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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000020.1:227289..229500+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_42644-T1 ID=ASPNIDRAFT_42644-T1|Name=ASPNIDRAFT_42644-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2212bp|location=Sequence derived from alignment at ACJE01000020.1:227289..229500+ (Aspergillus niger ATCC 1015)
ATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTT
TTCCGGTGGCTACAAACAAGGTGAGCATGTCTGACGTTACTGCCAGAAGC
CACATACTGATTTTACTCACTTCAAATAGCAAATCTGAAGACCATCATCC
AGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCAT
CTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATGTGAGTA
CCAAGCAGAGCCCTGTCTACACCTTCTGCTGACAATTCTTAGACACGCAG
GCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGA
GTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCT
CCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTA
GAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGA
CGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACAT
GTCCTCTTCGATGTAAGAGACACCGAATTTGGATAGCCTGAAGGGAAAGC
TAACGTGAATAGTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATC
TGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATT
CTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCC
ACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGC
GGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTC
CGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATACA
CCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGAC
GAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGT
GAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTCA
ACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAG
AAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCA
GGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTA
CAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTA
TACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTT
GAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGA
CCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGAT
ACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGAT
GACGCCATGTACGTCTGGTCCCTGTAGCCTTGCCCCGTTGACTAGGACTA
ACTCTAAGCAGTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACT
ACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTTCGT
ATCTGATGCACCATTTTCAATGAACCAAGTTAACCGTAACAGGTCATAAA
CATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAATCATCCA
TGTACTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCT
CGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACC
GCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTG
CGGACATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGGGAGTGGA
AACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTA
TGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGG
CCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAA
GACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGT
GCGGATGCCGACTACTAATTCTAACTCAAGGGGTCTGATGTACAATGAGT
ACATCGTGTACGATGTGGCTCAGATCCAGCAAAAGTATCTGTTCCATGTC
GACATGCGGTAG back to topCoding sequence (CDS) from alignment at ACJE01000020.1:227289..229500+ >ASPNIDRAFT_42644-T1 ID=ASPNIDRAFT_42644-T1|Name=ASPNIDRAFT_42644-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11538bp|location=Sequence derived from alignment at ACJE01000020.1:227289..229500+ (Aspergillus niger ATCC 1015)
ATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTT
TTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTCATG
GGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTGACC
ACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCGCAA
GGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACA
GTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGACATC
AAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGC
TCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCACAGA
CGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCTCTT
CGATGCCTCATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAA
TAACAACAAATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCA
GGACTTGGACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTG
CTGGGTGGTGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTT
CAAGGACAAGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGA
AGGGTAAATACACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGAC
GAAGACGAGGACGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAA
GGCAGAGGAAGTGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGT
CATTCATCTTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCC
TACGACGCTCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCA
GAACGGTTTTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTG
CCCTGGCAAGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCAT
CTCAGCAACCTATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAG
ACCCCCGGTGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGC
TGGAGGCATTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCC
AGAAACACCGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAA
TATGCAAGAGATGACGCCATTGGAACACACATCTACCGAATTCATCGAGC
TGGCCAACTACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATAC
AAGGTCATAAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATT
CCAATCATCCATGTACTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGT
GGCACGGTTCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTA
CGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGG
TGTCTACTTTGCGGACATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTT
GGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGC
AATCCCATGTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGC
TAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTG
GTGGATGGAAAGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTG
ATGCCCGATGTGCGGATGCCGACTACTAATTCTAACTCAAGGGGTCTGAT
GTACAATGAGTACATCGTGTACGATGTGGCTCAGATCCAGCAAAAGTATC
TGTTCCATGTCGACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTG
GTCATAGCCGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCT
GAAGACCATCATCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGG
AAGATTGCACTCATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGC
GTCAAATACACGCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTT
AGACTGGCTTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGA
AATTCCTGATGGGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCA
AAGAAGCGCACCCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTAC
GAAGAAGCTCAAGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTC
CTGTCGATGATACATGTCCTCTTCGATGCCTCATCTGGGATGCGACACTC
AATCAGACGAGTGCGACCAACAATAACAACAAATTCTACCGCATTCAGCT
TCTCCACAGAAACAACGAATTCAGGACTTGGACCCACTGGGGTCGGGTAG
GCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCA
GAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGA
AAATCGCTTGGATCCACCAAAGAAGGGTAAATACACCTTCATTGAAAAGA
ACTATGAAGAGGACACGGAAGACGAAGACGAGGACGAAGACAAAGTCGTC
GCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGTGAAATGCACCTTATC
AGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAACAAGGATTTTTTTC
AGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAAATTACCCTTGGGG
AAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCT
GTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACAAAGTACGATACTA
GCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATACTTTACCGTGATT
CCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGAACAACGACAATCT
ACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACCGACATGGAAGTTG
CGAACAGTATCATGAAAGATGCCAGAAACACCGATACAGTCCACCCTCTG
GACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGACGCCATTGGAACA
CACATCTACCGAATTCATCGAGCTGGCCAACTACCTCAACCAGTCTCGCG
GTCACACCCACGGCGTTCAATACAAGGTCATAAACATCTTCCGCATCGAG
CGCCAAGGCGAGAAAGACCGATTCCAATCATCCATGTACTCCAATATGAA
GAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTG
GTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTC
AGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGGACATGTCGACCAA
GTCAGCGGGTTACTGCTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCC
TTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGAGCGGGACACTGCA
AGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCT
TGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCA
ATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCGGATGCCGACTACT
AATTCTAACTCAAGGGGTCTGATGTACAATGAGTACATCGTGTACGATGT
GGCTCAGATCCAGCAAAAGTATCTGTTCCATGTCGACATGCGGTAGATGA
CCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTTTTCC
GGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTCATGGGGG
AACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTGACCACCC
AAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCGCAAGGTC
TACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACAGTGC
AGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGACATCAAGA
AAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGCTCTG
GGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCACAGACGGT
CGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCTCTTCGAT
GCCTCATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAAC
AACAAATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGAC
TTGGACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGG
GTGGTGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAG
GACAAGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGG
TAAATACACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAG
ACGAGGACGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCA
GAGGAAGTGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATT
CATCTTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACG
ACGCTCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAAC
GGTTTTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCT
GGCAAGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCA
GCAACCTATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCC
CCGGTGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGA
GGCATTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAA
ACACCGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATG
CAAGAGATGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGC
CAACTACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGG
TCATAAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAA
TCATCCATGTACTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCA
CGGTTCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTA
TTGCACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTC
TACTTTGCGGACATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGG
GAGTGGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATC
CCATGTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAA
GCGGAGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGG
ATGGAAAGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGC
CCGATGTGCGGATGCCGACTACTAATTCTAACTCAAGGGGTCTGATGTAC
AATGAGTACATCGTGTACGATGTGGCTCAGATCCAGCAAAAGTATCTGTT
CCATGTCGACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCA
TAGCCGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAG
ACCATCATCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGA
TTGCACTCATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCA
AATACACGCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGAC
TGGCTTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATT
CCTGATGGGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGA
AGCGCACCCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAG
AAGCTCAAGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGT
CGATGATACATGTCCTCTTCGATGCCTCATCTGGGATGCGACACTCAATC
AGACGAGTGCGACCAACAATAACAACAAATTCTACCGCATTCAGCTTCTC
CACAGAAACAACGAATTCAGGACTTGGACCCACTGGGGTCGGGTAGGCGA
ACATGGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCAGAGT
ATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGAAAAT
CGCTTGGATCCACCAAAGAAGGGTAAATACACCTTCATTGAAAAGAACTA
TGAAGAGGACACGGAAGACGAAGACGAGGACGAAGACAAAGTCGTCGCGA
AGAAACCCACCAAGCCCAAGGCAGAGGAAGTGAAATGCACCTTATCAGCA
CCCGTCCAGGACCTCGTGTCATTCATCTTCAACAAGGATTTTTTTCAGTC
CACCATGGCTTCCATGTCCTACGACGCTCAGAAATTACCCTTGGGGAAGC
TGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCA
GAGCTTATTGCTAATCCTGCCCTGGCAAGTACAAAGTACGATACTAGCTT
TACTGCTGCAGTGGAGCATCTCAGCAACCTATACTTTACCGTGATTCCGC
ATGCATTCGGACGCAACAGACCCCCGGTGTTGAACAACGACAATCTACTC
AAGAGAGAGATCGAACTGCTGGAGGCATTGACCGACATGGAAGTTGCGAA
CAGTATCATGAAAGATGCCAGAAACACCGATACAGTCCACCCTCTGGACC
GTCAGTTCCAGGGCTTGAATATGCAAGAGATGACGCCATTGGAACACACA
TCTACCGAATTCATCGAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCA
CACCCACGGCGTTCAATACAAGGTCATAAACATCTTCCGCATCGAGCGCC
AAGGCGAGAAAGACCGATTCCAATCATCCATGTACTCCAATATGAAGAAC
TCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGG
TATCTTAAGCCAGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCG
GGTACATGTTTGGCAAAGGTGTCTACTTTGCGGACATGTCGACCAAGTCA
GCGGGTTACTGCTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCT
TTGTGACGTTGAGGTCGGCAATCCCATGTATGAGCGGGACACTGCAAGCT
TCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGT
CGTGGTCGCTCGATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGA
AGATCTGAAGGGGGTGTTGATGCCCGATGTGCGGATGCCGACTACTAATT
CTAACTCAAGGGGTCTGATGTACAATGAGTACATCGTGTACGATGTGGCT
CAGATCCAGCAAAAGTATCTGTTCCATGTCGACATGCGGTAGATGACCGG
CCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTTTTCCGGTG
GCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTCATGGGGGAACT
TTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTGACCACCCAAAG
GGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCGCAAGGTCTACA
CCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACAGTGCAGGA
AAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGACATCAAGAAAGA
CGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGCTCTGGGAA
TTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCACAGACGGTCGGC
ACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCTCTTCGATGCCT
CATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACA
AATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGG
ACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGG
TGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACA
AGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAA
TACACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGA
GGACGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGG
AAGTGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATC
TTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGC
TCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTT
TTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCA
AGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAA
CCTATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGG
TGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCA
TTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACAC
CGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAG
AGATGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAAC
TACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCAT
AAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAATCAT
CCATGTACTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCACGGT
TCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGC
ACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACT
TTGCGGACATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGGGAGT
GGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCAT
GTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGG
AGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGG
AAAGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGA
TGTGCGGATGCCGACTACTAATTCTAACTCAAGGGGTCTGATGTACAATG
AGTACATCGTGTACGATGTGGCTCAGATCCAGCAAAAGTATCTGTTCCAT
GTCGACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGC
CGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCA
TCATCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGC
ACTCATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATA
CACGCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGC
TTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTG
ATGGGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCG
CACCCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGC
TCAAGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGAT
GATACATGTCCTCTTCGATGCCTCATCTGGGATGCGACACTCAATCAGAC
GAGTGCGACCAACAATAACAACAAATTCTACCGCATTCAGCTTCTCCACA
GAAACAACGAATTCAGGACTTGGACCCACTGGGGTCGGGTAGGCGAACAT
GGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCAGAGTATGA
GTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGAAAATCGCT
TGGATCCACCAAAGAAGGGTAAATACACCTTCATTGAAAAGAACTATGAA
GAGGACACGGAAGACGAAGACGAGGACGAAGACAAAGTCGTCGCGAAGAA
ACCCACCAAGCCCAAGGCAGAGGAAGTGAAATGCACCTTATCAGCACCCG
TCCAGGACCTCGTGTCATTCATCTTCAACAAGGATTTTTTTCAGTCCACC
ATGGCTTCCATGTCCTACGACGCTCAGAAATTACCCTTGGGGAAGCTGAG
CAAGCGTACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCAGAGC
TTATTGCTAATCCTGCCCTGGCAAGTACAAAGTACGATACTAGCTTTACT
GCTGCAGTGGAGCATCTCAGCAACCTATACTTTACCGTGATTCCGCATGC
ATTCGGACGCAACAGACCCCCGGTGTTGAACAACGACAATCTACTCAAGA
GAGAGATCGAACTGCTGGAGGCATTGACCGACATGGAAGTTGCGAACAGT
ATCATGAAAGATGCCAGAAACACCGATACAGTCCACCCTCTGGACCGTCA
GTTCCAGGGCTTGAATATGCAAGAGATGACGCCATTGGAACACACATCTA
CCGAATTCATCGAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCACACC
CACGGCGTTCAATACAAGGTCATAAACATCTTCCGCATCGAGCGCCAAGG
CGAGAAAGACCGATTCCAATCATCCATGTACTCCAATATGAAGAACTCCT
GTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGGTATC
TTAAGCCAGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGTA
CATGTTTGGCAAAGGTGTCTACTTTGCGGACATGTCGACCAAGTCAGCGG
GTTACTGCTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTGT
GACGTTGAGGTCGGCAATCCCATGTATGAGCGGGACACTGCAAGCTTCAA
CGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGTG
GTCGCTCGATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGAAGAT
CTGAAGGGGGTGTTGATGCCCGATGTGCGGATGCCGACTACTAATTCTAA
CTCAAGGGGTCTGATGTACAATGAGTACATCGTGTACGATGTGGCTCAGA
TCCAGCAAAAGTATCTGTTCCATGTCGACATGCGGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006471 | protein ADP-ribosylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003950 | NAD+ ADP-ribosyltransferase activity |
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 |
|---|
| DBxref | InterPro:IPR036930 |
| DBxref | InterPro:IPR036420 |
| DBxref | InterPro:IPR036616 |
| DBxref | InterPro:IPR012317 |
| DBxref | InterPro:IPR004102 |
| DBxref | InterPro:IPR008893 |
| DBxref | InterPro:IPR001357 |
| DBxref | PFAM:PF05406 |
| DBxref | PFAM:PF12738 |
| DBxref | PFAM:PF02877 |
| DBxref | PFAM:PF00644 |
| DBxref | PFAM:PF00533 |
| 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 |
|---|
| ACJE01000020.1 | supercontig | ACJE01000020.1:227289..229500 + |
|
