTCAAATCCGG
GAAGTGGAACGCAAGCCAGCTTTGAAGGCTCTGCCGTAGGCTTTGGCCCA
GGATACCAGGCACGACAGATCTCGCTTGCCGAGCTAACACCAGGGACAAA
GGGCGACGCCAAATTTGACGTTAGGGTGCAACAGACGGGTGACGACACAT
TCAATGTTGATGTTGGAGGACGTTTATTCGAGCAAGTTGTAAGCCATCGG
GACCCGGATTCGAAGATTGTCACCTCATTCTTCCCTCACACACGCCTGGA
CACGACGGTGATCCGCGATGAGGACACGATCATCGCTTTTCAGCGGGGAA
CCCAATACCGGTTGACGATCCCACGCGCCAAGTGGATGGAGAAGGCGTTG
GGAATGAAGGATGTCACGAACAGCGTTCTCGCACCGATGCCGTGCAAGGT
GCTGCGTGTGGAGGTAGAGACAGGCGATGTGGTAGAAAAGGATCAGCCAC
TGGTGGTGATTGAGAGTATGAAGATGGAAACAGTCATTCGCAGCCCACAG
AGGGGCACCATCTCCAAGGTGGTACATAAAGCAGGAGACCAATGTAAAAG
CGGGACACCGCTGGTTGAATTCGAAGAGGGCGGTGAGTAAATGCCGCTCT
CCTCTCTTCTCCGCACTTCGTCCCGCCTGGGGCCGCCAGTAGTTCGAAGG
TTCAGAAGAGCGGCCTCCACCGTGTCCGCCACGACGCCCAAGGCTGAAAG
ATCACTGGACTCTATTCTAATCGCAAATAGAGGAGAAATTGCGCTTCGCG
TTGGACGGACCGCTGCTCAACACGGAATCCGAGTAACGACACTCTACACG
GATCCGGATAGCAAGGCTCAGCATGCGTTGAGCTCGCCATTTGCCTTCAA
CTTGGGATCCGTTTCCGCTTACCTCGACGGAGATCGAATTATTGAGATTG
CCAAGAAGGAAGGTTGCCAAGGGATACACCCCGGTTACGGCTTCCTTAGC
GAGAATGCAGCATTTGCGCGGAAATGTACGGAAGCTGGATTGGTCTTCAT
TGGACCTCCTTGGAAGGCTATCGAAGACATGGGTGACAAGAGTCAATCTA
AGAAGATCATGACCGCTGCTGGAGTGCCGTGTGTACCCGGTTATCATGGT
GACAACCAGGATGTCAATTTCCTCGAAGCCGAGGCCGACAAGATCAAGTA
CCCCGTGCTGATCAAGGCAATCAAGGGTGGCGGTGGCAAAGGAATGCGCA
TCGCTCATACCAAAGCCGACTTTCAGGCACAGCTGCAGTCTGCCAAATCG
GAGGCTATGAATTCATTCGGGGATGATCACGTACTGGTGGAGAAGTACAT
TACGACACCCCGGCACATTGAAGTGCAAGTCTTTGCAGACAAGCAAGGAA
ACGCTGTTGCTTTGGGAGAGCGAGACTGTAGTATACAAAGAAGACACCAG
AAGATCCTTGAGGAGTCGCCTGCTCCGCACCTTCCCGATGCAACAAGAAA
AGATATCTGGGCAAAAGCTCGATCTGCCGCGTTGGCTGTTGGCTACGAGG
GTGCTGGTACCGTGGAGTTCATCTTCGACAATGATACTGGCGAGTTCTTT
TTCATGGAGATGAACACTAGACTCCAGGTGGAGCATCCCGTCACCGAAAT
GGTTACCGGTCAGGATCTTGTGCACTGGCAGCTTAAGATCGCGGAAGGCG
CCCCACTTCCCTTGACCCAGGAAGATGTGGAGGCTTTCATGGCTACCCGC
GGCCATGCTATCGAAGCTAGGATTTACGCTGAGAACCCTGACCAGGGATT
CATTCCAGACTCCGGCACTTTGCTCCATGTCCGTACTCCCGCCGCTACTG
ATGATGTGAGGATAGACGCCGGGTTCGTCGCAGGCGACGATGTCTCGGCA
