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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000012.1:118170..120575+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_192623-T1 ID=ASPNIDRAFT_192623-T1|Name=ASPNIDRAFT_192623-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2406bp|location=Sequence derived from alignment at ACJE01000012.1:118170..120575+ (Aspergillus niger ATCC 1015)
ATGCCCCCCTCCATAAACCCCACCTCCTTCGCAACCACCCAACTCACCCT
CCTGCAAGCCGAACAAACCGCCGAAATAACAAGCAGTACTCTCTTCACCA
GCAGCGCCATCACCACCGCATCCCCATCTACCCGTCGCACGTTACAAGCA
ACAGGACACGCCCTGACGGGTATTGTCCTCTCGCAGTGTAGAACGGGATT
AGGCGGTCGGGTGGTCGGGGAGTTTGTACCTGATGCGGCTGTTACTTCTA
CTTCTAGTTCCAAGTCTGGGGGAAATGGGAGCAGCGGTGATGGGAAGTTG
AGGTTAGGTGCGCATGGGGTTAGGGTTGGGGATGTGGTTAAGGTTGTTGA
GATTAGTTCGGGGGGTTCGGGAGGTGGTGGAGGGAAGAAGGGGAAAGAAG
GGAAGGAGAAGGATGGAAAGGGGGGTGGAGTAGAGGGGGTTGTTACGAGG
GTCGGGGAGAGTGCGGTTTGGGTTGCGTTTGGGGGGAAGGATGGTGGTAA
AGGGAAGGATGCTGAGGACGGGGTGGAGGAGTTGTGGGGGAGGAAGGTTT
GGATGTGAGTTTTTTTGTTCCAATTCTTCTTTTTGGTTATGTAGGGTTGG
TGGTGTTTGATGATATTGACTATGTATAGGATCAAACTTGCCAATGATGT
CACGTATAGACGGTATGTCTCTATTTCCGTTATTTCGACAAAGTATGCTG
ATGTATCTAGTATGAATCAGACCATGGAGAAAATGGTCAAAATGGCCGAG
TCCGAACATACGCATTTCATGCGTGTTGCCTTCGGTCATACCTCGCCTAT
GCTGCCCGACTACGATTCTATAGGGGCTCTAGAGTTTACGGATCCTACGT
TGAACGACTCCCAGAAGGAGGCCATTCGGTTTGCCCTGGCAGCACGTGAA
ATTGCCCTCATTCACGGCCCGCCCGGTACAGGCAAAACGCACACGCTGAT
CGAGTTGATCGTGCAGATGGTGCAGCGCAAGCAGCGGGTGCTGGTCTGCG
GCCCGTCGAACATCTCCGTGGACAACATTGTGGAGAGACTGGCGCCGAAG
AAGGTCCCCGTGGTGCGCATCGGACATCCGGCGCGATTGCTACCGTCAGT
CCTGGATCATTCACTGGAAGTGCTCACGCACACGTCGGAGGCGGCGGCGA
TTGTTCGCGACGTCCGCAAGGAGATCGATCAGAAGCAGGCGAGTATCCGG
AAGACCCGAGCCGCACGGGAGCGACGGGCCATCTACGATGATCTGCGAGA
ACTGCGGCGCGAGTTCCGCGAGCGCGAGAACAAATGCGTAGAGAATCTGG
TCCGTGAGAGCAGTGTGGTGCTGGCGACGCTGCATGGAGCGGGCGGTCAT
CAGCTAAAGAACCAAAAGTTCGATGTGGTCATCATCGATGAGGCGAGTCA
