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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:235505..237716+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_42640-T1 ID=CAN33_42640-T1|Name=CAN33_42640-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2212bp|location=Sequence derived from alignment at NKJJ01000022.1:235505..237716+ (Aspergillus niger FDAARGOS_311)
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 NKJJ01000022.1:235505..237716+ >CAN33_42640-T1 ID=CAN33_42640-T1|Name=CAN33_42640-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12789bp|location=Sequence derived from alignment at NKJJ01000022.1:235505..237716+ (Aspergillus niger FDAARGOS_311)
ATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTT
TTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGTCATG
GGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGTGACC
ACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTCGCAA
GGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACA
GTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGACATC
AAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGC
TCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCACAGA
CGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCCTCTT
CGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATCTGGGATGC
GACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATTCTACCGCA
TTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCCACTGGGGT
CGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGA
TGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGA
CCTGGGAAAATCGCTTGGATCCACCAAAGAAGGCACCCGTCCAGGACCTC
GTGTCATTCATCTTCAACAAGGATTTTTTTCAGTCCACCATGGCTTCCAT
GTCCTACGACGCTCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTC
TCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCAGAGCTTATTGCTAAT
CCTGCCCTGGCAAGTACAAAGTACGATACTAGCTTTACTGCTGCAGTGGA
GCATCTCAGCAACCTATACTTTACCGTGATTCCGCATGCATTCGGACGCA
ACAGACCCCCGGTGTTGAACAACGACAATCTACTCAAGAGAGAGATCGAA
CTGCTGGAGGCATTGACCGACATGGAAGTTGCGAACAGTATCATGAAAGA
TGCCAGAAACACCGATACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCT
TGAATATGCAAGAGATGACGCCATTGGAACACACATCTACCGAATTCATC
GAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCACACCCACGGCGTTCA
ATACAAGGTCATAAACATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACC
GATTCCAATCATCCATGTACTCCAATATGAAGAACTCCTGTCGCCGTCTC
CTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGG
TCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCA
AAGGTGTCTACTTTGCGGACATGTCGACCAAGTCAGCGGGTTACTGCTTC
TCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGT
CGGCAATCCCATGTATGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAG
AAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATC
CCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGT
GTTGATGCCCGATGTGCGGATGCCGACTACTAATTCTAACTCAAGGGGTC
TGATGTACAATGAGTACATCGTGTACGATGTGGCTCAGATCCAGCAAAAG
TATCTGTTCCATGTCGACATGCGGTAGATGACCGGCCAAGCTTTCAAGGG
CTTGGTCATAGCCGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAA
ATCTGAAGACCATCATCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTG
ACGGAAGATTGCACTCATCTAGTGACCACCCAAAGGGAAGTGGACAACAA
GAGCGTCAAATACACGCAGGCTCGCAAGGTCTACACCTGCAACATCGTCT
CCTTAGACTGGCTTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAG
AAGAAATTCCTGATGGGCTCCGACATCAAGAAAGACGATGAGCCGGAAAG
TCCAAAGAAGCGCACCCTAGAACAGGCTCTGGGAATTAACGAGGATGGCA
CTACGAAGAAGCTCAAGGACGCACAGACGGTCGGCACCAAACAAATCAAT
GTTCCTGTCGATGATACATGTCCTCTTCGATTGACCTTCACCGTGTACAT
TGATCCCACAGGCCTCATCTGGGATGCGACACTCAATCAGACGAGTGCGA
CCAACAATAACAACAAATTCTACCGCATTCAGCTTCTCCACAGAAACAAC
GAATTCAGGACTTGGACCCACTGGGGTCGGGTAGGCGAACATGGACAACA
CGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGA
AAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCA
CCAAAGAAGGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAACAAGGA
TTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAAATTAC
CCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGCACTG
AAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACAAAGTA
CGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATACTTTA
CCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGAACAAC
GACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACCGACAT
GGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGATACAGTCC
ACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGACGCCA
TTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTACCTCAACCA
GTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAACATCTTCC
GCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAATCATCCATGTACTCC
AATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCAC
CAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCCCGAGG
CCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGGACATG
TCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGGGAGTGGAAACAGGGG
TCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGAGCGGG
ACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATT
GCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAAGACGCTGG
CTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCGGATGC
CGACTACTAATTCTAACTCAAGGGGTCTGATGTACAATGAGTACATCGTG
TACGATGTGGCTCAGATCCAGCAAAAGTATCTGTTCCATGTCGACATGCG
GTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCTGGGT
CCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCAGCGT
CATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATCTAGT
GACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAGGCTC
GCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGAGTCA
GACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCTCCGA
CATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTAGAAC
AGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGACGCA
CAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACATGTCC
TCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATCTGGG
ATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATTCTAC
CGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCCACTG
GGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGCGGCT
TAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTCCGGC
TTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGCACCCGTCCAGGA
CCTCGTGTCATTCATCTTCAACAAGGATTTTTTTCAGTCCACCATGGCTT
CCATGTCCTACGACGCTCAGAAATTACCCTTGGGGAAGCTGAGCAAGCGT
ACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCAGAGCTTATTGC
TAATCCTGCCCTGGCAAGTACAAAGTACGATACTAGCTTTACTGCTGCAG
TGGAGCATCTCAGCAACCTATACTTTACCGTGATTCCGCATGCATTCGGA
CGCAACAGACCCCCGGTGTTGAACAACGACAATCTACTCAAGAGAGAGAT
