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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:373372..378198- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_175538-T1 ID=ASPNIDRAFT_175538-T1|Name=ASPNIDRAFT_175538-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=4827bp|location=Sequence derived from alignment at ACJE01000010.1:373372..378198- (Aspergillus niger ATCC 1015)
GTGCTACCTCGAGCTGCCACGAAACGTGCGCAGCTCACCGTCACGACGTC
TTCCACAAAGCGCCGTAAAGTAGCAGAGCCTCGCAGACCAGGATCGCTTC
CGGGTTTGTCGTTCGCCTCGCAGGCCGGAAGACGTCACGGCCATTCCTCC
TCCGACAAGGCCTCGCCCTCGCGCTCCTCCCGTCACCCTTCCTCTCCTTC
CCGATCGCATCGCAGCACTCAGAGCTCCTCGGCTTCACCGCCTCCCCGCT
ACATTCCCGCCCATCTGCAGGACGAAGTCCTCGCCTCCAAATCCCAGTCC
ACCGCTCGTTCCCCTACCCCGGACTCCGCTGGAAGTGTCCTCGACTATCC
CGCGGCCGCCTGCGCTGGTCTGACCCTCCACAGCGACCCTGCGACCGATA
TGTCCGGCTCTGACGACAAGGGAGACTCGAACCTCCCGCTTGCCGGGTCC
GATGCTCGCGAAACCTCCGCCTCGGAGAATGAGGTGAACGATGTGGAGAT
GGACTTGGTTCCGACAGAAAAGGACAGCCAGACCCGTTCCGACCACCCGG
ATTCGATGGAAACCACGACATCGGGCGATGACAACGTAACCAACTCGGCG
TCGGACAGTGTGTATCCCACTCCTTCCAGCATGTCCACCTATACCGCCCC
CACAGAGACCCGGGCCCATTCTAAAGCAGAGGCCGGGGTTGCGTCAGCTG
ATCGACCATCTTACGATGACCAGGTCGCACAGGTGACCCAGTTTATGATG
CAGCCGATGAAGGAGAAACAAAAGGGATATGTGGTGTCGAATTCGTGGCT
GAAGCGAGTGTACTCGCGGAGTGCTACTCATGCAGACAAGGCTGATAAGA
CGGCGATGGAGGGAGATATCGGACCAGTCGATAACTCGGATATTGTTCTG
GTCACCGACCCGGCCAACACTGGTTTCAAGGACGAGGAAGGAGAACCCTT
TGTTCCTTTGAGGCCTGGCTTGGAGCTTGGCGAAGATTTTGAGATTATCC
CTCAAGGGGGCTGGGACCTGATCATGCAGTGGTATGGTCTGGCAGAACAG
TCCCCGGCCATCGTCCGTTACGTTCACAACACCGCCGCCGTAGGCGACCA
GGAGAACCTCCAATACGAGATCAACCCTCCGATCTTCACGATCTTGAAGC
TCACGAACCCCTCTGCCGGCACTTCTATCAAGACGATGAAGGAGAAGACG
ATGGCCCCAGTGAGGACACTGGCCAGTCGACACACCAACTTCCAGAAGTG
GCTGAAGAACGCCAAAGAACTCGCTCAAATCGACATGTCGACGAAGGTTC
GTGTTTGGAGGATTCTGGGTGGTCTCGGTAGCGCCACCGCATCGGCAGCA
GCCACCCCAGCTGCATCCCGCAGTGCTTCTCCAGCTCCGTCCGCCTCCCT
CATCGCCAACGCTGGAAGCAACCTCGTTCTCGACCTGAACACCTTCCTTT
CCCTGTCGGAGGGGTCGCAGCGTGAGGTACTTGACGAGCCGAAGGACCAG
ACGAACAATCCCAACTACAATGGTAAAATGACTCTGGGCGTTGCGGGTCT
CAACAGCAGCGAAATCATCGTGCTGGAAGAGAAGCTCCCTGGAACGAGCG
GAGAATGGGTATCGGAAGCCTCCAAGCAGACACTTAACCGTCTGGGGGTG
CCGTCCGGTAGCCTAAAGAACGGAGCTCCCGCAAAGGTGAAGACCAAGAG
TCCTGCTACCAGCGGGCGATCGTCTCCGGTCTCAGAACCCATCAGGGGTC
GACGCAAGGACGGGAAACCCCGCGGCTGCACTGGTTTGAGCAATCTTGGA
AACACTTGTTACATGAACTCGGCCCTGCAGTGCGTTCGCAGTGTCGAGGA
ATTAACCTACTATTTCTTGAGTGCGTCAGACCTCCGCCCTAAGAAAATGT
ACTCCGCTAATTATCTATCTAGATGACGTTTACAAGAAGGACCTCAACCC
CAGCAATCCTCTAGCTCATAATGGTGATGTGGCTAAAGCATACGCGAATA
TGTTGCGTCAGATGTATGATGAGGCAGGACAATCTTCGTTTGCGCCCCGT
CAGCTGAAGCACACCATCGGCCGCTATGGACCGGCCTTCTCCGGTTACGG
ACAGCAGGATTCCCAGGAATTCCTTCTCTTCCTTCTGGATGGTCTTCAGG