GGCACTAGAGGCGCAGTGCTGGATCCCGCTGTTGTCGGCATCCAAGGTGG
TCCTTGCTGGTGATCATTTGCAGCTGCCGCCGACCGTGAAGTCGACTAAA
GAGAATGCGAAAAAAGCGGCCAAAGAGAAGGAGGATAAGAAAGAAAACGG
AGAGTTGCTGGAGAATGTGTCGCTGGAGACGACCCTGTTCGATCGACTGC
TATCCATGCACGGGCCTGGAATCAAACGGATGCTCACGACGCAGTACCGG
ATGCACGAAAAGATTATGCAATTTCCGTCGGACGAGTTGTATGACTCGAA
ATTAATGGCTGCAGACTCTGTCAAGGATCGACTGCTGAAGGACCTACCCT
ACGAAGTCGAGGAGACCGATGACACCAAGGAGCCGCTGGTGTTCTGGGAT
ACGCAAGGTGGTGACTTCCCCGAAAAGACCGAGGATGCGGATCTGGGCAA
GAAAGCCCACCTGGGCGAAAGTAAGAGCAATGACATGGAGGCGCTGGTAG
TGAGCAGGCACGTCGATGCTCTGGTGGACGCAGGGATACACCCCGAAGAC
ATTGCGGTGATTACGCCGTACAACGGTCAGCTGGCCGTACTGTCGCAGAT
GCTGCGGGAGAAATACCCTAGCATTGAGCTGGGCAGCGTCGACGGGTTCC
AAGGGCGGGAGAAGGAAGCGGTGGTGGTGAGTCTGGTGCGCAGCAATAGC
GAGCACGAAGTGGGATTCTTGGGGGAACGGCGTCGTCTCAACGGTAAGAT
CCCTGCCAAGTGGCGAGCCTGCATGGACTGACAGCATTAGTGGCCATGAC
GCGGCCGAAACGGCATCTGTGCATCTGCGGTGATTCGGAGACGATTAGCA
AGTGAGTGCCCCCCTATCGTGGTCAGCATTTACTTTGTAGGCAAATAGTT
GACGTCGACTTTTTTTCTCCACAGGGGCAGTGGCTTCCTTAAGCGATGGA
TGGCATTCCTGGAGGAACATGCCGATTTGCGGTATCCGGATGCCGGCGAT
CTGTTG back to topCoding sequence (CDS) from alignment at ACJE01000012.1:118170..120575+ >ASPNIDRAFT_192623-T1 ID=ASPNIDRAFT_192623-T1|Name=ASPNIDRAFT_192623-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10815bp|location=Sequence derived from alignment at ACJE01000012.1:118170..120575+ (Aspergillus niger ATCC 1015)
ATGCCCCCCTCCATAAACCCCACCTCCTTCGCAACCACCCAACTCACCCT
CCTGCAAGCCGAACAAACCGCCGAAATAACAAGCAGTACTCTCTTCACCA
GCAGCGCCATCACCACCGCATCCCCATCTACCCGTCGCACGTTACAAGCA
ACAGGACACGCCCTGACGGGTATTGTCCTCTCGCAGTGTAGAACGGGATT
AGGCGGTCGGGTGGTCGGGGAGTTTGTACCTGATGCGGCTGTTACTTCTA
CTTCTAGTTCCAAGTCTGGGGGAAATGGGAGCAGCGGTGATGGGAAGTTG
AGGTTAGGTGCGCATGGGGTTAGGGTTGGGGATGTGGTTAAGGTTGTTGA
GATTAGTTCGGGGGGTTCGGGAGGTGGTGGAGGGAAGAAGGGGAAAGAAG
GGAAGGAGAAGGATGGAAAGGGGGGTGGAGTAGAGGGGGTTGTTACGAGG
GTCGGGGAGAGTGCGGTTTGGGTTGCGTTTGGGGGGAAGGATGGTGGTAA
AGGGAAGGATGCTGAGGACGGGGTGGAGGAGTTGTGGGGGAGGAAGGTTT
