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Sequences
The following sequences are available for this feature:
mRNA from alignment at An18:227427..229638+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_010762-T1 ID=CBS51388_010762-T1|Name=CBS51388_010762-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2212bp|location=Sequence derived from alignment at An18:227427..229638+ (Aspergillus niger CBS 513.88)
ATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTT
TTCCGGTGGCTACAAACAAGGTGAGCATGTCTGACGTTACTGCCAGAAGC
CACATACTGATTTTACTCACTTCAAATAGCAAATCTGAAGACCATCATCC
AGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCAT
CTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATGTGAGTA
CCAAGCAGAGCCCTGTCTACACCTTCTGCTGACAATTCTTAGACACGCAG
GCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGA
GTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCT
CCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTA
GAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGA
CGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACAT
GTCCTCTTCGATGTAAGAGACACCGAATTTGGATAGCCTAAAGGGAAAGC
TAACGTGAATAGTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATC
TGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATT
CTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCC
ACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGC
GGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTC
CGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATACA
CCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGAC
GAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGT
GAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTCA
ACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAG
AAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCA
GGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTA
CAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTA
TACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTT
GAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGA
CCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGAT
ACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGAT
GACGCCATGTACGTCTGGTCCCTGTAGCCTTGCCCCGTTGACTAGTACTA
ACTCTAAGCAGTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACT
ACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTTCGT
ATCTGATGCACCATTTTTAATGAACCAAGTTAACCGTAACAGGTCATAAA
CATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCATCCA
TGTACTCCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCT
CGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACC
GCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTG
CGGATATGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGTGGA
AACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTA
TGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGG
CCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAG
GACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGT
GCGGATGCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACAATGAGT
ACATTGTGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCATGTC
GACATGCGGTAG back to topCoding sequence (CDS) from alignment at An18:227427..229638+ >CBS51388_010762-T1 ID=CBS51388_010762-T1|Name=CBS51388_010762-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=11718bp|location=Sequence derived from alignment at An18:227427..229638+ (Aspergillus niger CBS 513.88)
ATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTT
TTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTCATG
GGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTGACC
ACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCGCAA
GGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACA
GTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGACATC
AAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGC
TCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCACAGA
CGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCTCTT
CGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATCTGGGATGC
GACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATTCTACCGCA
TTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCCACTGGGGT
CGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGA
TGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGA
CCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATACACCTTCATT
GAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGACGAAGACAA
AGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGTGAAATGCA
CCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAACAAGGAT
TTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAAATTACC
CTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGCACTGA
AGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACAAAGTAC
GATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATACTTTAC
CGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGAACAACG
ACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACCGACATG
GAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGATACAGTCCA
CCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGACGCCAT
TGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTACCTCAACCAG
TCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAACATCTTCCG
CATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCATCCATGTACTCCA
ATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCACC
AATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCCCGAGGC
CCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGGATATGT
CGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGTGGAAACAGGGGT
CTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGAGCGGGA
CACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATTG
CCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAGGACGCTGGC
TGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCGGATGCC
GACCACTAATTCTAACTCGAGGGGGCTGATGTACAATGAGTACATTGTGT
ACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCATGTCGACATGCGG
TAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTC
CTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTC
ATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTG
ACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCG
CAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAG
ACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGAC
ATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACA
GGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCAC
AGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCT
CTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATCTGGGA
TGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATTCTACC
GCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCCACTGG
GGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGGCTT
AGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGCT
TGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATACACCTTC
ATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGACGAAGA
CAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGTGAAAT
GCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAACAAG
GATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAAATT
ACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGCAC
TGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACAAAG
TACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATACTT
TACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGAACA
ACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACCGAC
ATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGATACAGT
CCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGACGC
CATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTACCTCAAC
CAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAACATCTT
CCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCATCCATGTACT
CCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGC
ACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCCCGA
GGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGGATA
TGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGTGGAAACAGG
GGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGAGCG
GGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAA
TTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAGGACGCT
GGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCGGAT
GCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACAATGAGTACATTG
TGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCATGTCGACATG
CGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGG
GTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGC
GTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTA
GTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGC
TCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGT
CAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCC
GACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGA
ACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACG
CACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGT
CCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATCTG
GGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATTCT
ACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCCAC
TGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGG
CTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCG
GCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATACACC
TTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGACGA
AGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAGTGA
AATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAAC
AAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAA
ATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGG
CACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACA
AAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATA
CTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGA
ACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACC
GACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGATAC
AGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGA
CGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTACCTC
AACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAACAT
CTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCATCCATGT
ACTCCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGC
AGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCC
CGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGG
ATATGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGTGGAAAC
AGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGA
GCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCA
AAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAGGAC
GCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCG
GATGCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACAATGAGTACA
TTGTGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCATGTCGAC
ATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGC
TGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCC
AGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCAT
CTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCA
GGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTG
AGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGC
TCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCT
AGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGG
ACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACA
TGTCCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCAT
CTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAAT
TCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACC
CACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGG
CGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGT
CCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAATAC
ACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGAGGA
CGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGGAAG
TGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATCTTC
AACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCA
GAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTC
AGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGT
ACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCT
ATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGT
TGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTG
ACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGA
TACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGA
TGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTAC
CTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAA
CATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCATCCA
TGTACTCCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCT
CGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACC
GCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTG
CGGATATGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGTGGA
AACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTA
TGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGG
CCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAG
GACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGT
GCGGATGCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACAATGAGT
ACATTGTGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCATGTC
GACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGT
TGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCA
TCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACT
CATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACAC
GCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTG
TTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATG
GGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCAC
CCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCA
AGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGAT
ACATGTCCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCT
CATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACA
AATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGG
ACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGG
TGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACA
AGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGTAAA
TACACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGACGA
GGACGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAGAGG
AAGTGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTCATC
TTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGC
TCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTT
TTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCA
AGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAA
CCTATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGG
TGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCA
TTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACAC
CGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAG
AGATGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAAC
TACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCAT
AAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAATCAT
CCATGTACTCCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCACGGT
TCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGC
ACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACT
TTGCGGATATGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGGAGT
GGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCAT
GTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGG
AGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGG
AAGGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGA
TGTGCGGATGCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACAATG
AGTACATTGTGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTCCAT
GTCGACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGC
CGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCA
TCATCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGC
ACTCATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATA
CACGCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGC
TTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTG
ATGGGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCG
CACCCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGC
TCAAGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGAT
GATACATGTCCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGG
CCTCATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACA
ACAAATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACT
TGGACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGG
TGGTGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGG
ACAAGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGGT
AAATACACCTTCATTGAAAAGAACTATGAAGAGGACACGGAAGACGAAGA
CGAGGACGAAGACAAAGTCGTCGCGAAGAAACCCACCAAGCCCAAGGCAG
AGGAAGTGAAATGCACCTTATCAGCACCCGTCCAGGACCTCGTGTCATTC
ATCTTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGA
CGCTCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACG
GTTTTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTG
GCAAGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAG
CAACCTATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCC
CGGTGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAG
GCATTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAA
CACCGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGC
AAGAGATGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCC
AACTACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGT
CATAAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGGTTCCAAT
CATCCATGTACTCCAATATCCAAAACTCCTGTCGCCGTCTCCTGTGGCAC
GGTTCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTAT
TGCACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCT
ACTTTGCGGATATGTCGACCAAGTCAGCGGGTTACTGTTTCTCTTGGGGG
AGTGGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCC
CATGTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAG
CGGAGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGA
TGGAAGGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCC
CGATGTGCGGATGCCGACCACTAATTCTAACTCGAGGGGGCTGATGTACA
ATGAGTACATTGTGTACGATGTGGCTCAGATCCAGCAGAAGTATCTGTTC
CATGTCGACATGCGGTAG 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:IPR004102 |
| DBxref | InterPro:IPR036616 |
| DBxref | InterPro:IPR012317 |
| DBxref | InterPro:IPR036420 |
| DBxref | InterPro:IPR036930 |
| DBxref | InterPro:IPR001357 |
| DBxref | InterPro:IPR008893 |
| 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 |
|---|
| An18 | supercontig | An18:227427..229638 + |
|