CGAACTGCTGGAGGCATTGACCGACATGGAAGTTGCGAACAGTATCATGA
AAGATGCCAGAAACACCGATACAGTCCACCCTCTGGACCGTCAGTTCCAG
GGCTTGAATATGCAAGAGATGACGCCATTGGAACACACATCTACCGAATT
CATCGAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCACACCCACGGCG
TTCAATACAAGGTCATAAACATCTTCCGCATCGAGCGCCAAGGCGAGAAA
GACCGATTCCAATCATCCATGTACTCCAATATGAAGAACTCCTGTCGCCG
TCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGGTATCTTAAGCC
AGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGTACATGTTT
GGCAAAGGTGTCTACTTTGCGGACATGTCGACCAAGTCAGCGGGTTACTG
CTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTGTGACGTTG
AGGTCGGCAATCCCATGTATGAGCGGGACACTGCAAGCTTCAACGCGGGC
CAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGTGGTCGCTC
GATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGAAGATCTGAAGG
GGGTGTTGATGCCCGATGTGCGGATGCCGACTACTAATTCTAACTCAAGG
GGTCTGATGTACAATGAGTACATCGTGTACGATGTGGCTCAGATCCAGCA
AAAGTATCTGTTCCATGTCGACATGCGGTAGATGACCGGCCAAGCTTTCA
AGGGCTTGGTCATAGCCGTTGCTGGGTCCTTTTCCGGTGGCTACAAACAA
GCAAATCTGAAGACCATCATCCAGCGTCATGGGGGAACTTTCAGCTCAGC
AGTGACGGAAGATTGCACTCATCTAGTGACCACCCAAAGGGAAGTGGACA
ACAAGAGCGTCAAATACACGCAGGCTCGCAAGGTCTACACCTGCAACATC
GTCTCCTTAGACTGGCTTGTTGAGTCAGACAGTGCAGGAAAGAAGTTGGA
TGAGAAGAAATTCCTGATGGGCTCCGACATCAAGAAAGACGATGAGCCGG
AAAGTCCAAAGAAGCGCACCCTAGAACAGGCTCTGGGAATTAACGAGGAT
GGCACTACGAAGAAGCTCAAGGACGCACAGACGGTCGGCACCAAACAAAT
CAATGTTCCTGTCGATGATACATGTCCTCTTCGATTGACCTTCACCGTGT
ACATTGATCCCACAGGCCTCATCTGGGATGCGACACTCAATCAGACGAGT
GCGACCAACAATAACAACAAATTCTACCGCATTCAGCTTCTCCACAGAAA
CAACGAATTCAGGACTTGGACCCACTGGGGTCGGGTAGGCGAACATGGAC
AACACGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCAGAGTATGAGTTC
AAGAAAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGAAAATCGCTTGGA
TCCACCAAAGAAGGCACCCGTCCAGGACCTCGTGTCATTCATCTTCAACA
AGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCAGAAA
TTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTCAGGC
ACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGTACAA
AGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCTATAC
TTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGTTGAA
CAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTGACCG
ACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGATACA
GTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGATGAC
GCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTACCTCA
ACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAACATC
TTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAATCATCCATGTA
CTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCTCGCA
GCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACCGCCC
GAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTGCGGA
CATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGGGAGTGGAAACA
GGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTATGAG
CGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGGCCAA
AATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAAGACG
CTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGTGCGG
ATGCCGACTACTAATTCTAACTCAAGGGGTCTGATGTACAATGAGTACAT
CGTGTACGATGTGGCTCAGATCCAGCAAAAGTATCTGTTCCATGTCGACA
TGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGTTGCT
GGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCATCCA
GCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACTCATC
TAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACACGCAG
GCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTGTTGA
GTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATGGGCT
CCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCACCCTA
GAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCAAGGA
CGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGATACAT
GTCCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCTCATC
TGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACAAATT
CTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGGACCC
ACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGGTGGC
GGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACAAGTC
CGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGCACCCGTCC
AGGACCTCGTGTCATTCATCTTCAACAAGGATTTTTTTCAGTCCACCATG
GCTTCCATGTCCTACGACGCTCAGAAATTACCCTTGGGGAAGCTGAGCAA
GCGTACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCAGAGCTTA
TTGCTAATCCTGCCCTGGCAAGTACAAAGTACGATACTAGCTTTACTGCT
GCAGTGGAGCATCTCAGCAACCTATACTTTACCGTGATTCCGCATGCATT
CGGACGCAACAGACCCCCGGTGTTGAACAACGACAATCTACTCAAGAGAG
AGATCGAACTGCTGGAGGCATTGACCGACATGGAAGTTGCGAACAGTATC
ATGAAAGATGCCAGAAACACCGATACAGTCCACCCTCTGGACCGTCAGTT
CCAGGGCTTGAATATGCAAGAGATGACGCCATTGGAACACACATCTACCG
AATTCATCGAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCACACCCAC
GGCGTTCAATACAAGGTCATAAACATCTTCCGCATCGAGCGCCAAGGCGA
GAAAGACCGATTCCAATCATCCATGTACTCCAATATGAAGAACTCCTGTC
GCCGTCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGGTATCTTA
AGCCAGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGTACAT
GTTTGGCAAAGGTGTCTACTTTGCGGACATGTCGACCAAGTCAGCGGGTT
ACTGCTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTGTGAC
GTTGAGGTCGGCAATCCCATGTATGAGCGGGACACTGCAAGCTTCAACGC
GGGCCAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGTGGTC
GCTCGATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGAAGATCTG
AAGGGGGTGTTGATGCCCGATGTGCGGATGCCGACTACTAATTCTAACTC
AAGGGGTCTGATGTACAATGAGTACATCGTGTACGATGTGGCTCAGATCC
AGCAAAAGTATCTGTTCCATGTCGACATGCGGTAGATGACCGGCCAAGCT
TTCAAGGGCTTGGTCATAGCCGTTGCTGGGTCCTTTTCCGGTGGCTACAA
ACAAGCAAATCTGAAGACCATCATCCAGCGTCATGGGGGAACTTTCAGCT
CAGCAGTGACGGAAGATTGCACTCATCTAGTGACCACCCAAAGGGAAGTG
GACAACAAGAGCGTCAAATACACGCAGGCTCGCAAGGTCTACACCTGCAA
CATCGTCTCCTTAGACTGGCTTGTTGAGTCAGACAGTGCAGGAAAGAAGT
TGGATGAGAAGAAATTCCTGATGGGCTCCGACATCAAGAAAGACGATGAG
CCGGAAAGTCCAAAGAAGCGCACCCTAGAACAGGCTCTGGGAATTAACGA
GGATGGCACTACGAAGAAGCTCAAGGACGCACAGACGGTCGGCACCAAAC
AAATCAATGTTCCTGTCGATGATACATGTCCTCTTCGATTGACCTTCACC
GTGTACATTGATCCCACAGGCCTCATCTGGGATGCGACACTCAATCAGAC
GAGTGCGACCAACAATAACAACAAATTCTACCGCATTCAGCTTCTCCACA
GAAACAACGAATTCAGGACTTGGACCCACTGGGGTCGGGTAGGCGAACAT
GGACAACACGCTTTGCTGGGTGGTGGCGGCTTAGATGAGGCAGAGTATGA
GTTCAAGAAAAAGTTCAAGGACAAGTCCGGCTTGACCTGGGAAAATCGCT
TGGATCCACCAAAGAAGGCACCCGTCCAGGACCTCGTGTCATTCATCTTC
AACAAGGATTTTTTTCAGTCCACCATGGCTTCCATGTCCTACGACGCTCA
GAAATTACCCTTGGGGAAGCTGAGCAAGCGTACTCTCCAGAACGGTTTTC
AGGCACTGAAGGATCTGTCAGAGCTTATTGCTAATCCTGCCCTGGCAAGT
ACAAAGTACGATACTAGCTTTACTGCTGCAGTGGAGCATCTCAGCAACCT
ATACTTTACCGTGATTCCGCATGCATTCGGACGCAACAGACCCCCGGTGT
TGAACAACGACAATCTACTCAAGAGAGAGATCGAACTGCTGGAGGCATTG