GGATGATCAAACTTGCCAATGATGTCACGTATAGACGTATGAATCAGACC
ATGGAGAAAATGGTCAAAATGGCCGAGTCCGAACATACGCATTTCATGCG
TGTTGCCTTCGGTCATACCTCGCCTATGCTGCCCGACTACGATTCTATAG
GGGCTCTAGAGTTTACGGATCCTACGTTGAACGACTCCCAGAAGGAGGCC
ATTCGGTTTGCCCTGGCAGCACGTGAAATTGCCCTCATTCACGGCCCGCC
CGGTACAGGCAAAACGCACACGCTGATCGAGTTGATCGTGCAGATGGTGC
AGCGCAAGCAGCGGGTGCTGGTCTGCGGCCCGTCGAACATCTCCGTGGAC
AACATTGTGGAGAGACTGGCGCCGAAGAAGGTCCCCGTGGTGCGCATCGG
ACATCCGGCGCGATTGCTACCGTCAGTCCTGGATCATTCACTGGAAGTGC
TCACGCACACGTCGGAGGCGGCGGCGATTGTTCGCGACGTCCGCAAGGAG
ATCGATCAGAAGCAGGCGAGTATCCGGAAGACCCGAGCCGCACGGGAGCG
ACGGGCCATCTACGATGATCTGCGAGAACTGCGGCGCGAGTTCCGCGAGC
GCGAGAACAAATGCGTAGAGAATCTGGTCCGTGAGAGCAGTGTGGTGCTG
GCGACGCTGCATGGAGCGGGCGGTCATCAGCTAAAGAACCAAAAGTTCGA
TGTGGTCATCATCGATGAGGCGAGTCAGGCACTAGAGGCGCAGTGCTGGA
TCCCGCTGTTGTCGGCATCCAAGGTGGTCCTTGCTGGTGATCATTTGCAG
CTGCCGCCGACCGTGAAGTCGACTAAAGAGAATGCGAAAAAAGCGGCCAA
AGAGAAGGAGGATAAGAAAGAAAACGGAGAGTTGCTGGAGAATGTGTCGC
TGGAGACGACCCTGTTCGATCGACTGCTATCCATGCACGGGCCTGGAATC
AAACGGATGCTCACGACGCAGTACCGGATGCACGAAAAGATTATGCAATT
TCCGTCGGACGAGTTGTATGACTCGAAATTAATGGCTGCAGACTCTGTCA
AGGATCGACTGCTGAAGGACCTACCCTACGAAGTCGAGGAGACCGATGAC
ACCAAGGAGCCGCTGGTGTTCTGGGATACGCAAGGTGGTGACTTCCCCGA
AAAGACCGAGGATGCGGATCTGGGCAAGAAAGCCCACCTGGGCGAAAGTA
AGAGCAATGACATGGAGGCGCTGGTAGTGAGCAGGCACGTCGATGCTCTG
GTGGACGCAGGGATACACCCCGAAGACATTGCGGTGATTACGCCGTACAA
CGGTCAGCTGGCCGTACTGTCGCAGATGCTGCGGGAGAAATACCCTAGCA
TTGAGCTGGGCAGCGTCGACGGGTTCCAAGGGCGGGAGAAGGAAGCGGTG
GTGGTGAGTCTGGTGCGCAGCAATAGCGAGCACGAAGTGGGATTCTTGGG
GGAACGGCGTCGTCTCAACGTGGCCATGACGCGGCCGAAACGGCATCTGT
GCATCTGCGGTGATTCGGAGACGATTAGCAAGGGCAGTGGCTTCCTTAAG
CGATGGATGGCATTCCTGGAGGAACATGCCGATTTGCGGTATCCGGATGC
CGGCGATCTGTTGATGCCCCCCTCCATAAACCCCACCTCCTTCGCAACCA
CCCAACTCACCCTCCTGCAAGCCGAACAAACCGCCGAAATAACAAGCAGT
ACTCTCTTCACCAGCAGCGCCATCACCACCGCATCCCCATCTACCCGTCG
CACGTTACAAGCAACAGGACACGCCCTGACGGGTATTGTCCTCTCGCAGT