AGGATCTGAACCGTATTATGAAGAAGCCCTACATTGAAAAGCCGGACTCG
ACGGACGAGATGGTGCATAACAAGGAAGCTCTCGCAGAGTTTGCGGACAA
GTGCTGGGATATCTACAAAGCCCGTAACGACTCCGTCATTACCGACCTCT
TTGCTGGTATGTACAAGTCGACGCTGGTCTGCCCTGCTTGCGACAAGGTC
AGCATCATTTTCGACCCTTTCAACAACCTGACCCTTCAGCTTCCGATCGA
GAATCTCTGGGGTAAAGAGATTTTCTACTTCCCTCTCAACAAGAAGCCGG
TCCTTGTCGATGTCGAAATCGACAAGAACGCCAGTGTCAAGGCGCTGAAG
GAGCAGGTCGCAAAGAAAATGGGAACCGACCCTGAGCGCCTCGTGATGGC
TGAGATCTACAAGAACAAGTTCTACAAGATGTTCGACAACACGAGCTCGA
TTGCGGAGTGCCAGATCAGCGGCAACGACGACATTGGTATCTACGAAGTC
GAGTCAGTACCTACGAACTACAACCCCGACAAGCCCCAGAAGAGCTACTT
CTCCTTCAGTCGCTCGGATCATGAGGAGATCCCCAGTTTGGACTCGCCTC
GATCTGACCGCTTGCTCGTCCCCATCTTTAACCGAGTCGAGAAGAAACGG
GGAAACAACCCCAAGAATGCGCAACGGTCGCTCTTCGGAGTTCCATCGTA
TGTGGTCATCAATCGGGAGGAGTTTGGGGACTACGATACGATCTTCCGCA
AGGTCCTGTCGCAGGTCGCCTCGATGTCCACCCGTGACTTCCTGAATGAG
GAGAATACGACCGAGGTCAGCCATGAAGACTCAGACACCGTTATTATGAA
CGAGGATGATGCGGAGTCGGCTGACTCGAAGATCAAGACTGCGTCCGTTG
ACGGCGAGGACGGCATGGTCGATGTCTCGATGCGTGACGCGGATGACAGT
TCAAGCGACGCCCCAGCCCGCTCCGAAAGTGCTATTTCCCCTAATTTGCG
CGGTCTTTTCGAGATGAAGATCATCAAGTCGAGTAGCGAGGTTGTTCCCA
CTGGGTGGTCAACCGTGGATGACCACAAGGAGTATCCGAAGATGTCATTT
AGAATCAAGACGCCGGTGAAGAAGCAGAAACAGGTAAGTCGTTCTCTTTG
TTTTCATTTGGAACTTCCACTAAACGATGGTCAGTCCGTGGACAGCACGA
ATGGCACGGAGCAGAAGGATGAAGAGTCCGGAGATAAGAGCTCCGACAGT
GCCAGTGGTGAATCGGCTTCTAAGCCTAAGGCTCAGGACCGGCCGATGAT
CCGCCCCGGTGAGGGTATTGTAGTGGACTGGACTGAGCAAGCTCATGACG
CTCTCTTCGCTGGAAGCAGTAGAGACAAGAACTCCCTGCGTGGGGCGCCG
ACATGGACGGACGTCGAACGCGTGCCTGACCCGGAACTGAGCAAGCGCCG
TACTCTGCGCCAAAACCGGAAGAAGCGGGGCGTGACGCTCTACGAGTGTC
TGGACGAGTTCAACAAAGAGGAGGTCCTTTCCGAGAACGATGCTTGGTAC
TGTCCCCGCTGCAAGGAGCACCGTCGGGCCAGCAAGAAGTTCGAGTTGTG
GAAGACACCGGACATTCTGGTCATGCACCTCAAGAGGTTCAGCGCCAGCC
GCGGATTCCGCGACAAGCTGGATGTCCTGGTCGACTTCCCAGTGGAGGGC
CTCGATATGACCGGCAGGGTCGAGGCGCCTGAAGAGGGCAAGAGTCAGAT
CTACGACCTCTTCGCCGTCGACAATCACTACGGAGGCCTTGGTGGCGGAC
ACTACACAGCGTACGCCAAGAACTTTTTCACCGGGCAGTGGAACGAATAT
AACGGTAAGATCGCCTGAATCATAGACGTTTTGGACAACAACTGACTGGA
CTAGATTCTTCCGTCTCGCGCCCGATTGATCCGCAGAGTGTGGTCACCTC
GTCGGCGTATCTGCTGTTTTACCGGCGCCGGTCCGACCGGCCGCTGGGCG
GCAAGGTGTTGGAGGAGATCACGGAAGCGTCGACACGGCCGAACAGCGAC
GTGGACTCGCAGACCGAGTCTCGCGGACAGTCTCCGTCGGGGGAAGGCCG
GCGCCTCGGCGGCTCCTCCCGCAATGGGTCGTCGAGCGCCTTAACCGGAG
TCGGAGCAGCTCACCAATCGGGAGATGGTGGTTTGCCAACTGGAACCCAA
ACGAAGAGCGGGGATGATGACTGGCCGCCGGGATATACCAACGTCCCATC
ATTTGGCGAGCAGAGCCTAGATCGCGCGACGCAATCGGAAGGTATGAATT
TCGAAGATGAGGAGATTGGCGGGGGCATGCAGCCCAGCCCGTTCCGCCCT
CAGGACGACACACCCTCGTGGTCGTTCAGTCGCGCCACAGATGCTCACGG
CCCTTCACAGATGACCACAGTTCCAACTGACGACGAAGATCTACTCGACG
ATGACGCGAGCAACCAGGCCGTAGGCGGCGGCGATGTCAGCGACCCGGAC
CTTCGGATGGCCTCTTTGATGGACAGTCCACGCGGGGCCGCCTACCCAGG
