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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000140:177611..180925+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_005146-T1 ID=ATCC10864_005146-T1|Name=ATCC10864_005146-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=3315bp|location=Sequence derived from alignment at MCQH01000140:177611..180925+ (Aspergillus niger ATCC 10864)
ATGTCCCCTCATGACTACGCGGACCGTCAATCAGAATCTGTCGCAGATGC
GGTGACCGCGATGAAGCTGGAGTCCGACGCAGCGCCCGAAAACTCAGCCA
TGCCAAACGGCGGAGGAGCCATGATCAAAGATGAATCGTCAAACGCAGCC
TCCAACGCCTCCCCCGTGCCAACCCCGAAGGCAGAACGATCACGGTCTTC
TTCTCGAGCCCCGGTGAAGAAGGAAGAGAACTACGAAGACGATGGAAGCA
ATTTGAAAGGGGCGGAGAACAACCATGGGGGTAATGTGGAGGAGAAAGTC
GGGGGCGACATTATCGTCAAACTCGAGCCTGGACAGCCTCCCAAATTAAC
ACGGAGCTCTTCCCAGAAGGTAGTCCCAAGGCCACCGCAGTTGTTCGCCC
ATCTACCGGATAGCACAGCTGAGGCTCAAGCGACGTTCGACTTGATGGAC
GCATGCACGTACGCCAATAAATACATGGGTTATACTGAACATGCGATGGA
ATGCGATTGTGCTGAGGAATGGGGTGAGTTTTCCCTGAGATATCTCCTGT
GCTGTTTGTCTACTCGACCTCGCCGTCGCTGGCTTCACCGTGTGACTCCT
ACGCGTGGTGGCGTTCCTCAAACCCATCTTGAGGGGTGGGAACGGCCACT
TCGTCTACACTCCTGCCTTTTTGTTTCTTTTCTGTTCCCACCTGAACACT
CTGTTAATTCAAGTTGTTATTATGATATGTTTCCCTATTTCTGATCGTTC
TTTGATTTCTTGTGTCGTTTTGTGTGTCTCCCCCACCTACGGAACTAGTA
AGTTAACCCATAATTAGAACCGTCGGTATCCAAAAATCTAGCATGTGGTG
AAGACTCGGATTGCATTAACCGCGCGACCAAGATTGAATGCATGGGCGAT
TGTGGATGTGGGCCAGAATGTCAGAATCAACGATTCCAGCGAAGGGAATA
TGCTCCGGTGGCGGTGATCAAAACGGAAAAGAAAGGGTTCGGTCTCCGGG
CGGAGGCTGACCTGCGACCGCACCAATTCATCTTTGAGTATGTTGGCGAG
GTCATCAACGAGGGCCAATTCCGGCGCCGTATGAGACAATATGACGAGGA
GGGAATCAAGCACTTCTATTTCATGTCCCTCAGCAAGGGCGAATTTGTCG
ATGCGACCAAAAAGGGTAATCTCGGCCGGTTTTGCAACCATTCGTGCAAT
CCCAATTGTTATGTCGACAAGTGGGTTGTTGGTGAGAAACTTCGTATGGG
CATTTTTGCTGAACGACACATTCAAGCTGGCGAGGAACTCGTCTTCAACT
ACAATGTCGACCGCTACGGGGCAGATCCGCAACCGTGTTACTGCGGCGAG
CCTAACTGCACAGGCTTTATCGGAGGTAGAACTCAGACTGAGCGGGCCAC
AAAGTTGTCGAATGCTACCATCGAGGCTTTGGGTATTGACGATGCAGATG
GCTGGGACACCGCCGTCGCGAAGCGGCCACGCAAGAAGAAGACGGGAGAG
GACGATGAGGAATATGTGGACAGTGTGCAGCCGAAGTCCCTGGAGGAGAA
TGGCGTGACCAAGGTCATGGCGGCGCTCATGCAATGCAAGGAGAAATGGA
TCGCGGTCAAGCTCCTGGGACGGATTCAGCGCTGTGATGATGAGCGAGTC
CGGAACCGGGTGGTGAAAATGCATGGATATCAGATCCTGAACTCCCAGCT