GTAGAACGGGATTAGGCGGTCGGGTGGTCGGGGAGTTTGTACCTGATGCG
GCTGTTACTTCTACTTCTAGTTCCAAGTCTGGGGGAAATGGGAGCAGCGG
TGATGGGAAGTTGAGGTTAGGTGCGCATGGGGTTAGGGTTGGGGATGTGG
TTAAGGTTGTTGAGATTAGTTCGGGGGGTTCGGGAGGTGGTGGAGGGAAG
AAGGGGAAAGAAGGGAAGGAGAAGGATGGAAAGGGGGGTGGAGTAGAGGG
GGTTGTTACGAGGGTCGGGGAGAGTGCGGTTTGGGTTGCGTTTGGGGGGA
AGGATGGTGGTAAAGGGAAGGATGCTGAGGACGGGGTGGAGGAGTTGTGG
GGGAGGAAGGTTTGGATGATCAAACTTGCCAATGATGTCACGTATAGACG
TATGAATCAGACCATGGAGAAAATGGTCAAAATGGCCGAGTCCGAACATA
CGCATTTCATGCGTGTTGCCTTCGGTCATACCTCGCCTATGCTGCCCGAC
TACGATTCTATAGGGGCTCTAGAGTTTACGGATCCTACGTTGAACGACTC
CCAGAAGGAGGCCATTCGGTTTGCCCTGGCAGCACGTGAAATTGCCCTCA
TTCACGGCCCGCCCGGTACAGGCAAAACGCACACGCTGATCGAGTTGATC
GTGCAGATGGTGCAGCGCAAGCAGCGGGTGCTGGTCTGCGGCCCGTCGAA
CATCTCCGTGGACAACATTGTGGAGAGACTGGCGCCGAAGAAGGTCCCCG
TGGTGCGCATCGGACATCCGGCGCGATTGCTACCGTCAGTCCTGGATCAT
TCACTGGAAGTGCTCACGCACACGTCGGAGGCGGCGGCGATTGTTCGCGA
CGTCCGCAAGGAGATCGATCAGAAGCAGGCGAGTATCCGGAAGACCCGAG
CCGCACGGGAGCGACGGGCCATCTACGATGATCTGCGAGAACTGCGGCGC
GAGTTCCGCGAGCGCGAGAACAAATGCGTAGAGAATCTGGTCCGTGAGAG
CAGTGTGGTGCTGGCGACGCTGCATGGAGCGGGCGGTCATCAGCTAAAGA
ACCAAAAGTTCGATGTGGTCATCATCGATGAGGCGAGTCAGGCACTAGAG
GCGCAGTGCTGGATCCCGCTGTTGTCGGCATCCAAGGTGGTCCTTGCTGG
TGATCATTTGCAGCTGCCGCCGACCGTGAAGTCGACTAAAGAGAATGCGA
AAAAAGCGGCCAAAGAGAAGGAGGATAAGAAAGAAAACGGAGAGTTGCTG
GAGAATGTGTCGCTGGAGACGACCCTGTTCGATCGACTGCTATCCATGCA
CGGGCCTGGAATCAAACGGATGCTCACGACGCAGTACCGGATGCACGAAA
AGATTATGCAATTTCCGTCGGACGAGTTGTATGACTCGAAATTAATGGCT
GCAGACTCTGTCAAGGATCGACTGCTGAAGGACCTACCCTACGAAGTCGA
GGAGACCGATGACACCAAGGAGCCGCTGGTGTTCTGGGATACGCAAGGTG
GTGACTTCCCCGAAAAGACCGAGGATGCGGATCTGGGCAAGAAAGCCCAC
CTGGGCGAAAGTAAGAGCAATGACATGGAGGCGCTGGTAGTGAGCAGGCA
CGTCGATGCTCTGGTGGACGCAGGGATACACCCCGAAGACATTGCGGTGA
TTACGCCGTACAACGGTCAGCTGGCCGTACTGTCGCAGATGCTGCGGGAG
AAATACCCTAGCATTGAGCTGGGCAGCGTCGACGGGTTCCAAGGGCGGGA
GAAGGAAGCGGTGGTGGTGAGTCTGGTGCGCAGCAATAGCGAGCACGAAG