TACCCCGATGGAGGAGACGTCATTCCCGGACATTTCGGCATTTGCAGCGG
ACGGTGACGATGACGAGGAGGATGAGTTGCCGGTGGTAGAACTCCAAGTG
CATGATGAAGACCAGACACTGCCGTAG back to topCoding sequence (CDS) from alignment at ACJE01000010.1:373372..378198- >ASPNIDRAFT_175538-T1 ID=ASPNIDRAFT_175538-T1|Name=ASPNIDRAFT_175538-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=14175bp|location=Sequence derived from alignment at ACJE01000010.1:373372..378198- (Aspergillus niger ATCC 1015)
ATTCTTCCGTCTCGCGCCCGATTGATCCGCAGAGTGTGGTCACCTCGTCG
GCGTATCTGCTGTTTTACCGGCGCCGGTCCGACCGGCCGCTGGGCGGCAA
GGTGTTGGAGGAGATCACGGAAGCGTCGACACGGCCGAACAGCGACGTGG
ACTCGCAGACCGAGTCTCGCGGACAGTCTCCGTCGGGGGAAGGCCGGCGC
CTCGGCGGCTCCTCCCGCAATGGGTCGTCGAGCGCCTTAACCGGAGTCGG
AGCAGCTCACCAATCGGGAGATGGTGGTTTGCCAACTGGAACCCAAACGA
AGAGCGGGGATGATGACTGGCCGCCGGGATATACCAACGTCCCATCATTT
GGCGAGCAGAGCCTAGATCGCGCGACGCAATCGGAAGGTATGAATTTCGA
AGATGAGGAGATTGGCGGGGGCATGCAGCCCAGCCCGTTCCGCCCTCAGG
ACGACACACCCTCGTGGTCGTTCAGTCGCGCCACAGATGCTCACGGCCCT
TCACAGATGACCACAGTTCCAACTGACGACGAAGATCTACTCGACGATGA
CGCGAGCAACCAGGCCGTAGGCGGCGGCGATGTCAGCGACCCGGACCTTC
GGATGGCCTCTTTGATGGACAGTCCACGCGGGGCCGCCTACCCAGGTACC
CCGATGGAGGAGACGTCATTCCCGGACATTTCGGCATTTGCAGCGGACGG
TGACGATGACGAGGAGGATGAGTTGCCGGTGGTAGAACTCCAAGTGCATG
ATGAAGACCAGACACTGCCGTAGATGACGTTTACAAGAAGGACCTCAACC
CCAGCAATCCTCTAGCTCATAATGGTGATGTGGCTAAAGCATACGCGAAT
ATGTTGCGTCAGATGTATGATGAGGCAGGACAATCTTCGTTTGCGCCCCG
TCAGCTGAAGCACACCATCGGCCGCTATGGACCGGCCTTCTCCGGTTACG
GACAGCAGGATTCCCAGGAATTCCTTCTCTTCCTTCTGGATGGTCTTCAG
GAGGATCTGAACCGTATTATGAAGAAGCCCTACATTGAAAAGCCGGACTC
GACGGACGAGATGGTGCATAACAAGGAAGCTCTCGCAGAGTTTGCGGACA
AGTGCTGGGATATCTACAAAGCCCGTAACGACTCCGTCATTACCGACCTC
TTTGCTGGTATGTACAAGTCGACGCTGGTCTGCCCTGCTTGCGACAAGGT
CAGCATCATTTTCGACCCTTTCAACAACCTGACCCTTCAGCTTCCGATCG
AGAATCTCTGGGGTAAAGAGATTTTCTACTTCCCTCTCAACAAGAAGCCG
GTCCTTGTCGATGTCGAAATCGACAAGAACGCCAGTGTCAAGGCGCTGAA
GGAGCAGGTCGCAAAGAAAATGGGAACCGACCCTGAGCGCCTCGTGATGG
CTGAGATCTACAAGAACAAGTTCTACAAGATGTTCGACAACACGAGCTCG
ATTGCGGAGTGCCAGATCAGCGGCAACGACGACATTGGTATCTACGAAGT
CGAGTCAGTACCTACGAACTACAACCCCGACAAGCCCCAGAAGAGCTACT
TCTCCTTCAGTCGCTCGGATCATGAGGAGATCCCCAGTTTGGACTCGCCT
CGATCTGACCGCTTGCTCGTCCCCATCTTTAACCGAGTCGAGAAGAAACG
GGGAAACAACCCCAAGAATGCGCAACGGTCGCTCTTCGGAGTTCCATCGT
ATGTGGTCATCAATCGGGAGGAGTTTGGGGACTACGATACGATCTTCCGC
AAGGTCCTGTCGCAGGTCGCCTCGATGTCCACCCGTGACTTCCTGAATGA
GGAGAATACGACCGAGGTCAGCCATGAAGACTCAGACACCGTTATTATGA
ACGAGGATGATGCGGAGTCGGCTGACTCGAAGATCAAGACTGCGTCCGTT
GACGGCGAGGACGGCATGGTCGATGTCTCGATGCGTGACGCGGATGACAG
TTCAAGCGACGCCCCAGCCCGCTCCGAAAGTGCTATTTCCCCTAATTTGC
GCGGTCTTTTCGAGATGAAGATCATCAAGTCGAGTAGCGAGGTTGTTCCC
ACTGGGTGGTCAACCGTGGATGACCACAAGGAGTATCCGAAGATGTCATT