GGGCATGTGGAAGGAAGATCACAACGTCGTTTTACAGATTCTCGACATCC
TCGACAAGTTTCCCCGTCTGACGCGAAACAAGATCATCGATTCTAAGATC
GAGTCTACCATCCAACCACTGACCAGCTGTGGTGATGAGCGTGTGGAGAA
GAAGTCAGCCACGTTGCTACAAGTCTGGTCGACCCTCGAGGTTGGTTATC
GCATTCCGCGCATGAAGAGAGATCCCAATGCCATGACGCCAGCTGTCAAT
CAGTTCGGGCGGCGAGAGAACACTCGCGATGAGCGACGACGGTCAAAGTC
CCGTTCCCGATCGAGGTCACGCTCTATAGAAGCCCCTCGCGGCCCAGCTG
CTCAAACACGAGGCGGACATGGCCAGAGAAACCCCCACCATCACGGTCCC
CGACCCTTCCGTCGACAATTCAATCCCCTCCCGCCAGGATGGTTCGCAGC
AGAATCAAATGGGAGGACTTATTATTACTCGGCTCGCGGCGATACTACCT
GGACACGGCCAACCAAGCCCGCCCCTCAACCGCCGCCGGCCCCCAAAGAA
TCGAGAGACAAGGCATTGCAGGATATCATTGACGGCATTATGAACGCCAA
GGAGAATACGCCAAAGGAGAAGAGCGGAACTCCGGCTACACCACAGGCGT
CCAGACCAACGCCGGATATGAAGGATGGTCAAGAAAAGTGGAGGTCATAT
AGCGAAGAGAAGCGAAAGAAGATATATGAGAACACGGTGAGTAATACAGC
GTTCGAGGGGAAAGATAACAAACGGTGCGCAAGTACTGACGGAGAATAGC
TCTATCCCCATGTCAAGTATGTGGTGGACAAGTTCAAGCATAAACTTCCG
AAAGACGACCTGAAACGCTATGCCAAAGACGTGAGACGCAGCCTCCCAAC
GCTCTTCTAAAGAAAAGATGATCAAGCTAATCAATTGCTGTCGACGCAGG
TGGCTAAGAAATTGGTTAATTCGGATTTCAAAAACAACCGTGTTGGTGAC
CCTACCAAGATCGATGACAAGCAGCAAAAGAAGGTGAAAAAGTTCTGCAA
AGAATTCTTCGACAAGGCTGTCGCCAAGCACCGCGCATACGAACAACGGA
AAGCAGAGCGGCAGTCGAAGGAGCCAGATTCGAAGCCAAACGACGCGGCA
GCCGAGGTTGTCGAGGACGACGGTCCGGACATGAAGATGTCTGACGATGA
GGACGATCGGGTTACAGCACAGGATGGCGAGACGCCTACGACCATGACAG
AGGATTTGCAAGGCCATCTGAAACGTAAGAGAGAAGATGAGCCAAGCATC
GGTGATGGAAGCATGACCGAGTATACCACCCCGTCTTCTTCCAAGCGACA
ACGATCCTCTACGCCGCCACCACCCCCTCCTCCTCCCATGAGCCCTGGTA
ACGAGCAAGGCCAAAGTGGCGAAGATGGGAACATGAAGAGCGATACAGAT
GAGCCCACCCCTGCGGACAAACAAGATCTTGATTCTCCTCCGCCTCCTCC
ACCACCTCCTCCCTACCCTGGGCAGGAGATGGATACCAACAACGACCATT
TCAACCCCGAAGACGGGGTCAAGGAGCTAAACCCATCCCAAATTGGCATC
GAGGGGCGGGTATAG back to topCoding sequence (CDS) from alignment at MCQH01000140:177611..180925+ >ATCC10864_005146-T1 ID=ATCC10864_005146-T1|Name=ATCC10864_005146-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=11556bp|location=Sequence derived from alignment at MCQH01000140:177611..180925+ (Aspergillus niger ATCC 10864)
ATGTCCCCTCATGACTACGCGGACCGTCAATCAGAATCTGTCGCAGATGC
GGTGACCGCGATGAAGCTGGAGTCCGACGCAGCGCCCGAAAACTCAGCCA
TGCCAAACGGCGGAGGAGCCATGATCAAAGATGAATCGTCAAACGCAGCC