TGGGATTCTTGGGGGAACGGCGTCGTCTCAACGTGGCCATGACGCGGCCG
AAACGGCATCTGTGCATCTGCGGTGATTCGGAGACGATTAGCAAGGGCAG
TGGCTTCCTTAAGCGATGGATGGCATTCCTGGAGGAACATGCCGATTTGC
GGTATCCGGATGCCGGCGATCTGTTGATGCCCCCCTCCATAAACCCCACC
TCCTTCGCAACCACCCAACTCACCCTCCTGCAAGCCGAACAAACCGCCGA
AATAACAAGCAGTACTCTCTTCACCAGCAGCGCCATCACCACCGCATCCC
CATCTACCCGTCGCACGTTACAAGCAACAGGACACGCCCTGACGGGTATT
GTCCTCTCGCAGTGTAGAACGGGATTAGGCGGTCGGGTGGTCGGGGAGTT
TGTACCTGATGCGGCTGTTACTTCTACTTCTAGTTCCAAGTCTGGGGGAA
ATGGGAGCAGCGGTGATGGGAAGTTGAGGTTAGGTGCGCATGGGGTTAGG
GTTGGGGATGTGGTTAAGGTTGTTGAGATTAGTTCGGGGGGTTCGGGAGG
TGGTGGAGGGAAGAAGGGGAAAGAAGGGAAGGAGAAGGATGGAAAGGGGG
GTGGAGTAGAGGGGGTTGTTACGAGGGTCGGGGAGAGTGCGGTTTGGGTT
GCGTTTGGGGGGAAGGATGGTGGTAAAGGGAAGGATGCTGAGGACGGGGT
GGAGGAGTTGTGGGGGAGGAAGGTTTGGATGATCAAACTTGCCAATGATG
TCACGTATAGACGTATGAATCAGACCATGGAGAAAATGGTCAAAATGGCC
GAGTCCGAACATACGCATTTCATGCGTGTTGCCTTCGGTCATACCTCGCC
TATGCTGCCCGACTACGATTCTATAGGGGCTCTAGAGTTTACGGATCCTA
CGTTGAACGACTCCCAGAAGGAGGCCATTCGGTTTGCCCTGGCAGCACGT
GAAATTGCCCTCATTCACGGCCCGCCCGGTACAGGCAAAACGCACACGCT
GATCGAGTTGATCGTGCAGATGGTGCAGCGCAAGCAGCGGGTGCTGGTCT
GCGGCCCGTCGAACATCTCCGTGGACAACATTGTGGAGAGACTGGCGCCG
AAGAAGGTCCCCGTGGTGCGCATCGGACATCCGGCGCGATTGCTACCGTC
AGTCCTGGATCATTCACTGGAAGTGCTCACGCACACGTCGGAGGCGGCGG
CGATTGTTCGCGACGTCCGCAAGGAGATCGATCAGAAGCAGGCGAGTATC
CGGAAGACCCGAGCCGCACGGGAGCGACGGGCCATCTACGATGATCTGCG
AGAACTGCGGCGCGAGTTCCGCGAGCGCGAGAACAAATGCGTAGAGAATC
TGGTCCGTGAGAGCAGTGTGGTGCTGGCGACGCTGCATGGAGCGGGCGGT
CATCAGCTAAAGAACCAAAAGTTCGATGTGGTCATCATCGATGAGGCGAG
TCAGGCACTAGAGGCGCAGTGCTGGATCCCGCTGTTGTCGGCATCCAAGG
TGGTCCTTGCTGGTGATCATTTGCAGCTGCCGCCGACCGTGAAGTCGACT
AAAGAGAATGCGAAAAAAGCGGCCAAAGAGAAGGAGGATAAGAAAGAAAA
CGGAGAGTTGCTGGAGAATGTGTCGCTGGAGACGACCCTGTTCGATCGAC
TGCTATCCATGCACGGGCCTGGAATCAAACGGATGCTCACGACGCAGTAC
CGGATGCACGAAAAGATTATGCAATTTCCGTCGGACGAGTTGTATGACTC
GAAATTAATGGCTGCAGACTCTGTCAAGGATCGACTGCTGAAGGACCTAC
CCTACGAAGTCGAGGAGACCGATGACACCAAGGAGCCGCTGGTGTTCTGG