ACCGACATGGAAGTTGCGAACAGTATCATGAAAGATGCCAGAAACACCGA
TACAGTCCACCCTCTGGACCGTCAGTTCCAGGGCTTGAATATGCAAGAGA
TGACGCCATTGGAACACACATCTACCGAATTCATCGAGCTGGCCAACTAC
CTCAACCAGTCTCGCGGTCACACCCACGGCGTTCAATACAAGGTCATAAA
CATCTTCCGCATCGAGCGCCAAGGCGAGAAAGACCGATTCCAATCATCCA
TGTACTCCAATATGAAGAACTCCTGTCGCCGTCTCCTGTGGCACGGTTCT
CGCAGCACCAATTTTGGTGGTATCTTAAGCCAGGGTCTACGTATTGCACC
GCCCGAGGCCCCCGTCAGCGGGTACATGTTTGGCAAAGGTGTCTACTTTG
CGGACATGTCGACCAAGTCAGCGGGTTACTGCTTCTCTTGGGGGAGTGGA
AACAGGGGTCTGCTCCTTCTTTGTGACGTTGAGGTCGGCAATCCCATGTA
TGAGCGGGACACTGCAAGCTTCAACGCGGGCCAAGAAGCTAAAGCGGAGG
CCAAAATTGCCACTCTTGGTCGTGGTCGCTCGATCCCTGGTGGATGGAAA
GACGCTGGCTGTGTCAATGAAGATCTGAAGGGGGTGTTGATGCCCGATGT
GCGGATGCCGACTACTAATTCTAACTCAAGGGGTCTGATGTACAATGAGT
ACATCGTGTACGATGTGGCTCAGATCCAGCAAAAGTATCTGTTCCATGTC
GACATGCGGTAGATGACCGGCCAAGCTTTCAAGGGCTTGGTCATAGCCGT
TGCTGGGTCCTTTTCCGGTGGCTACAAACAAGCAAATCTGAAGACCATCA
TCCAGCGTCATGGGGGAACTTTCAGCTCAGCAGTGACGGAAGATTGCACT
CATCTAGTGACCACCCAAAGGGAAGTGGACAACAAGAGCGTCAAATACAC
GCAGGCTCGCAAGGTCTACACCTGCAACATCGTCTCCTTAGACTGGCTTG
TTGAGTCAGACAGTGCAGGAAAGAAGTTGGATGAGAAGAAATTCCTGATG
GGCTCCGACATCAAGAAAGACGATGAGCCGGAAAGTCCAAAGAAGCGCAC
CCTAGAACAGGCTCTGGGAATTAACGAGGATGGCACTACGAAGAAGCTCA
AGGACGCACAGACGGTCGGCACCAAACAAATCAATGTTCCTGTCGATGAT
ACATGTCCTCTTCGATTGACCTTCACCGTGTACATTGATCCCACAGGCCT
CATCTGGGATGCGACACTCAATCAGACGAGTGCGACCAACAATAACAACA
AATTCTACCGCATTCAGCTTCTCCACAGAAACAACGAATTCAGGACTTGG
ACCCACTGGGGTCGGGTAGGCGAACATGGACAACACGCTTTGCTGGGTGG
TGGCGGCTTAGATGAGGCAGAGTATGAGTTCAAGAAAAAGTTCAAGGACA
AGTCCGGCTTGACCTGGGAAAATCGCTTGGATCCACCAAAGAAGGCACCC
GTCCAGGACCTCGTGTCATTCATCTTCAACAAGGATTTTTTTCAGTCCAC
CATGGCTTCCATGTCCTACGACGCTCAGAAATTACCCTTGGGGAAGCTGA
GCAAGCGTACTCTCCAGAACGGTTTTCAGGCACTGAAGGATCTGTCAGAG
CTTATTGCTAATCCTGCCCTGGCAAGTACAAAGTACGATACTAGCTTTAC
TGCTGCAGTGGAGCATCTCAGCAACCTATACTTTACCGTGATTCCGCATG
CATTCGGACGCAACAGACCCCCGGTGTTGAACAACGACAATCTACTCAAG
AGAGAGATCGAACTGCTGGAGGCATTGACCGACATGGAAGTTGCGAACAG
TATCATGAAAGATGCCAGAAACACCGATACAGTCCACCCTCTGGACCGTC
AGTTCCAGGGCTTGAATATGCAAGAGATGACGCCATTGGAACACACATCT
ACCGAATTCATCGAGCTGGCCAACTACCTCAACCAGTCTCGCGGTCACAC
CCACGGCGTTCAATACAAGGTCATAAACATCTTCCGCATCGAGCGCCAAG
GCGAGAAAGACCGATTCCAATCATCCATGTACTCCAATATGAAGAACTCC
TGTCGCCGTCTCCTGTGGCACGGTTCTCGCAGCACCAATTTTGGTGGTAT
CTTAAGCCAGGGTCTACGTATTGCACCGCCCGAGGCCCCCGTCAGCGGGT
ACATGTTTGGCAAAGGTGTCTACTTTGCGGACATGTCGACCAAGTCAGCG
GGTTACTGCTTCTCTTGGGGGAGTGGAAACAGGGGTCTGCTCCTTCTTTG
TGACGTTGAGGTCGGCAATCCCATGTATGAGCGGGACACTGCAAGCTTCA
ACGCGGGCCAAGAAGCTAAAGCGGAGGCCAAAATTGCCACTCTTGGTCGT
GGTCGCTCGATCCCTGGTGGATGGAAAGACGCTGGCTGTGTCAATGAAGA
TCTGAAGGGGGTGTTGATGCCCGATGTGCGGATGCCGACTACTAATTCTA
ACTCAAGGGGTCTGATGTACAATGAGTACATCGTGTACGATGTGGCTCAG
ATCCAGCAAAAGTATCTGTTCCATGTCGACATGCGGTAG 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:IPR004102 |
| DBxref | InterPro:IPR036420 |
| DBxref | InterPro:IPR036616 |
| DBxref | InterPro:IPR012317 |
| DBxref | InterPro:IPR008893 |
| DBxref | InterPro:IPR001357 |
| DBxref | PFAM:PF05406 |
| DBxref | PFAM:PF12738 |
| DBxref | PFAM:PF02877 |
| DBxref | PFAM:PF00644 |
| DBxref | PFAM:PF00533 |
| Product | Poly(ADP-ribose) polymerase catalytic domain family 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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:235505..237716 + |
|