TCCAACGCCTCCCCCGTGCCAACCCCGAAGGCAGAACGATCACGGTCTTC
TTCTCGAGCCCCGGTGAAGAAGGAAGAGAACTACGAAGACGATGGAAGCA
ATTTGAAAGGGGCGGAGAACAACCATGGGGGTAATGTGGAGGAGAAAGTC
GGGGGCGACATTATCGTCAAACTCGAGCCTGGACAGCCTCCCAAATTAAC
ACGGAGCTCTTCCCAGAAGGTAGTCCCAAGGCCACCGCAGTTGTTCGCCC
ATCTACCGGATAGCACAGCTGAGGCTCAAGCGACGTTCGACTTGATGGAC
GCATGCACGTACGCCAATAAATACATGGGTTATACTGAACATGCGATGGA
ATGCGATTGTGCTGAGGAATGGGAACCGTCGGTATCCAAAAATCTAGCAT
GTGGTGAAGACTCGGATTGCATTAACCGCGCGACCAAGATTGAATGCATG
GGCGATTGTGGATGTGGGCCAGAATGTCAGAATCAACGATTCCAGCGAAG
GGAATATGCTCCGGTGGCGGTGATCAAAACGGAAAAGAAAGGGTTCGGTC
TCCGGGCGGAGGCTGACCTGCGACCGCACCAATTCATCTTTGAGTATGTT
GGCGAGGTCATCAACGAGGGCCAATTCCGGCGCCGTATGAGACAATATGA
CGAGGAGGGAATCAAGCACTTCTATTTCATGTCCCTCAGCAAGGGCGAAT
TTGTCGATGCGACCAAAAAGGGTAATCTCGGCCGGTTTTGCAACCATTCG
TGCAATCCCAATTGTTATGTCGACAAGTGGGTTGTTGGTGAGAAACTTCG
TATGGGCATTTTTGCTGAACGACACATTCAAGCTGGCGAGGAACTCGTCT
TCAACTACAATGTCGACCGCTACGGGGCAGATCCGCAACCGTGTTACTGC
GGCGAGCCTAACTGCACAGGCTTTATCGGAGGTAGAACTCAGACTGAGCG
GGCCACAAAGTTGTCGAATGCTACCATCGAGGCTTTGGGTATTGACGATG
CAGATGGCTGGGACACCGCCGTCGCGAAGCGGCCACGCAAGAAGAAGACG
GGAGAGGACGATGAGGAATATGTGGACAGTGTGCAGCCGAAGTCCCTGGA
GGAGAATGGCGTGACCAAGGTCATGGCGGCGCTCATGCAATGCAAGGAGA
AATGGATCGCGGTCAAGCTCCTGGGACGGATTCAGCGCTGTGATGATGAG
CGAGTCCGGAACCGGGTGGTGAAAATGCATGGATATCAGATCCTGAACTC
CCAGCTGGGCATGTGGAAGGAAGATCACAACGTCGTTTTACAGATTCTCG
ACATCCTCGACAAGTTTCCCCGTCTGACGCGAAACAAGATCATCGATTCT
AAGATCGAGTCTACCATCCAACCACTGACCAGCTGTGGTGATGAGCGTGT
GGAGAAGAAGTCAGCCACGTTGCTACAAGTCTGGTCGACCCTCGAGGTTG
GTTATCGCATTCCGCGCATGAAGAGAGATCCCAATGCCATGACGCCAGCT
GTCAATCAGTTCGGGCGGCGAGAGAACACTCGCGATGAGCGACGACGGTC
AAAGTCCCGTTCCCGATCGAGGTCACGCTCTATAGAAGCCCCTCGCGGCC
CAGCTGCTCAAACACGAGGCGGACATGGCCAGAGAAACCCCCACCATCAC
GGTCCCCGACCCTTCCGTCGACAATTCAATCCCCTCCCGCCAGGATGGTT
CGCAGCAGAATCAAATGGGAGGACTTATTATTACTCGGCTCGCGGCGATA
CTACCTGGACACGGCCAACCAAGCCCGCCCCTCAACCGCCGCCGGCCCCC
AAAGAATCGAGAGACAAGGCATTGCAGGATATCATTGACGGCATTATGAA
CGCCAAGGAGAATACGCCAAAGGAGAAGAGCGGAACTCCGGCTACACCAC
AGGCGTCCAGACCAACGCCGGATATGAAGGATGGTCAAGAAAAGTGGAGG
TCATATAGCGAAGAGAAGCGAAAGAAGATATATGAGAACACGCTCTATCC
CCATGTCAAGTATGTGGTGGACAAGTTCAAGCATAAACTTCCGAAAGACG