TAGAATCAAGACGCCGGTGAAGAAGCAGAAACAGGTAAGTCGTTCTCTTT
GTTTTCATTTGGAACTTCCACTAAACGATGGTCAGTCCGTGGACAGCACG
AATGGCACGGAGCAGAAGGATGAAGAGTCCGGAGATAAGAGCTCCGACAG
TGCCAGTGGTGAATCGGCTTCTAAGCCTAAGGCTCAGGACCGGCCGATGA
TCCGCCCCGGTGAGGGTATTGTAGTGGACTGGACTGAGCAAGCTCATGAC
GCTCTCTTCGCTGGAAGCAGTAGAGACAAGAACTCCCTGCGTGGGGCGCC
GACATGGACGGACGTCGAACGCGTGCCTGACCCGGAACTGAGCAAGCGCC
GTACTCTGCGCCAAAACCGGAAGAAGCGGGGCGTGACGCTCTACGAGTGT
CTGGACGAGTTCAACAAAGAGGAGGTCCTTTCCGAGAACGATGCTTGGTA
CTGTCCCCGCTGCAAGGAGCACCGTCGGGCCAGCAAGAAGTTCGAGTTGT
GGAAGACACCGGACATTCTGGTCATGCACCTCAAGAGGTTCAGCGCCAGC
CGCGGATTCCGCGACAAGCTGGATGTCCTGGTCGACTTCCCAGTGGAGGG
CCTCGATATGACCGGCAGGGTCGAGGCGCCTGAAGAGGGCAAGAGTCAGA
TCTACGACCTCTTCGCCGTCGACAATCACTACGGAGGCCTTGGTGGCGGA
CACTACACAGCGTACGCCAAGAACTTTTTCACCGGGCAGTGGAACGAATA
TAACGGTGCTACCTCGAGCTGCCACGAAACGTGCGCAGCTCACCGTCACG
ACGTCTTCCACAAAGCGCCGTAAAGTAGCAGAGCCTCGCAGACCAGGATC
GCTTCCGGGTTTGTCGTTCGCCTCGCAGGCCGGAAGACGTCACGGCCATT
CCTCCTCCGACAAGGCCTCGCCCTCGCGCTCCTCCCGTCACCCTTCCTCT
CCTTCCCGATCGCATCGCAGCACTCAGAGCTCCTCGGCTTCACCGCCTCC
CCGCTACATTCCCGCCCATCTGCAGGACGAAGTCCTCGCCTCCAAATCCC
AGTCCACCGCTCGTTCCCCTACCCCGGACTCCGCTGGAAGTGTCCTCGAC
TATCCCGCGGCCGCCTGCGCTGGTCTGACCCTCCACAGCGACCCTGCGAC
CGATATGTCCGGCTCTGACGACAAGGGAGACTCGAACCTCCCGCTTGCCG
GGTCCGATGCTCGCGAAACCTCCGCCTCGGAGAATGAGGTGAACGATGTG
GAGATGGACTTGGTTCCGACAGAAAAGGACAGCCAGACCCGTTCCGACCA
CCCGGATTCGATGGAAACCACGACATCGGGCGATGACAACGTAACCAACT
CGGCGTCGGACAGTGTGTATCCCACTCCTTCCAGCATGTCCACCTATACC
GCCCCCACAGAGACCCGGGCCCATTCTAAAGCAGAGGCCGGGGTTGCGTC
AGCTGATCGACCATCTTACGATGACCAGGTCGCACAGGTGACCCAGTTTA
TGATGCAGCCGATGAAGGAGAAACAAAAGGGATATGTGGTGTCGAATTCG
TGGCTGAAGCGAGTGTACTCGCGGAGTGCTACTCATGCAGACAAGGCTGA
TAAGACGGCGATGGAGGGAGATATCGGACCAGTCGATAACTCGGATATTG
TTCTGGTCACCGACCCGGCCAACACTGGTTTCAAGGACGAGGAAGGAGAA
CCCTTTGTTCCTTTGAGGCCTGGCTTGGAGCTTGGCGAAGATTTTGAGAT
TATCCCTCAAGGGGGCTGGGACCTGATCATGCAGTGGTATGGTCTGGCAG
AACAGTCCCCGGCCATCGTCCGTTACGTTCACAACACCGCCGCCGTAGGC
GACCAGGAGAACCTCCAATACGAGATCAACCCTCCGATCTTCACGATCTT
GAAGCTCACGAACCCCTCTGCCGGCACTTCTATCAAGACGATGAAGGAGA
AGACGATGGCCCCAGTGAGGACACTGGCCAGTCGACACACCAACTTCCAG
AAGTGGCTGAAGAACGCCAAAGAACTCGCTCAAATCGACATGTCGACGAA
GGTTCGTGTTTGGAGGATTCTGGGTGGTCTCGGTAGCGCCACCGCATCGG
CAGCAGCCACCCCAGCTGCATCCCGCAGTGCTTCTCCAGCTCCGTCCGCC
TCCCTCATCGCCAACGCTGGAAGCAACCTCGTTCTCGACCTGAACACCTT
CCTTTCCCTGTCGGAGGGGTCGCAGCGTGAGGTACTTGACGAGCCGAAGG
ACCAGACGAACAATCCCAACTACAATGGTAAAATGACTCTGGGCGTTGCG
GGTCTCAACAGCAGCGAAATCATCGTGCTGGAAGAGAAGCTCCCTGGAAC
GAGCGGAGAATGGGTATCGGAAGCCTCCAAGCAGACACTTAACCGTCTGG
GGGTGCCGTCCGGTAGCCTAAAGAACGGAGCTCCCGCAAAGGTGAAGACC
AAGAGTCCTGCTACCAGCGGGCGATCGTCTCCGGTCTCAGAACCCATCAG
GGGTCGACGCAAGGACGGGAAACCCCGCGGCTGCACTGGTTTGAGCAATC