GATACGCAAGGTGGTGACTTCCCCGAAAAGACCGAGGATGCGGATCTGGG
CAAGAAAGCCCACCTGGGCGAAAGTAAGAGCAATGACATGGAGGCGCTGG
TAGTGAGCAGGCACGTCGATGCTCTGGTGGACGCAGGGATACACCCCGAA
GACATTGCGGTGATTACGCCGTACAACGGTCAGCTGGCCGTACTGTCGCA
GATGCTGCGGGAGAAATACCCTAGCATTGAGCTGGGCAGCGTCGACGGGT
TCCAAGGGCGGGAGAAGGAAGCGGTGGTGGTGAGTCTGGTGCGCAGCAAT
AGCGAGCACGAAGTGGGATTCTTGGGGGAACGGCGTCGTCTCAACGTGGC
CATGACGCGGCCGAAACGGCATCTGTGCATCTGCGGTGATTCGGAGACGA
TTAGCAAGGGCAGTGGCTTCCTTAAGCGATGGATGGCATTCCTGGAGGAA
CATGCCGATTTGCGGTATCCGGATGCCGGCGATCTGTTGATGCCCCCCTC
CATAAACCCCACCTCCTTCGCAACCACCCAACTCACCCTCCTGCAAGCCG
AACAAACCGCCGAAATAACAAGCAGTACTCTCTTCACCAGCAGCGCCATC
ACCACCGCATCCCCATCTACCCGTCGCACGTTACAAGCAACAGGACACGC
CCTGACGGGTATTGTCCTCTCGCAGTGTAGAACGGGATTAGGCGGTCGGG
TGGTCGGGGAGTTTGTACCTGATGCGGCTGTTACTTCTACTTCTAGTTCC
AAGTCTGGGGGAAATGGGAGCAGCGGTGATGGGAAGTTGAGGTTAGGTGC
GCATGGGGTTAGGGTTGGGGATGTGGTTAAGGTTGTTGAGATTAGTTCGG
GGGGTTCGGGAGGTGGTGGAGGGAAGAAGGGGAAAGAAGGGAAGGAGAAG
GATGGAAAGGGGGGTGGAGTAGAGGGGGTTGTTACGAGGGTCGGGGAGAG
TGCGGTTTGGGTTGCGTTTGGGGGGAAGGATGGTGGTAAAGGGAAGGATG
CTGAGGACGGGGTGGAGGAGTTGTGGGGGAGGAAGGTTTGGATGATCAAA
CTTGCCAATGATGTCACGTATAGACGTATGAATCAGACCATGGAGAAAAT
GGTCAAAATGGCCGAGTCCGAACATACGCATTTCATGCGTGTTGCCTTCG
GTCATACCTCGCCTATGCTGCCCGACTACGATTCTATAGGGGCTCTAGAG
TTTACGGATCCTACGTTGAACGACTCCCAGAAGGAGGCCATTCGGTTTGC
CCTGGCAGCACGTGAAATTGCCCTCATTCACGGCCCGCCCGGTACAGGCA
AAACGCACACGCTGATCGAGTTGATCGTGCAGATGGTGCAGCGCAAGCAG
CGGGTGCTGGTCTGCGGCCCGTCGAACATCTCCGTGGACAACATTGTGGA
GAGACTGGCGCCGAAGAAGGTCCCCGTGGTGCGCATCGGACATCCGGCGC
GATTGCTACCGTCAGTCCTGGATCATTCACTGGAAGTGCTCACGCACACG
TCGGAGGCGGCGGCGATTGTTCGCGACGTCCGCAAGGAGATCGATCAGAA
GCAGGCGAGTATCCGGAAGACCCGAGCCGCACGGGAGCGACGGGCCATCT
ACGATGATCTGCGAGAACTGCGGCGCGAGTTCCGCGAGCGCGAGAACAAA
TGCGTAGAGAATCTGGTCCGTGAGAGCAGTGTGGTGCTGGCGACGCTGCA
TGGAGCGGGCGGTCATCAGCTAAAGAACCAAAAGTTCGATGTGGTCATCA
TCGATGAGGCGAGTCAGGCACTAGAGGCGCAGTGCTGGATCCCGCTGTTG