ACCTGAAACGCTATGCCAAAGACGTGGCTAAGAAATTGGTTAATTCGGAT
TTCAAAAACAACCGTGTTGGTGACCCTACCAAGATCGATGACAAGCAGCA
AAAGAAGGTGAAAAAGTTCTGCAAAGAATTCTTCGACAAGGCTGTCGCCA
AGCACCGCGCATACGAACAACGGAAAGCAGAGCGGCAGTCGAAGGAGCCA
GATTCGAAGCCAAACGACGCGGCAGCCGAGGTTGTCGAGGACGACGGTCC
GGACATGAAGATGTCTGACGATGAGGACGATCGGGTTACAGCACAGGATG
GCGAGACGCCTACGACCATGACAGAGGATTTGCAAGGCCATCTGAAACGT
AAGAGAGAAGATGAGCCAAGCATCGGTGATGGAAGCATGACCGAGTATAC
CACCCCGTCTTCTTCCAAGCGACAACGATCCTCTACGCCGCCACCACCCC
CTCCTCCTCCCATGAGCCCTGGTAACGAGCAAGGCCAAAGTGGCGAAGAT
GGGAACATGAAGAGCGATACAGATGAGCCCACCCCTGCGGACAAACAAGA
TCTTGATTCTCCTCCGCCTCCTCCACCACCTCCTCCCTACCCTGGGCAGG
AGATGGATACCAACAACGACCATTTCAACCCCGAAGACGGGGTCAAGGAG
CTAAACCCATCCCAAATTGGCATCGAGGGGCGGGTATAGATGTCCCCTCA
TGACTACGCGGACCGTCAATCAGAATCTGTCGCAGATGCGGTGACCGCGA
TGAAGCTGGAGTCCGACGCAGCGCCCGAAAACTCAGCCATGCCAAACGGC
GGAGGAGCCATGATCAAAGATGAATCGTCAAACGCAGCCTCCAACGCCTC
CCCCGTGCCAACCCCGAAGGCAGAACGATCACGGTCTTCTTCTCGAGCCC
CGGTGAAGAAGGAAGAGAACTACGAAGACGATGGAAGCAATTTGAAAGGG
GCGGAGAACAACCATGGGGGTAATGTGGAGGAGAAAGTCGGGGGCGACAT
TATCGTCAAACTCGAGCCTGGACAGCCTCCCAAATTAACACGGAGCTCTT
CCCAGAAGGTAGTCCCAAGGCCACCGCAGTTGTTCGCCCATCTACCGGAT
AGCACAGCTGAGGCTCAAGCGACGTTCGACTTGATGGACGCATGCACGTA
CGCCAATAAATACATGGGTTATACTGAACATGCGATGGAATGCGATTGTG
CTGAGGAATGGGAACCGTCGGTATCCAAAAATCTAGCATGTGGTGAAGAC
TCGGATTGCATTAACCGCGCGACCAAGATTGAATGCATGGGCGATTGTGG
ATGTGGGCCAGAATGTCAGAATCAACGATTCCAGCGAAGGGAATATGCTC
CGGTGGCGGTGATCAAAACGGAAAAGAAAGGGTTCGGTCTCCGGGCGGAG
GCTGACCTGCGACCGCACCAATTCATCTTTGAGTATGTTGGCGAGGTCAT
CAACGAGGGCCAATTCCGGCGCCGTATGAGACAATATGACGAGGAGGGAA
TCAAGCACTTCTATTTCATGTCCCTCAGCAAGGGCGAATTTGTCGATGCG
ACCAAAAAGGGTAATCTCGGCCGGTTTTGCAACCATTCGTGCAATCCCAA
TTGTTATGTCGACAAGTGGGTTGTTGGTGAGAAACTTCGTATGGGCATTT
TTGCTGAACGACACATTCAAGCTGGCGAGGAACTCGTCTTCAACTACAAT
GTCGACCGCTACGGGGCAGATCCGCAACCGTGTTACTGCGGCGAGCCTAA
CTGCACAGGCTTTATCGGAGGTAGAACTCAGACTGAGCGGGCCACAAAGT
TGTCGAATGCTACCATCGAGGCTTTGGGTATTGACGATGCAGATGGCTGG
GACACCGCCGTCGCGAAGCGGCCACGCAAGAAGAAGACGGGAGAGGACGA
TGAGGAATATGTGGACAGTGTGCAGCCGAAGTCCCTGGAGGAGAATGGCG
TGACCAAGGTCATGGCGGCGCTCATGCAATGCAAGGAGAAATGGATCGCG
GTCAAGCTCCTGGGACGGATTCAGCGCTGTGATGATGAGCGAGTCCGGAA
CCGGGTGGTGAAAATGCATGGATATCAGATCCTGAACTCCCAGCTGGGCA