TTGGAAACACTTGTTACATGAACTCGGCCCTGCAGTGCGTTCGCAGTGTC
GAGGAATTAACCTACTATTTCTTGAATTCTTCCGTCTCGCGCCCGATTGA
TCCGCAGAGTGTGGTCACCTCGTCGGCGTATCTGCTGTTTTACCGGCGCC
GGTCCGACCGGCCGCTGGGCGGCAAGGTGTTGGAGGAGATCACGGAAGCG
TCGACACGGCCGAACAGCGACGTGGACTCGCAGACCGAGTCTCGCGGACA
GTCTCCGTCGGGGGAAGGCCGGCGCCTCGGCGGCTCCTCCCGCAATGGGT
CGTCGAGCGCCTTAACCGGAGTCGGAGCAGCTCACCAATCGGGAGATGGT
GGTTTGCCAACTGGAACCCAAACGAAGAGCGGGGATGATGACTGGCCGCC
GGGATATACCAACGTCCCATCATTTGGCGAGCAGAGCCTAGATCGCGCGA
CGCAATCGGAAGGTATGAATTTCGAAGATGAGGAGATTGGCGGGGGCATG
CAGCCCAGCCCGTTCCGCCCTCAGGACGACACACCCTCGTGGTCGTTCAG
TCGCGCCACAGATGCTCACGGCCCTTCACAGATGACCACAGTTCCAACTG
ACGACGAAGATCTACTCGACGATGACGCGAGCAACCAGGCCGTAGGCGGC
GGCGATGTCAGCGACCCGGACCTTCGGATGGCCTCTTTGATGGACAGTCC
ACGCGGGGCCGCCTACCCAGGTACCCCGATGGAGGAGACGTCATTCCCGG
ACATTTCGGCATTTGCAGCGGACGGTGACGATGACGAGGAGGATGAGTTG
CCGGTGGTAGAACTCCAAGTGCATGATGAAGACCAGACACTGCCGTAGAT
GACGTTTACAAGAAGGACCTCAACCCCAGCAATCCTCTAGCTCATAATGG
TGATGTGGCTAAAGCATACGCGAATATGTTGCGTCAGATGTATGATGAGG
CAGGACAATCTTCGTTTGCGCCCCGTCAGCTGAAGCACACCATCGGCCGC
TATGGACCGGCCTTCTCCGGTTACGGACAGCAGGATTCCCAGGAATTCCT
TCTCTTCCTTCTGGATGGTCTTCAGGAGGATCTGAACCGTATTATGAAGA
AGCCCTACATTGAAAAGCCGGACTCGACGGACGAGATGGTGCATAACAAG
GAAGCTCTCGCAGAGTTTGCGGACAAGTGCTGGGATATCTACAAAGCCCG
TAACGACTCCGTCATTACCGACCTCTTTGCTGGTATGTACAAGTCGACGC
TGGTCTGCCCTGCTTGCGACAAGGTCAGCATCATTTTCGACCCTTTCAAC
AACCTGACCCTTCAGCTTCCGATCGAGAATCTCTGGGGTAAAGAGATTTT
CTACTTCCCTCTCAACAAGAAGCCGGTCCTTGTCGATGTCGAAATCGACA
AGAACGCCAGTGTCAAGGCGCTGAAGGAGCAGGTCGCAAAGAAAATGGGA
ACCGACCCTGAGCGCCTCGTGATGGCTGAGATCTACAAGAACAAGTTCTA
CAAGATGTTCGACAACACGAGCTCGATTGCGGAGTGCCAGATCAGCGGCA
ACGACGACATTGGTATCTACGAAGTCGAGTCAGTACCTACGAACTACAAC
CCCGACAAGCCCCAGAAGAGCTACTTCTCCTTCAGTCGCTCGGATCATGA
GGAGATCCCCAGTTTGGACTCGCCTCGATCTGACCGCTTGCTCGTCCCCA
TCTTTAACCGAGTCGAGAAGAAACGGGGAAACAACCCCAAGAATGCGCAA
CGGTCGCTCTTCGGAGTTCCATCGTATGTGGTCATCAATCGGGAGGAGTT
TGGGGACTACGATACGATCTTCCGCAAGGTCCTGTCGCAGGTCGCCTCGA
TGTCCACCCGTGACTTCCTGAATGAGGAGAATACGACCGAGGTCAGCCAT
GAAGACTCAGACACCGTTATTATGAACGAGGATGATGCGGAGTCGGCTGA
CTCGAAGATCAAGACTGCGTCCGTTGACGGCGAGGACGGCATGGTCGATG
TCTCGATGCGTGACGCGGATGACAGTTCAAGCGACGCCCCAGCCCGCTCC
GAAAGTGCTATTTCCCCTAATTTGCGCGGTCTTTTCGAGATGAAGATCAT
CAAGTCGAGTAGCGAGGTTGTTCCCACTGGGTGGTCAACCGTGGATGACC
ACAAGGAGTATCCGAAGATGTCATTTAGAATCAAGACGCCGGTGAAGAAG
CAGAAACAGGTAAGTCGTTCTCTTTGTTTTCATTTGGAACTTCCACTAAA
CGATGGTCAGTCCGTGGACAGCACGAATGGCACGGAGCAGAAGGATGAAG
AGTCCGGAGATAAGAGCTCCGACAGTGCCAGTGGTGAATCGGCTTCTAAG
CCTAAGGCTCAGGACCGGCCGATGATCCGCCCCGGTGAGGGTATTGTAGT
GGACTGGACTGAGCAAGCTCATGACGCTCTCTTCGCTGGAAGCAGTAGAG
ACAAGAACTCCCTGCGTGGGGCGCCGACATGGACGGACGTCGAACGCGTG
CCTGACCCGGAACTGAGCAAGCGCCGTACTCTGCGCCAAAACCGGAAGAA
