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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000006:857381..859733- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_000306-T1 ID=ATCC10864_000306-T1|Name=ATCC10864_000306-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2353bp|location=Sequence derived from alignment at MCQH01000006:857381..859733- (Aspergillus niger ATCC 10864)
ATGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACACAACCGC
TCCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAGGTAATACAT
CTTCACGCTACCACCTTAGTGGACTTGGCTGATTGTGAAAGGCAAGCGCG
TGTGGCTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAAGAT
GGAGGTAAGATGCTGTGATAACGGCCAAAGTCTACCATACTTACCTTTAG
TCTCAATGCAGTCCGACACGCCATTGATAACAAGTCGATATCCCGAAAGC
ATATGATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGTACGATAA
TCCAATTCCTCTGCTTTCCCCGCTAACCGTTCAGTCGCATATTTACACCA
GATCGAAAATTGCCGTTCGCGACTTGGGATCGAAATATGGCACCAGAGTG
GATGGTAACACTGTTAAGGATGAAAGTAAAGATCTGACTGGTGAGGAGCA
TGAAATCAAGTTGGGGAGATATGAACATGCGCTGCGGTAATTGCCATCGC
AAGGAACAATGTCAGCAGTGACTAACCGTGGTGGTTACTAGGATCAAGTG
GCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAACTTAAAGCGA
AAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTGGATATCAAA
ACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGTACAAAAGAA
ACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAAAGTACATTG
TGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACCCCGAGCGAT
CTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTTCGACACTGC
ATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGGAAACCGTAC
AAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATCAAAGTTTTT
GAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGGAAACTTGCA
GGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACCAAGTGGAAG
AAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGAAATGCGGCT
GGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGGCGTGGTTCT
TGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGGCCGAGCTGG
GTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAACAGAGCGAA
TTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTGCCGATCCTT
GCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCACCAGCTGCTA
CCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACGGAAAGCCAG
CCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAGTAAAATGAA
AACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTCATGCGCCGG
AGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCATCGCCGGCA
CAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGAAGAAGAAGA
AGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGCCTGGTGCTC
AAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCTAAAGAAGAG
CCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAAACGCCAGAA
ACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCGAAGATGCGC
AACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCTCTTGAGGAC
GTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGAGATGGAAGT
GAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAGATCGGTGGA
ATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAACCTGGGCAG
CCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGAGGTGACGCG
AAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATCGCACGGAGC
AGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAGGACGCAGCG
GCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGACGCCAGCGCC
CAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGCGAGAAGAGC
AAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGTCGCAGGCGA
TGA back to topCoding sequence (CDS) from alignment at MCQH01000006:857381..859733- >ATCC10864_000306-T1 ID=ATCC10864_000306-T1|Name=ATCC10864_000306-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=10740bp|location=Sequence derived from alignment at MCQH01000006:857381..859733- (Aspergillus niger ATCC 10864)
GATCAAGTGGCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAAC
TTAAAGCGAAAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTG
GATATCAAAACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGT
ACAAAAGAAACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAA
AGTACATTGTGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACC
CCGAGCGATCTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTT
CGACACTGCATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGG
AAACCGTACAAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATC
AAAGTTTTTGAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGG
AAACTTGCAGGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACC
AAGTGGAAGAAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGA
AATGCGGCTGGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGG
CGTGGTTCTTGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGG
CCGAGCTGGGTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAA
CAGAGCGAATTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTG
CCGATCCTTGCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCAC
CAGCTGCTACCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACG
GAAAGCCAGCCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAG
TAAAATGAAAACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTC
ATGCGCCGGAGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCA
TCGCCGGCACAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGA
AGAAGAAGAAGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGC
CTGGTGCTCAAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCT
AAAGAAGAGCCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAA
ACGCCAGAAACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCG
AAGATGCGCAACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCT
CTTGAGGACGTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGA
GATGGAAGTGAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAG
ATCGGTGGAATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAA
CCTGGGCAGCCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGA
GGTGACGCGAAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATC
GCACGGAGCAGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAG
GACGCAGCGGCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGAC
GCCAGCGCCCAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGC
GAGAAGAGCAAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGT
CGCAGGCGATGATCGCATATTTACACCAGATCGAAAATTGCCGTTCGCGA
CTTGGGATCGAAATATGGCACCAGAGTGGATGGTAACACTGTTAAGGATG
AAAGTAAAGATCTGACTGGTGAGGAGCATGAAATCAAGTTGGGGAGATAT
GAACATGCGCTGCGTCCGACACGCCATTGATAACAAGTCGATATCCCGAA
AGCATATGATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGCAAGC
GCGTGTGGCTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAA
GATGGAGATGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACA
CAACCGCTCCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAGGA
TCAAGTGGCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAACTT
AAAGCGAAAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTGGA
TATCAAAACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGTAC
AAAAGAAACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAAAG
TACATTGTGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACCCC
GAGCGATCTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTTCG
ACACTGCATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGGAA
ACCGTACAAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATCAA
AGTTTTTGAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGGAA
ACTTGCAGGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACCAA
GTGGAAGAAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGAAA
TGCGGCTGGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGGCG
TGGTTCTTGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGGCC
GAGCTGGGTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAACA
GAGCGAATTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTGCC
GATCCTTGCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCACCA
GCTGCTACCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACGGA
AAGCCAGCCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAGTA
AAATGAAAACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTCAT
GCGCCGGAGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCATC
GCCGGCACAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGAAG
AAGAAGAAGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGCCT
GGTGCTCAAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCTAA
AGAAGAGCCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAAAC
GCCAGAAACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCGAA
GATGCGCAACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCTCT
TGAGGACGTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGAGA
TGGAAGTGAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAGAT
CGGTGGAATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAACC
TGGGCAGCCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGAGG
TGACGCGAAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATCGC
ACGGAGCAGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAGGA
CGCAGCGGCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGACGC
CAGCGCCCAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGCGA
GAAGAGCAAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGTCG
CAGGCGATGATCGCATATTTACACCAGATCGAAAATTGCCGTTCGCGACT
TGGGATCGAAATATGGCACCAGAGTGGATGGTAACACTGTTAAGGATGAA
AGTAAAGATCTGACTGGTGAGGAGCATGAAATCAAGTTGGGGAGATATGA
ACATGCGCTGCGTCCGACACGCCATTGATAACAAGTCGATATCCCGAAAG
CATATGATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGCAAGCGC
GTGTGGCTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAAGA
TGGAGATGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACACA
ACCGCTCCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAGGATC
AAGTGGCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAACTTAA
AGCGAAAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTGGATA
TCAAAACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGTACAA
AAGAAACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAAAGTA
CATTGTGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACCCCGA
GCGATCTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTTCGAC
ACTGCATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGGAAAC
CGTACAAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATCAAAG
TTTTTGAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGGAAAC
TTGCAGGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACCAAGT
GGAAGAAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGAAATG
CGGCTGGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGGCGTG
GTTCTTGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGGCCGA
GCTGGGTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAACAGA
GCGAATTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTGCCGA
TCCTTGCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCACCAGC
TGCTACCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACGGAAA
GCCAGCCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAGTAAA
ATGAAAACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTCATGC
GCCGGAGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCATCGC
CGGCACAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGAAGAA
GAAGAAGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGCCTGG
TGCTCAAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCTAAAG
AAGAGCCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAAACGC
CAGAAACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCGAAGA
TGCGCAACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCTCTTG
AGGACGTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGAGATG
GAAGTGAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAGATCG
GTGGAATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAACCTG
GGCAGCCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGAGGTG
ACGCGAAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATCGCAC
GGAGCAGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAGGACG
CAGCGGCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGACGCCA
GCGCCCAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGCGAGA
AGAGCAAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGTCGCA
GGCGATGATCGCATATTTACACCAGATCGAAAATTGCCGTTCGCGACTTG
GGATCGAAATATGGCACCAGAGTGGATGGTAACACTGTTAAGGATGAAAG
TAAAGATCTGACTGGTGAGGAGCATGAAATCAAGTTGGGGAGATATGAAC
ATGCGCTGCGTCCGACACGCCATTGATAACAAGTCGATATCCCGAAAGCA
TATGATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGCAAGCGCGT
GTGGCTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAAGATG
GAGATGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACACAAC
CGCTCCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAGGATCAA
GTGGCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAACTTAAAG
CGAAAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTGGATATC
AAAACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGTACAAAA
GAAACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAAAGTACA
TTGTGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACCCCGAGC
GATCTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTTCGACAC
TGCATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGGAAACCG
TACAAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATCAAAGTT
TTTGAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGGAAACTT
GCAGGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACCAAGTGG
AAGAAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGAAATGCG
GCTGGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGGCGTGGT
TCTTGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGGCCGAGC
TGGGTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAACAGAGC
GAATTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTGCCGATC
CTTGCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCACCAGCTG
CTACCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACGGAAAGC
CAGCCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAGTAAAAT
GAAAACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTCATGCGC
CGGAGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCATCGCCG
GCACAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGAAGAAGA
AGAAGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGCCTGGTG
CTCAAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCTAAAGAA
GAGCCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAAACGCCA
GAAACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCGAAGATG
CGCAACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCTCTTGAG
GACGTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGAGATGGA
AGTGAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAGATCGGT
GGAATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAACCTGGG
CAGCCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGAGGTGAC
GCGAAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATCGCACGG
AGCAGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAGGACGCA
GCGGCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGACGCCAGC
GCCCAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGCGAGAAG
AGCAAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGTCGCAGG
CGATGATCGCATATTTACACCAGATCGAAAATTGCCGTTCGCGACTTGGG
ATCGAAATATGGCACCAGAGTGGATGGTAACACTGTTAAGGATGAAAGTA
AAGATCTGACTGGTGAGGAGCATGAAATCAAGTTGGGGAGATATGAACAT
GCGCTGCGTCCGACACGCCATTGATAACAAGTCGATATCCCGAAAGCATA
TGATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGCAAGCGCGTGT
GGCTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAAGATGGA
GATGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACACAACCG
CTCCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAGGATCAAGT
GGCAACCAGTCGTCCTTACGTTCTCCTTTTCCTCGAAAGAACTTAAAGCG
AAAGATCCCCTGGCACAAGTGCGCTCTCGTGTCGAGGATCTGGATATCAA
AACGATTATTCCCTATGTTGTCGACCACACCACGCACGTTGTACAAAAGA
AACGGAATACGGCCAAAGGTCTTCAAGCCTTGGTGAACGGAAAGTACATT
GTGCAGGATTCATATCTTGACGCCTTGGTTTACGCGGCTACCCCGAGCGA
TCTAGAGAACCTTGAGTCGCTGTCCCCGCTGGAGGCCGATTTCGACACTG
CATGGCCGGATGCAATGGCACATCTTCCCCCACCTGGCAAGGAAACCGTA
CAAAGACCAAAGGAAGCGTTTGCTCCGAGGCTCGATCGAATCAAAGTTTT
TGAGGACTACACATTCGTATTCATGGAACCTGCGCAGTTTGGAAACTTGC
AGGATGTTATTACAAACGGCCACGGGAAGGCCCTGCTTTACCAAGTGGAA
GAAAGTGTCACAACGGCGGCAGAGATCGTACAATATATGAGAAATGCGGC
TGGCGACAAAGGTATGGGGAGCCAACGGGATGGCCCTGGCGGCGTGGTTC
TTGTTCGATATGTTGCGAGTGGACGCTATGAGAACTGGTGGGCCGAGCTG
GGTAACGAGGTTGCTTTGACGACCGACCAGCGGGTAATTCAACAGAGCGA
ATTCCTGGACGCCATTCTGGGAAATGACGCTTCTGGCCTGTGCCGATCCT
TGCCTGAGGCCCAGGACATGGATACAGAACCCACACAAGCACCAGCTGCT
ACCCCTGATGTTCAAGAAGTCCAAGACTCACAGCCTCCGACGGAAAGCCA
GCCGTCAACGAAGAGGAAGCCACGAGTTCGAGGATTTGTGAGTAAAATGA
AAACGTTCGATGATGGCTTCGATATCAACTCTATTCCTGTTCATGCGCCG
GAGAGCGTTGATGACTCGCCGCCATTGATGGATATCGAGCCATCGCCGGC
ACAACCATCGCAACCGCAAAGCAGCCTGCAAGAGGAGGAGGAAGAAGAAG
AAGAAGAAGAAGAAGAAGAAGATATGGTCTCAAGCTTACTGCCTGGTGCT
CAAGCGATGAAACGTCGCCGTGCTCAGACGACGCAGAGGGCTAAAGAAGA
GCCCAGTTCCGAGACGAAAGATGAGGCCATGCCGCGGGTTAAACGCCAGA
AACTGGACGTACTGGAGGCTGCGCGACAGCATCGGGAGGCCGAAGATGCG
CAACGCCAGCGTCGGGCGGAAGAAGCGTCGCTGCAAGGTTCTCTTGAGGA
CGTCAATGTGGAGCAGCTCAAAGGGCTTGCGATCGTAGAGGAGATGGAAG
TGAAACCGAGGAATGAGGGCGAAGAGGATCGTCGGTGGGAAGATCGGTGG
AATGGACGCAAGAACTTCAAGAAGTTCCGCCGAAAGGGCGAACCTGGGCA
GCCTCGCTACCGCATCCAGACGGTGATAGTGCCACTAGAGGAGGTGACGC
GAAAGGAGTTTGGGATTGGGGACCATTACTGGGTCAGTAATCGCACGGAG
CAGAGTCCAGCAGACCGACCAGACGAACGAGCAGTCAGCCAGGACGCAGC
GGCATCCCGTTCGCAGTCCTCGGGCCGGGTTGAGTCGGAGACGCCAGCGC
CCAGGGAGACCCGAAGTCAGCCCCGGGTGCAGAAACGGATGCGAGAAGAG
CAAGATTCGGATAGTGATGATGGGCTTCGGTTCCGATTCCGTCGCAGGCG
ATGATCGCATATTTACACCAGATCGAAAATTGCCGTTCGCGACTTGGGAT
CGAAATATGGCACCAGAGTGGATGGTAACACTGTTAAGGATGAAAGTAAA
GATCTGACTGGTGAGGAGCATGAAATCAAGTTGGGGAGATATGAACATGC
GCTGCGTCCGACACGCCATTGATAACAAGTCGATATCCCGAAAGCATATG
ATGATCGAAGTTTCACCTGTCAAATCGGGAGATGGAGCAAGCGCGTGTGG
CTGCGACCGGGGAAGAAGTATCTCTTCGGTCGGATCAAGCAAGATGGAGA
TGTCAACTCGATCCGAGCAGCTGCATCTCGCTGCCAGGCACACAACCGCT
CCCATGTGGATTCTAGACTCGGAGGGTGATTTTCTGGGAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0030870 | Mre11 complex |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006302 | double-strand break repair |
| GO:0007095 | mitotic G2 DNA damage checkpoint |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR040227 |
| InterPro | IPR008984 |
| PFAM | PF00498 |
| InterPro | IPR032429 |
| InterPro | IPR043014 |
| InterPro | IPR000253 |
| PFAM | PF16508 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000006 | supercontig | MCQH01000006:857381..859733 - |
|