TCGGCATCCAAGGTGGTCCTTGCTGGTGATCATTTGCAGCTGCCGCCGAC
CGTGAAGTCGACTAAAGAGAATGCGAAAAAAGCGGCCAAAGAGAAGGAGG
ATAAGAAAGAAAACGGAGAGTTGCTGGAGAATGTGTCGCTGGAGACGACC
CTGTTCGATCGACTGCTATCCATGCACGGGCCTGGAATCAAACGGATGCT
CACGACGCAGTACCGGATGCACGAAAAGATTATGCAATTTCCGTCGGACG
AGTTGTATGACTCGAAATTAATGGCTGCAGACTCTGTCAAGGATCGACTG
CTGAAGGACCTACCCTACGAAGTCGAGGAGACCGATGACACCAAGGAGCC
GCTGGTGTTCTGGGATACGCAAGGTGGTGACTTCCCCGAAAAGACCGAGG
ATGCGGATCTGGGCAAGAAAGCCCACCTGGGCGAAAGTAAGAGCAATGAC
ATGGAGGCGCTGGTAGTGAGCAGGCACGTCGATGCTCTGGTGGACGCAGG
GATACACCCCGAAGACATTGCGGTGATTACGCCGTACAACGGTCAGCTGG
CCGTACTGTCGCAGATGCTGCGGGAGAAATACCCTAGCATTGAGCTGGGC
AGCGTCGACGGGTTCCAAGGGCGGGAGAAGGAAGCGGTGGTGGTGAGTCT
GGTGCGCAGCAATAGCGAGCACGAAGTGGGATTCTTGGGGGAACGGCGTC
GTCTCAACGTGGCCATGACGCGGCCGAAACGGCATCTGTGCATCTGCGGT
GATTCGGAGACGATTAGCAAGGGCAGTGGCTTCCTTAAGCGATGGATGGC
ATTCCTGGAGGAACATGCCGATTTGCGGTATCCGGATGCCGGCGATCTGT
TGATGCCCCCCTCCATAAACCCCACCTCCTTCGCAACCACCCAACTCACC
CTCCTGCAAGCCGAACAAACCGCCGAAATAACAAGCAGTACTCTCTTCAC
CAGCAGCGCCATCACCACCGCATCCCCATCTACCCGTCGCACGTTACAAG
CAACAGGACACGCCCTGACGGGTATTGTCCTCTCGCAGTGTAGAACGGGA
TTAGGCGGTCGGGTGGTCGGGGAGTTTGTACCTGATGCGGCTGTTACTTC
TACTTCTAGTTCCAAGTCTGGGGGAAATGGGAGCAGCGGTGATGGGAAGT
TGAGGTTAGGTGCGCATGGGGTTAGGGTTGGGGATGTGGTTAAGGTTGTT
GAGATTAGTTCGGGGGGTTCGGGAGGTGGTGGAGGGAAGAAGGGGAAAGA
AGGGAAGGAGAAGGATGGAAAGGGGGGTGGAGTAGAGGGGGTTGTTACGA
GGGTCGGGGAGAGTGCGGTTTGGGTTGCGTTTGGGGGGAAGGATGGTGGT
AAAGGGAAGGATGCTGAGGACGGGGTGGAGGAGTTGTGGGGGAGGAAGGT
TTGGATGATCAAACTTGCCAATGATGTCACGTATAGACGTATGAATCAGA
CCATGGAGAAAATGGTCAAAATGGCCGAGTCCGAACATACGCATTTCATG
CGTGTTGCCTTCGGTCATACCTCGCCTATGCTGCCCGACTACGATTCTAT
AGGGGCTCTAGAGTTTACGGATCCTACGTTGAACGACTCCCAGAAGGAGG
CCATTCGGTTTGCCCTGGCAGCACGTGAAATTGCCCTCATTCACGGCCCG
CCCGGTACAGGCAAAACGCACACGCTGATCGAGTTGATCGTGCAGATGGT
GCAGCGCAAGCAGCGGGTGCTGGTCTGCGGCCCGTCGAACATCTCCGTGG
ACAACATTGTGGAGAGACTGGCGCCGAAGAAGGTCCCCGTGGTGCGCATC
GGACATCCGGCGCGATTGCTACCGTCAGTCCTGGATCATTCACTGGAAGT