GCGGGGCGTGACGCTCTACGAGTGTCTGGACGAGTTCAACAAAGAGGAGG
TCCTTTCCGAGAACGATGCTTGGTACTGTCCCCGCTGCAAGGAGCACCGT
CGGGCCAGCAAGAAGTTCGAGTTGTGGAAGACACCGGACATTCTGGTCAT
GCACCTCAAGAGGTTCAGCGCCAGCCGCGGATTCCGCGACAAGCTGGATG
TCCTGGTCGACTTCCCAGTGGAGGGCCTCGATATGACCGGCAGGGTCGAG
GCGCCTGAAGAGGGCAAGAGTCAGATCTACGACCTCTTCGCCGTCGACAA
TCACTACGGAGGCCTTGGTGGCGGACACTACACAGCGTACGCCAAGAACT
TTTTCACCGGGCAGTGGAACGAATATAACGGTGCTACCTCGAGCTGCCAC
GAAACGTGCGCAGCTCACCGTCACGACGTCTTCCACAAAGCGCCGTAAAG
TAGCAGAGCCTCGCAGACCAGGATCGCTTCCGGGTTTGTCGTTCGCCTCG
CAGGCCGGAAGACGTCACGGCCATTCCTCCTCCGACAAGGCCTCGCCCTC
GCGCTCCTCCCGTCACCCTTCCTCTCCTTCCCGATCGCATCGCAGCACTC
AGAGCTCCTCGGCTTCACCGCCTCCCCGCTACATTCCCGCCCATCTGCAG
GACGAAGTCCTCGCCTCCAAATCCCAGTCCACCGCTCGTTCCCCTACCCC
GGACTCCGCTGGAAGTGTCCTCGACTATCCCGCGGCCGCCTGCGCTGGTC
TGACCCTCCACAGCGACCCTGCGACCGATATGTCCGGCTCTGACGACAAG
GGAGACTCGAACCTCCCGCTTGCCGGGTCCGATGCTCGCGAAACCTCCGC
CTCGGAGAATGAGGTGAACGATGTGGAGATGGACTTGGTTCCGACAGAAA
AGGACAGCCAGACCCGTTCCGACCACCCGGATTCGATGGAAACCACGACA
TCGGGCGATGACAACGTAACCAACTCGGCGTCGGACAGTGTGTATCCCAC
TCCTTCCAGCATGTCCACCTATACCGCCCCCACAGAGACCCGGGCCCATT
CTAAAGCAGAGGCCGGGGTTGCGTCAGCTGATCGACCATCTTACGATGAC
CAGGTCGCACAGGTGACCCAGTTTATGATGCAGCCGATGAAGGAGAAACA
AAAGGGATATGTGGTGTCGAATTCGTGGCTGAAGCGAGTGTACTCGCGGA
GTGCTACTCATGCAGACAAGGCTGATAAGACGGCGATGGAGGGAGATATC
GGACCAGTCGATAACTCGGATATTGTTCTGGTCACCGACCCGGCCAACAC
TGGTTTCAAGGACGAGGAAGGAGAACCCTTTGTTCCTTTGAGGCCTGGCT
TGGAGCTTGGCGAAGATTTTGAGATTATCCCTCAAGGGGGCTGGGACCTG
ATCATGCAGTGGTATGGTCTGGCAGAACAGTCCCCGGCCATCGTCCGTTA
CGTTCACAACACCGCCGCCGTAGGCGACCAGGAGAACCTCCAATACGAGA
TCAACCCTCCGATCTTCACGATCTTGAAGCTCACGAACCCCTCTGCCGGC
ACTTCTATCAAGACGATGAAGGAGAAGACGATGGCCCCAGTGAGGACACT
GGCCAGTCGACACACCAACTTCCAGAAGTGGCTGAAGAACGCCAAAGAAC
TCGCTCAAATCGACATGTCGACGAAGGTTCGTGTTTGGAGGATTCTGGGT
GGTCTCGGTAGCGCCACCGCATCGGCAGCAGCCACCCCAGCTGCATCCCG
CAGTGCTTCTCCAGCTCCGTCCGCCTCCCTCATCGCCAACGCTGGAAGCA
ACCTCGTTCTCGACCTGAACACCTTCCTTTCCCTGTCGGAGGGGTCGCAG
CGTGAGGTACTTGACGAGCCGAAGGACCAGACGAACAATCCCAACTACAA
TGGTAAAATGACTCTGGGCGTTGCGGGTCTCAACAGCAGCGAAATCATCG
TGCTGGAAGAGAAGCTCCCTGGAACGAGCGGAGAATGGGTATCGGAAGCC
TCCAAGCAGACACTTAACCGTCTGGGGGTGCCGTCCGGTAGCCTAAAGAA
CGGAGCTCCCGCAAAGGTGAAGACCAAGAGTCCTGCTACCAGCGGGCGAT
CGTCTCCGGTCTCAGAACCCATCAGGGGTCGACGCAAGGACGGGAAACCC
CGCGGCTGCACTGGTTTGAGCAATCTTGGAAACACTTGTTACATGAACTC
GGCCCTGCAGTGCGTTCGCAGTGTCGAGGAATTAACCTACTATTTCTTGA
ATTCTTCCGTCTCGCGCCCGATTGATCCGCAGAGTGTGGTCACCTCGTCG
GCGTATCTGCTGTTTTACCGGCGCCGGTCCGACCGGCCGCTGGGCGGCAA
GGTGTTGGAGGAGATCACGGAAGCGTCGACACGGCCGAACAGCGACGTGG
ACTCGCAGACCGAGTCTCGCGGACAGTCTCCGTCGGGGGAAGGCCGGCGC
CTCGGCGGCTCCTCCCGCAATGGGTCGTCGAGCGCCTTAACCGGAGTCGG
AGCAGCTCACCAATCGGGAGATGGTGGTTTGCCAACTGGAACCCAAACGA