CATTATGATCCCATGATTGCAAAATTGATTGTGCGGGGCAACACTCGTGA
AGAGGCGATCCGCAAACTTGCGAATGCGTTGGAGGAGTATGAAGTGGCGG
GTCCAATCACGAACATTGAGTTTCTGAAAACTGTCTGCAGAAGTCCTGAT
TTTATTAGCGGGAATGTGGAGACCGGCTACATTGAGAAACATCGCGAGGA
GCTATTCACACGGAAGGCGATTGAGCCGGAGGTATTGGCCCAGGTGGCTC
TGGCTTGTCTTCACCACGATTCAAATCCGGGAAGTGGAACGCAAGCCAGC
TTTGAAGGCTCTGCCGTAGGCTTTGGCCCAGGATACCAGGCACGACAGAT
CTCGCTTGCCGAGCTAACACCAGGGACAAAGGGCGACGCCAAATTTGACG
TTAGGGTGCAACAGACGGGTGACGACACATTCAATGTTGATGTTGGAGGA
CGTTTATTCGAGCAAGTTGTAAGCCATCGGGACCCGGATTCGAAGATTGT
CACCTCATTCTTCCCTCACACACGCCTGGACACGACGGTGATCCGCGATG
AGGACACGATCATCGCTTTTCAGCGGGGAACCCAATACCGGTTGACGATC
CCACGCGCCAAGTGGATGGAGAAGGCGTTGGGAATGAAGGATGTCACGAA
CAGCGTTCTCGCACCGATGCCGTGCAAGGTGCTGCGTGTGGAGGTAGAGA
CAGGCGATGTGGTAGAAAAGGATCAGCCACTGGTGGTGATTGAGAGTATG
AAGATGGAAACAGTCATTCGCAGCCCACAGAGGGGCACCATCTCCAAGGT
GGTACATAAAGCAGGAGACCAATGTAAAAGCGGGACACCGCTGGTTGAAT
TCGAAGAGGGCGGTGAGTAAATGCCGCTCTCCTCTCTTCTCCGCACTTCG
TCCCGCCTGGGGCCGCCAGTAGTTCGAAGGTTCAGAAGAGCGGCCTCCAC
CGTGTCCGCCACGACGCCCAAGGCTGAAAGATCACTGGACTCTATTCTAA
TCGCAAATAGAGGAGAAATTGCGCTTCGCGTTGGACGGACCGCTGCTCAA
CACGGAATCCGAGTAACGACACTCTACACGGATCCGGATAGCAAGGCTCA
GCATGCGTTGAGCTCGCCATTTGCCTTCAACTTGGGATCCGTTTCCGCTT
ACCTCGACGGAGATCGAATTATTGAGATTGCCAAGAAGGAAGGTTGCCAA
GGGATACACCCCGGTTACGGCTTCCTTAGCGAGAATGCAGCATTTGCGCG
GAAATGTACGGAAGCTGGATTGGTCTTCATTGGACCTCCTTGGAAGGCTA
TCGAAGACATGGGTGACAAGAGTCAATCTAAGAAGATCATGACCGCTGCT
GGAGTGCCGTGTGTACCCGGTTATCATGGTGACAACCAGGATGTCAATTT
CCTCGAAGCCGAGGCCGACAAGATCAAGTACCCCGTGCTGATCAAGGCAA
TCAAGGGTGGCGGTGGCAAAGGAATGCGCATCGCTCATACCAAAGCCGAC
TTTCAGGCACAGCTGCAGTCTGCCAAATCGGAGGCTATGAATTCATTCGG
GGATGATCACGTACTGGTGGAGAAGTACATTACGACACCCCGGCACATTG
AAGTGCAAGTCTTTGCAGACAAGCAAGGAAACGCTGTTGCTTTGGGAGAG
CGAGACTGTAGTATACAAAGAAGACACCAGAAGATCCTTGAGGAGTCGCC
TGCTCCGCACCTTCCCGATGCAACAAGAAAAGATATCTGGGCAAAAGCTC
GATCTGCCGCGTTGGCTGTTGGCTACGAGGGTGCTGGTACCGTGGAGTTC
ATCTTCGACAATGATACTGGCGAGTTCTTTTTCATGGAGATGAACACTAG