TGTGGAAGGAAGATCACAACGTCGTTTTACAGATTCTCGACATCCTCGAC
AAGTTTCCCCGTCTGACGCGAAACAAGATCATCGATTCTAAGATCGAGTC
TACCATCCAACCACTGACCAGCTGTGGTGATGAGCGTGTGGAGAAGAAGT
CAGCCACGTTGCTACAAGTCTGGTCGACCCTCGAGGTTGGTTATCGCATT
CCGCGCATGAAGAGAGATCCCAATGCCATGACGCCAGCTGTCAATCAGTT
CGGGCGGCGAGAGAACACTCGCGATGAGCGACGACGGTCAAAGTCCCGTT
CCCGATCGAGGTCACGCTCTATAGAAGCCCCTCGCGGCCCAGCTGCTCAA
ACACGAGGCGGACATGGCCAGAGAAACCCCCACCATCACGGTCCCCGACC
CTTCCGTCGACAATTCAATCCCCTCCCGCCAGGATGGTTCGCAGCAGAAT
CAAATGGGAGGACTTATTATTACTCGGCTCGCGGCGATACTACCTGGACA
CGGCCAACCAAGCCCGCCCCTCAACCGCCGCCGGCCCCCAAAGAATCGAG
AGACAAGGCATTGCAGGATATCATTGACGGCATTATGAACGCCAAGGAGA
ATACGCCAAAGGAGAAGAGCGGAACTCCGGCTACACCACAGGCGTCCAGA
CCAACGCCGGATATGAAGGATGGTCAAGAAAAGTGGAGGTCATATAGCGA
AGAGAAGCGAAAGAAGATATATGAGAACACGCTCTATCCCCATGTCAAGT
ATGTGGTGGACAAGTTCAAGCATAAACTTCCGAAAGACGACCTGAAACGC
TATGCCAAAGACGTGGCTAAGAAATTGGTTAATTCGGATTTCAAAAACAA
CCGTGTTGGTGACCCTACCAAGATCGATGACAAGCAGCAAAAGAAGGTGA
AAAAGTTCTGCAAAGAATTCTTCGACAAGGCTGTCGCCAAGCACCGCGCA
TACGAACAACGGAAAGCAGAGCGGCAGTCGAAGGAGCCAGATTCGAAGCC
AAACGACGCGGCAGCCGAGGTTGTCGAGGACGACGGTCCGGACATGAAGA
TGTCTGACGATGAGGACGATCGGGTTACAGCACAGGATGGCGAGACGCCT
ACGACCATGACAGAGGATTTGCAAGGCCATCTGAAACGTAAGAGAGAAGA
TGAGCCAAGCATCGGTGATGGAAGCATGACCGAGTATACCACCCCGTCTT
CTTCCAAGCGACAACGATCCTCTACGCCGCCACCACCCCCTCCTCCTCCC
ATGAGCCCTGGTAACGAGCAAGGCCAAAGTGGCGAAGATGGGAACATGAA
GAGCGATACAGATGAGCCCACCCCTGCGGACAAACAAGATCTTGATTCTC
CTCCGCCTCCTCCACCACCTCCTCCCTACCCTGGGCAGGAGATGGATACC
AACAACGACCATTTCAACCCCGAAGACGGGGTCAAGGAGCTAAACCCATC
CCAAATTGGCATCGAGGGGCGGGTATAGATGTCCCCTCATGACTACGCGG
ACCGTCAATCAGAATCTGTCGCAGATGCGGTGACCGCGATGAAGCTGGAG
TCCGACGCAGCGCCCGAAAACTCAGCCATGCCAAACGGCGGAGGAGCCAT
GATCAAAGATGAATCGTCAAACGCAGCCTCCAACGCCTCCCCCGTGCCAA
CCCCGAAGGCAGAACGATCACGGTCTTCTTCTCGAGCCCCGGTGAAGAAG
GAAGAGAACTACGAAGACGATGGAAGCAATTTGAAAGGGGCGGAGAACAA
CCATGGGGGTAATGTGGAGGAGAAAGTCGGGGGCGACATTATCGTCAAAC
TCGAGCCTGGACAGCCTCCCAAATTAACACGGAGCTCTTCCCAGAAGGTA
GTCCCAAGGCCACCGCAGTTGTTCGCCCATCTACCGGATAGCACAGCTGA
GGCTCAAGCGACGTTCGACTTGATGGACGCATGCACGTACGCCAATAAAT
ACATGGGTTATACTGAACATGCGATGGAATGCGATTGTGCTGAGGAATGG
GAACCGTCGGTATCCAAAAATCTAGCATGTGGTGAAGACTCGGATTGCAT