AGAGCGGGGATGATGACTGGCCGCCGGGATATACCAACGTCCCATCATTT
GGCGAGCAGAGCCTAGATCGCGCGACGCAATCGGAAGGTATGAATTTCGA
AGATGAGGAGATTGGCGGGGGCATGCAGCCCAGCCCGTTCCGCCCTCAGG
ACGACACACCCTCGTGGTCGTTCAGTCGCGCCACAGATGCTCACGGCCCT
TCACAGATGACCACAGTTCCAACTGACGACGAAGATCTACTCGACGATGA
CGCGAGCAACCAGGCCGTAGGCGGCGGCGATGTCAGCGACCCGGACCTTC
GGATGGCCTCTTTGATGGACAGTCCACGCGGGGCCGCCTACCCAGGTACC
CCGATGGAGGAGACGTCATTCCCGGACATTTCGGCATTTGCAGCGGACGG
TGACGATGACGAGGAGGATGAGTTGCCGGTGGTAGAACTCCAAGTGCATG
ATGAAGACCAGACACTGCCGTAGATGACGTTTACAAGAAGGACCTCAACC
CCAGCAATCCTCTAGCTCATAATGGTGATGTGGCTAAAGCATACGCGAAT
ATGTTGCGTCAGATGTATGATGAGGCAGGACAATCTTCGTTTGCGCCCCG
TCAGCTGAAGCACACCATCGGCCGCTATGGACCGGCCTTCTCCGGTTACG
GACAGCAGGATTCCCAGGAATTCCTTCTCTTCCTTCTGGATGGTCTTCAG
GAGGATCTGAACCGTATTATGAAGAAGCCCTACATTGAAAAGCCGGACTC
GACGGACGAGATGGTGCATAACAAGGAAGCTCTCGCAGAGTTTGCGGACA
AGTGCTGGGATATCTACAAAGCCCGTAACGACTCCGTCATTACCGACCTC
TTTGCTGGTATGTACAAGTCGACGCTGGTCTGCCCTGCTTGCGACAAGGT
CAGCATCATTTTCGACCCTTTCAACAACCTGACCCTTCAGCTTCCGATCG
AGAATCTCTGGGGTAAAGAGATTTTCTACTTCCCTCTCAACAAGAAGCCG
GTCCTTGTCGATGTCGAAATCGACAAGAACGCCAGTGTCAAGGCGCTGAA
GGAGCAGGTCGCAAAGAAAATGGGAACCGACCCTGAGCGCCTCGTGATGG
CTGAGATCTACAAGAACAAGTTCTACAAGATGTTCGACAACACGAGCTCG
ATTGCGGAGTGCCAGATCAGCGGCAACGACGACATTGGTATCTACGAAGT
CGAGTCAGTACCTACGAACTACAACCCCGACAAGCCCCAGAAGAGCTACT
TCTCCTTCAGTCGCTCGGATCATGAGGAGATCCCCAGTTTGGACTCGCCT
CGATCTGACCGCTTGCTCGTCCCCATCTTTAACCGAGTCGAGAAGAAACG
GGGAAACAACCCCAAGAATGCGCAACGGTCGCTCTTCGGAGTTCCATCGT
ATGTGGTCATCAATCGGGAGGAGTTTGGGGACTACGATACGATCTTCCGC
AAGGTCCTGTCGCAGGTCGCCTCGATGTCCACCCGTGACTTCCTGAATGA
GGAGAATACGACCGAGGTCAGCCATGAAGACTCAGACACCGTTATTATGA
ACGAGGATGATGCGGAGTCGGCTGACTCGAAGATCAAGACTGCGTCCGTT
GACGGCGAGGACGGCATGGTCGATGTCTCGATGCGTGACGCGGATGACAG
TTCAAGCGACGCCCCAGCCCGCTCCGAAAGTGCTATTTCCCCTAATTTGC
GCGGTCTTTTCGAGATGAAGATCATCAAGTCGAGTAGCGAGGTTGTTCCC
ACTGGGTGGTCAACCGTGGATGACCACAAGGAGTATCCGAAGATGTCATT
TAGAATCAAGACGCCGGTGAAGAAGCAGAAACAGGTAAGTCGTTCTCTTT
GTTTTCATTTGGAACTTCCACTAAACGATGGTCAGTCCGTGGACAGCACG
AATGGCACGGAGCAGAAGGATGAAGAGTCCGGAGATAAGAGCTCCGACAG
TGCCAGTGGTGAATCGGCTTCTAAGCCTAAGGCTCAGGACCGGCCGATGA
TCCGCCCCGGTGAGGGTATTGTAGTGGACTGGACTGAGCAAGCTCATGAC
GCTCTCTTCGCTGGAAGCAGTAGAGACAAGAACTCCCTGCGTGGGGCGCC
GACATGGACGGACGTCGAACGCGTGCCTGACCCGGAACTGAGCAAGCGCC
GTACTCTGCGCCAAAACCGGAAGAAGCGGGGCGTGACGCTCTACGAGTGT
CTGGACGAGTTCAACAAAGAGGAGGTCCTTTCCGAGAACGATGCTTGGTA
CTGTCCCCGCTGCAAGGAGCACCGTCGGGCCAGCAAGAAGTTCGAGTTGT
GGAAGACACCGGACATTCTGGTCATGCACCTCAAGAGGTTCAGCGCCAGC
CGCGGATTCCGCGACAAGCTGGATGTCCTGGTCGACTTCCCAGTGGAGGG
CCTCGATATGACCGGCAGGGTCGAGGCGCCTGAAGAGGGCAAGAGTCAGA
TCTACGACCTCTTCGCCGTCGACAATCACTACGGAGGCCTTGGTGGCGGA
CACTACACAGCGTACGCCAAGAACTTTTTCACCGGGCAGTGGAACGAATA