ACTCCAGGTGGAGCATCCCGTCACCGAAATGGTTACCGGTCAGGATCTTG
TGCACTGGCAGCTTAAGATCGCGGAAGGCGCCCCACTTCCCTTGACCCAG
GAAGATGTGGAGGCTTTCATGGCTACCCGCGGCCATGCTATCGAAGCTAG
GATTTACGCTGAGAACCCTGACCAGGGATTCATTCCAGACTCCGGCACTT
TGCTCCATGTCCGTACTCCCGCCGCTACTGATGATGTGAGGATAGACGCC
GGGTTCGTCGCAGGCGACGATGTCTCGGCACATTATGATCCCATGATTGC
AAAATTGATTGTGCGGGGCAACACTCGTGAAGAGGCGATCCGCAAACTTG
CGAATGCGTTGGAGGAGTATGAAGTGGCGGGTCCAATCACGAACATTGAG
TTTCTGAAAACTGTCTGCAGAAGTCCTGATTTTATTAGCGGGAATGTGGA
GACCGGCTACATTGAGAAACATCGCGAGGAGCTATTCACACGGAAGGCGA
TTGAGCCGGAGGTATTGGCCCAGGTGGCTCTGGCTTGTCTTCACCACGAT
TCAAATCCGGGAAGTGGAACGCAAGCCAGCTTTGAAGGCTCTGCCGTAGG
CTTTGGCCCAGGATACCAGGCACGACAGATCTCGCTTGCCGAGCTAACAC
CAGGGACAAAGGGCGACGCCAAATTTGACGTTAGGGTGCAACAGACGGGT
GACGACACATTCAATGTTGATGTTGGAGGACGTTTATTCGAGCAAGTTGT
AAGCCATCGGGACCCGGATTCGAAGATTGTCACCTCATTCTTCCCTCACA
CACGCCTGGACACGACGGTGATCCGCGATGAGGACACGATCATCGCTTTT
CAGCGGGGAACCCAATACCGGTTGACGATCCCACGCGCCAAGTGGATGGA
GAAGGCGTTGGGAATGAAGGATGTCACGAACAGCGTTCTCGCACCGATGC
CGTGCAAGGTGCTGCGTGTGGAGGTAGAGACAGGCGATGTGGTAGAAAAG
GATCAGCCACTGGTGGTGATTGAGAGTATGAAGATGGAAACAGTCATTCG
CAGCCCACAGAGGGGCACCATCTCCAAGGTGGTACATAAAGCAGGAGACC
AATGTAAAAGCGGGACACCGCTGGTTGAATTCGAAGAGGGCGGTGAGTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0046872 | metal ion binding |
| GO:0005524 | ATP 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_46270-T1 | ATCC64974_46270-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:IPR011053 |
| DBxref | InterPro:IPR016185 |
| DBxref | InterPro:IPR011054 |
| DBxref | InterPro:IPR011761 |
| DBxref | InterPro:IPR011764 |
| DBxref | InterPro:IPR005479 |
| DBxref | InterPro:IPR005481 |
| DBxref | InterPro:IPR000089 |
| DBxref | InterPro:IPR005482 |
| DBxref | PFAM:PF07478 |
| DBxref | PFAM:PF02786 |
| DBxref | PFAM:PF00364 |
| DBxref | PFAM:PF00289 |
| DBxref | PFAM:PF02785 |
| DBxref | PFAM:PF02222 |
| 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 | OGUI01000007.1:966361..968905 + |
|