TAACCGCGCGACCAAGATTGAATGCATGGGCGATTGTGGATGTGGGCCAG
AATGTCAGAATCAACGATTCCAGCGAAGGGAATATGCTCCGGTGGCGGTG
ATCAAAACGGAAAAGAAAGGGTTCGGTCTCCGGGCGGAGGCTGACCTGCG
ACCGCACCAATTCATCTTTGAGTATGTTGGCGAGGTCATCAACGAGGGCC
AATTCCGGCGCCGTATGAGACAATATGACGAGGAGGGAATCAAGCACTTC
TATTTCATGTCCCTCAGCAAGGGCGAATTTGTCGATGCGACCAAAAAGGG
TAATCTCGGCCGGTTTTGCAACCATTCGTGCAATCCCAATTGTTATGTCG
ACAAGTGGGTTGTTGGTGAGAAACTTCGTATGGGCATTTTTGCTGAACGA
CACATTCAAGCTGGCGAGGAACTCGTCTTCAACTACAATGTCGACCGCTA
CGGGGCAGATCCGCAACCGTGTTACTGCGGCGAGCCTAACTGCACAGGCT
TTATCGGAGGTAGAACTCAGACTGAGCGGGCCACAAAGTTGTCGAATGCT
ACCATCGAGGCTTTGGGTATTGACGATGCAGATGGCTGGGACACCGCCGT
CGCGAAGCGGCCACGCAAGAAGAAGACGGGAGAGGACGATGAGGAATATG
TGGACAGTGTGCAGCCGAAGTCCCTGGAGGAGAATGGCGTGACCAAGGTC
ATGGCGGCGCTCATGCAATGCAAGGAGAAATGGATCGCGGTCAAGCTCCT
GGGACGGATTCAGCGCTGTGATGATGAGCGAGTCCGGAACCGGGTGGTGA
AAATGCATGGATATCAGATCCTGAACTCCCAGCTGGGCATGTGGAAGGAA
GATCACAACGTCGTTTTACAGATTCTCGACATCCTCGACAAGTTTCCCCG
TCTGACGCGAAACAAGATCATCGATTCTAAGATCGAGTCTACCATCCAAC
CACTGACCAGCTGTGGTGATGAGCGTGTGGAGAAGAAGTCAGCCACGTTG
CTACAAGTCTGGTCGACCCTCGAGGTTGGTTATCGCATTCCGCGCATGAA
GAGAGATCCCAATGCCATGACGCCAGCTGTCAATCAGTTCGGGCGGCGAG
AGAACACTCGCGATGAGCGACGACGGTCAAAGTCCCGTTCCCGATCGAGG
TCACGCTCTATAGAAGCCCCTCGCGGCCCAGCTGCTCAAACACGAGGCGG
ACATGGCCAGAGAAACCCCCACCATCACGGTCCCCGACCCTTCCGTCGAC
AATTCAATCCCCTCCCGCCAGGATGGTTCGCAGCAGAATCAAATGGGAGG
ACTTATTATTACTCGGCTCGCGGCGATACTACCTGGACACGGCCAACCAA
GCCCGCCCCTCAACCGCCGCCGGCCCCCAAAGAATCGAGAGACAAGGCAT
TGCAGGATATCATTGACGGCATTATGAACGCCAAGGAGAATACGCCAAAG
GAGAAGAGCGGAACTCCGGCTACACCACAGGCGTCCAGACCAACGCCGGA
TATGAAGGATGGTCAAGAAAAGTGGAGGTCATATAGCGAAGAGAAGCGAA
AGAAGATATATGAGAACACGCTCTATCCCCATGTCAAGTATGTGGTGGAC
AAGTTCAAGCATAAACTTCCGAAAGACGACCTGAAACGCTATGCCAAAGA
CGTGGCTAAGAAATTGGTTAATTCGGATTTCAAAAACAACCGTGTTGGTG
ACCCTACCAAGATCGATGACAAGCAGCAAAAGAAGGTGAAAAAGTTCTGC
AAAGAATTCTTCGACAAGGCTGTCGCCAAGCACCGCGCATACGAACAACG
GAAAGCAGAGCGGCAGTCGAAGGAGCCAGATTCGAAGCCAAACGACGCGG
CAGCCGAGGTTGTCGAGGACGACGGTCCGGACATGAAGATGTCTGACGAT
GAGGACGATCGGGTTACAGCACAGGATGGCGAGACGCCTACGACCATGAC
AGAGGATTTGCAAGGCCATCTGAAACGTAAGAGAGAAGATGAGCCAAGCA
TCGGTGATGGAAGCATGACCGAGTATACCACCCCGTCTTCTTCCAAGCGA
CAACGATCCTCTACGCCGCCACCACCCCCTCCTCCTCCCATGAGCCCTGG