GCTCACGCACACGTCGGAGGCGGCGGCGATTGTTCGCGACGTCCGCAAGG
AGATCGATCAGAAGCAGGCGAGTATCCGGAAGACCCGAGCCGCACGGGAG
CGACGGGCCATCTACGATGATCTGCGAGAACTGCGGCGCGAGTTCCGCGA
GCGCGAGAACAAATGCGTAGAGAATCTGGTCCGTGAGAGCAGTGTGGTGC
TGGCGACGCTGCATGGAGCGGGCGGTCATCAGCTAAAGAACCAAAAGTTC
GATGTGGTCATCATCGATGAGGCGAGTCAGGCACTAGAGGCGCAGTGCTG
GATCCCGCTGTTGTCGGCATCCAAGGTGGTCCTTGCTGGTGATCATTTGC
AGCTGCCGCCGACCGTGAAGTCGACTAAAGAGAATGCGAAAAAAGCGGCC
AAAGAGAAGGAGGATAAGAAAGAAAACGGAGAGTTGCTGGAGAATGTGTC
GCTGGAGACGACCCTGTTCGATCGACTGCTATCCATGCACGGGCCTGGAA
TCAAACGGATGCTCACGACGCAGTACCGGATGCACGAAAAGATTATGCAA
TTTCCGTCGGACGAGTTGTATGACTCGAAATTAATGGCTGCAGACTCTGT
CAAGGATCGACTGCTGAAGGACCTACCCTACGAAGTCGAGGAGACCGATG
ACACCAAGGAGCCGCTGGTGTTCTGGGATACGCAAGGTGGTGACTTCCCC
GAAAAGACCGAGGATGCGGATCTGGGCAAGAAAGCCCACCTGGGCGAAAG
TAAGAGCAATGACATGGAGGCGCTGGTAGTGAGCAGGCACGTCGATGCTC
TGGTGGACGCAGGGATACACCCCGAAGACATTGCGGTGATTACGCCGTAC
AACGGTCAGCTGGCCGTACTGTCGCAGATGCTGCGGGAGAAATACCCTAG
CATTGAGCTGGGCAGCGTCGACGGGTTCCAAGGGCGGGAGAAGGAAGCGG
TGGTGGTGAGTCTGGTGCGCAGCAATAGCGAGCACGAAGTGGGATTCTTG
GGGGAACGGCGTCGTCTCAACGTGGCCATGACGCGGCCGAAACGGCATCT
GTGCATCTGCGGTGATTCGGAGACGATTAGCAAGGGCAGTGGCTTCCTTA
AGCGATGGATGGCATTCCTGGAGGAACATGCCGATTTGCGGTATCCGGAT
GCCGGCGATCTGTTG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA 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:
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:EOG092617S2 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR041677 |
| DBxref | InterPro:IPR041679 |
| DBxref | InterPro:IPR004483 |
| DBxref | InterPro:IPR014001 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF04851 |
| DBxref | PFAM:PF13604 |
| DBxref | PFAM:PF13245 |
| DBxref | PFAM:PF13087 |
| DBxref | PFAM:PF13086 |
| Product | DNA helicase |
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 |
|---|
| ACJE01000012.1 | supercontig | ACJE01000012.1:118170..120575 + |
|