TAACGGTGCTACCTCGAGCTGCCACGAAACGTGCGCAGCTCACCGTCACG
ACGTCTTCCACAAAGCGCCGTAAAGTAGCAGAGCCTCGCAGACCAGGATC
GCTTCCGGGTTTGTCGTTCGCCTCGCAGGCCGGAAGACGTCACGGCCATT
CCTCCTCCGACAAGGCCTCGCCCTCGCGCTCCTCCCGTCACCCTTCCTCT
CCTTCCCGATCGCATCGCAGCACTCAGAGCTCCTCGGCTTCACCGCCTCC
CCGCTACATTCCCGCCCATCTGCAGGACGAAGTCCTCGCCTCCAAATCCC
AGTCCACCGCTCGTTCCCCTACCCCGGACTCCGCTGGAAGTGTCCTCGAC
TATCCCGCGGCCGCCTGCGCTGGTCTGACCCTCCACAGCGACCCTGCGAC
CGATATGTCCGGCTCTGACGACAAGGGAGACTCGAACCTCCCGCTTGCCG
GGTCCGATGCTCGCGAAACCTCCGCCTCGGAGAATGAGGTGAACGATGTG
GAGATGGACTTGGTTCCGACAGAAAAGGACAGCCAGACCCGTTCCGACCA
CCCGGATTCGATGGAAACCACGACATCGGGCGATGACAACGTAACCAACT
CGGCGTCGGACAGTGTGTATCCCACTCCTTCCAGCATGTCCACCTATACC
GCCCCCACAGAGACCCGGGCCCATTCTAAAGCAGAGGCCGGGGTTGCGTC
AGCTGATCGACCATCTTACGATGACCAGGTCGCACAGGTGACCCAGTTTA
TGATGCAGCCGATGAAGGAGAAACAAAAGGGATATGTGGTGTCGAATTCG
TGGCTGAAGCGAGTGTACTCGCGGAGTGCTACTCATGCAGACAAGGCTGA
TAAGACGGCGATGGAGGGAGATATCGGACCAGTCGATAACTCGGATATTG
TTCTGGTCACCGACCCGGCCAACACTGGTTTCAAGGACGAGGAAGGAGAA
CCCTTTGTTCCTTTGAGGCCTGGCTTGGAGCTTGGCGAAGATTTTGAGAT
TATCCCTCAAGGGGGCTGGGACCTGATCATGCAGTGGTATGGTCTGGCAG
AACAGTCCCCGGCCATCGTCCGTTACGTTCACAACACCGCCGCCGTAGGC
GACCAGGAGAACCTCCAATACGAGATCAACCCTCCGATCTTCACGATCTT
GAAGCTCACGAACCCCTCTGCCGGCACTTCTATCAAGACGATGAAGGAGA
AGACGATGGCCCCAGTGAGGACACTGGCCAGTCGACACACCAACTTCCAG
AAGTGGCTGAAGAACGCCAAAGAACTCGCTCAAATCGACATGTCGACGAA
GGTTCGTGTTTGGAGGATTCTGGGTGGTCTCGGTAGCGCCACCGCATCGG
CAGCAGCCACCCCAGCTGCATCCCGCAGTGCTTCTCCAGCTCCGTCCGCC
TCCCTCATCGCCAACGCTGGAAGCAACCTCGTTCTCGACCTGAACACCTT
CCTTTCCCTGTCGGAGGGGTCGCAGCGTGAGGTACTTGACGAGCCGAAGG
ACCAGACGAACAATCCCAACTACAATGGTAAAATGACTCTGGGCGTTGCG
GGTCTCAACAGCAGCGAAATCATCGTGCTGGAAGAGAAGCTCCCTGGAAC
GAGCGGAGAATGGGTATCGGAAGCCTCCAAGCAGACACTTAACCGTCTGG
GGGTGCCGTCCGGTAGCCTAAAGAACGGAGCTCCCGCAAAGGTGAAGACC
AAGAGTCCTGCTACCAGCGGGCGATCGTCTCCGGTCTCAGAACCCATCAG
GGGTCGACGCAAGGACGGGAAACCCCGCGGCTGCACTGGTTTGAGCAATC
TTGGAAACACTTGTTACATGAACTCGGCCCTGCAGTGCGTTCGCAGTGTC
GAGGAATTAACCTACTATTTCTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006511 | ubiquitin-dependent protein catabolic process |
| GO:0016579 | protein deubiquitination |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004843 | thiol-dependent ubiquitin-specific protease activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | MEROPS:MER0005433 |
| DBxref | InterPro:IPR035927 |
| DBxref | InterPro:IPR038765 |
| DBxref | InterPro:IPR028889 |
| DBxref | InterPro:IPR018200 |
| DBxref | InterPro:IPR001394 |
| DBxref | InterPro:IPR006615 |
| DBxref | PFAM:PF00443 |
| DBxref | PFAM:PF06337 |
| 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 |
|---|
| ACJE01000010.1 | supercontig | ACJE01000010.1:373372..378198 - |
|