TAACGAGCAAGGCCAAAGTGGCGAAGATGGGAACATGAAGAGCGATACAG
ATGAGCCCACCCCTGCGGACAAACAAGATCTTGATTCTCCTCCGCCTCCT
CCACCACCTCCTCCCTACCCTGGGCAGGAGATGGATACCAACAACGACCA
TTTCAACCCCGAAGACGGGGTCAAGGAGCTAAACCCATCCCAAATTGGCA
TCGAGGGGCGGGTATAGATGTCCCCTCATGACTACGCGGACCGTCAATCA
GAATCTGTCGCAGATGCGGTGACCGCGATGAAGCTGGAGTCCGACGCAGC
GCCCGAAAACTCAGCCATGCCAAACGGCGGAGGAGCCATGATCAAAGATG
AATCGTCAAACGCAGCCTCCAACGCCTCCCCCGTGCCAACCCCGAAGGCA
GAACGATCACGGTCTTCTTCTCGAGCCCCGGTGAAGAAGGAAGAGAACTA
CGAAGACGATGGAAGCAATTTGAAAGGGGCGGAGAACAACCATGGGGGTA
ATGTGGAGGAGAAAGTCGGGGGCGACATTATCGTCAAACTCGAGCCTGGA
CAGCCTCCCAAATTAACACGGAGCTCTTCCCAGAAGGTAGTCCCAAGGCC
ACCGCAGTTGTTCGCCCATCTACCGGATAGCACAGCTGAGGCTCAAGCGA
CGTTCGACTTGATGGACGCATGCACGTACGCCAATAAATACATGGGTTAT
ACTGAACATGCGATGGAATGCGATTGTGCTGAGGAATGGGAACCGTCGGT
ATCCAAAAATCTAGCATGTGGTGAAGACTCGGATTGCATTAACCGCGCGA
CCAAGATTGAATGCATGGGCGATTGTGGATGTGGGCCAGAATGTCAGAAT
CAACGATTCCAGCGAAGGGAATATGCTCCGGTGGCGGTGATCAAAACGGA
AAAGAAAGGGTTCGGTCTCCGGGCGGAGGCTGACCTGCGACCGCACCAAT
TCATCTTTGAGTATGTTGGCGAGGTCATCAACGAGGGCCAATTCCGGCGC
CGTATGAGACAATATGACGAGGAGGGAATCAAGCACTTCTATTTCATGTC
CCTCAGCAAGGGCGAATTTGTCGATGCGACCAAAAAGGGTAATCTCGGCC
GGTTTTGCAACCATTCGTGCAATCCCAATTGTTATGTCGACAAGTGGGTT
GTTGGTGAGAAACTTCGTATGGGCATTTTTGCTGAACGACACATTCAAGC
TGGCGAGGAACTCGTCTTCAACTACAATGTCGACCGCTACGGGGCAGATC
CGCAACCGTGTTACTGCGGCGAGCCTAACTGCACAGGCTTTATCGGAGGT
AGAACTCAGACTGAGCGGGCCACAAAGTTGTCGAATGCTACCATCGAGGC
TTTGGGTATTGACGATGCAGATGGCTGGGACACCGCCGTCGCGAAGCGGC
CACGCAAGAAGAAGACGGGAGAGGACGATGAGGAATATGTGGACAGTGTG
CAGCCGAAGTCCCTGGAGGAGAATGGCGTGACCAAGGTCATGGCGGCGCT
CATGCAATGCAAGGAGAAATGGATCGCGGTCAAGCTCCTGGGACGGATTC
AGCGCTGTGATGATGAGCGAGTCCGGAACCGGGTGGTGAAAATGCATGGA
TATCAGATCCTGAACTCCCAGCTGGGCATGTGGAAGGAAGATCACAACGT
CGTTTTACAGATTCTCGACATCCTCGACAAGTTTCCCCGTCTGACGCGAA
ACAAGATCATCGATTCTAAGATCGAGTCTACCATCCAACCACTGACCAGC
TGTGGTGATGAGCGTGTGGAGAAGAAGTCAGCCACGTTGCTACAAGTCTG
GTCGACCCTCGAGGTTGGTTATCGCATTCCGCGCATGAAGAGAGATCCCA
ATGCCATGACGCCAGCTGTCAATCAGTTCGGGCGGCGAGAGAACACTCGC
GATGAGCGACGACGGTCAAAGTCCCGTTCCCGATCGAGGTCACGCTCTAT
AGAAGCCCCTCGCGGCCCAGCTGCTCAAACACGAGGCGGACATGGCCAGA
GAAACCCCCACCATCACGGTCCCCGACCCTTCCGTCGACAATTCAATCCC
CTCCCGCCAGGATGGTTCGCAGCAGAATCAAATGGGAGGACTTATTATTA
CTCGGCTCGCGGCGATACTACCTGGACACGGCCAACCAAGCCCGCCCCTC
AACCGCCGCCGGCCCCCAAAGAATCGAGAGACAAGGCATTGCAGGATATC
ATTGACGGCATTATGAACGCCAAGGAGAATACGCCAAAGGAGAAGAGCGG
AACTCCGGCTACACCACAGGCGTCCAGACCAACGCCGGATATGAAGGATG
GTCAAGAAAAGTGGAGGTCATATAGCGAAGAGAAGCGAAAGAAGATATAT
GAGAACACGCTCTATCCCCATGTCAAGTATGTGGTGGACAAGTTCAAGCA
TAAACTTCCGAAAGACGACCTGAAACGCTATGCCAAAGACGTGGCTAAGA
AATTGGTTAATTCGGATTTCAAAAACAACCGTGTTGGTGACCCTACCAAG
ATCGATGACAAGCAGCAAAAGAAGGTGAAAAAGTTCTGCAAAGAATTCTT
CGACAAGGCTGTCGCCAAGCACCGCGCATACGAACAACGGAAAGCAGAGC
GGCAGTCGAAGGAGCCAGATTCGAAGCCAAACGACGCGGCAGCCGAGGTT
GTCGAGGACGACGGTCCGGACATGAAGATGTCTGACGATGAGGACGATCG
GGTTACAGCACAGGATGGCGAGACGCCTACGACCATGACAGAGGATTTGC
AAGGCCATCTGAAACGTAAGAGAGAAGATGAGCCAAGCATCGGTGATGGA
AGCATGACCGAGTATACCACCCCGTCTTCTTCCAAGCGACAACGATCCTC
TACGCCGCCACCACCCCCTCCTCCTCCCATGAGCCCTGGTAACGAGCAAG
GCCAAAGTGGCGAAGATGGGAACATGAAGAGCGATACAGATGAGCCCACC
CCTGCGGACAAACAAGATCTTGATTCTCCTCCGCCTCCTCCACCACCTCC
TCCCTACCCTGGGCAGGAGATGGATACCAACAACGACCATTTCAACCCCG
AAGACGGGGTCAAGGAGCTAAACCCATCCCAAATTGGCATCGAGGGGCGG
GTATAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0010452 | histone H3-K36 methylation |
| GO:0034968 | histone lysine methylation |
| GO:0006355 | regulation of transcription, DNA-templated |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005694 | chromosome |
| GO:0005634 | nucleus |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0018024 | histone-lysine N-methyltransferase activity |
| GO:0005515 | protein binding |
| GO:0046975 | histone methyltransferase activity (H3-K36 specific) |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR044437 |
| InterPro | IPR013257 |
| InterPro | IPR001202 |
| InterPro | IPR025788 |
| InterPro | IPR006560 |
| PFAM | PF00856 |
| InterPro | IPR003616 |
| InterPro | IPR036020 |
| InterPro | IPR001214 |
| PFAM | PF08236 |
| InterPro | IPR038190 |
| PFAM | PF17907 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09261B14 |
| Product | histone methyltransferase set2 |
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 |
|---|
| MCQH01000140 | supercontig | MCQH01000140:177611..180925 + |
|
