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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch1:913939..918380- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_000463-T1 ID=KYF_000463-T1|Name=KYF_000463-T1|organism=Aspergillus niger KYF3|type=mRNA|length=4442bp|location=Sequence derived from alignment at ch1:913939..918380- (Aspergillus niger KYF3)
ATGCAGCCTCCAGAAGGTGTGCAGGTCGACCTGGGCAAGGCCCAGGTCAT
TGACCGCGTTCCCAAAGTTATCAAGGAGTTGAAGTTTGGTGTTCTGTAAG
CATGGCTCTGCTTCTCCCCGTTCTACCCCTCCTGGATCTCCGCTGCGGAG
CAGTCAAGACTAATACCGCGCGCGAATCGTCCAGGTCCAACGATGACATT
GTCAGCCAAGGTGTGGTGGAAGTTTCGGATCGCAAGTTCTTCGATCTCGA
TCATGATCGAGCGGTGGTAGCCAATGGTCCTCTCGATGCGCGCATGGGTA
TCTCCAACAAGACCTCCTCATGTCAGACTTGTGGTGGCACTCTCCAGATT
TGCAATGGACACTTCGGTCATGTCCGGCTCGTGCTACCGGCTTTCCACGT
CGGTTACTTCAAGCGAGTCATTACTATTTTGCAGGAAGTGTGCAAGGAAT
GTTCGCGCATTCTGCTCCCCGAAGCCGATCGCCGTGCCTATCTTCGTGAA
ATGCGTCGTCCTGGGTTGGATAATTTGCGGCGCGGCCAGATTGCGAAGCG
GATCAACGAGCGGTGCCGTAAGACACGCAACTGCGAGGCCTGTGGTGCGG
TTAACGGTGTGGTGAAGAAAGCTGGAACGAGCGCCCTCAAAATCACCCAC
GACAAATTCCGTGCATTCAACGCCTCGACCTCCGTCAAGAAAGTTCCGCC
GCCCAGCAAGATTGTTTTCGACCGGTCATTCGACGAAGCCAGAACGTCCA
ATGCTGAGGTCGAGAAACATTACAAGAAGGCCCAGGATGATATGAACGCT
CTTCGCGTGCTGAACCTGTTCAAGAAGATTTCCGATACCGATTGCGAGCT
GCTTGGTTTGAACCCGAAGGAAGCAAGACCGGAAATGTTCCTCTGGCAAT
TCATCCCCGCTCCTCCGGTGTGTATTCGTCCTTCCGTCGGTCAGGATGCG
GCGTCCACTGAGGACGATTTGACAGCCAAGCTAGGCGACATTGTCCAGAG
CAATATCAACCTGAAAAACGCATTGTTGAAGGGCGCACCGGTACAGACAA
TTATGGAATGCTGGGACTACATGCAGCTACAGATTGCGGTGTATATCAAC
AGTGATGTGCCGGGTCTGAACAAGGCAGACCTTGGAAAGCCCATTCGTGG
TTTCGTGCAGCGATTGAAGGGTAAGCAGGGTCGGTTCCGTGGTAACTTGT
CCGGAAAGCGTGTAGATTTCTCAGGCCGTACTGTCATTTCCCCCGATCCC
AACCTGCGAGTCGATGAGGTTGCGGTCCCTGAATTGGTGGCCAAGAACAT
GACCTATCCCGAAGTTGTTACTCGGTACAATAAAGAGAAGCTACAGCAGA
GAGTCCGAAACGGCACGAAGAAGTGGCCGGGTGCAAACTACATTATGAAA
AAGGGCCAGACGTTCAAGCTCTTCCTTAAATATGGTAACCTGAACATGAT
TGCCGACCAACTGCAGGAGGGTGATGTTATTGAGCGCCACATCGAGGACG
GTGATATTGTTCTGTTCAACCGACAGCCCTCTCTGCACAAGCTCAGTATT
CTGTCTCACTTTGCCAAAGTTCGTCCTCACCGGACCTTCCGACTGAATGA
GTGTGTCTGTAACCCTTACAACGCGGATTTCGACGGAGACGAGATGAACT
TGCACGTGCCTCAGACGGAGGAGGCGAGAGCCGAAGCGATGGAACTGATG
GGAGTCAAGAACAACTTGGCCACGCCCAAGAACGGAGAGCCGATTATTTC
TGCCATTCAAGATTTCATCAGTGCCGCCTACATTCTCAGTAGCAAGGACA
ACTTCTTCGACCGCCGCTCGTTCACCCAAATTTGTCTGTACATGCTGGGC
CCGCAGACACGCTTCGACCTGCCCCCTCCAGCTGTGCTTAAGCCTCAGAT
GTTGTGGACCGGAAAGCAGGTTTTCAACATCCTCATGCGGCCGAACAAGG
ATGACCCCGTCTTGGTCAATTTGGATGCTGCGTGCAGACAGTTCAAGGCT
CCCAAGGATGGTACGCCACGGGATCTGGACCCGAAGGATTCCTGGCTCGT
CATCCGTAACTCCGAGGTGATGTGTGGTGTGATGGACAAATCCACCATTG
GTTCCGGAAAGAAAGACAACGTGTTCTATATCATGCTGAGAGATTACGGG
CCTGTGGCGGCTGCCGAGGGTATGAACCGCCTGTCCAGGCTCTCAGCCCG
CTGGTTCACAAACATGGGATTCTCGATCGGTATCACCGACGTATATCCCA
GCGAAAAGCTCCTACGTTCGAAGCATGACCTCGTCGAAACGGCGTACGCA
CAGTGTGACGAAGTCATTGCCAAGTACAAGGCAGGCACACTGGAGAAATA
TCCTGGTTGTGACGAGTTGCAGACCATGGAGAACCAACTGTCCGGTATTC
TCAGTAAGGTCCGTCAGCAGGCAGGAGACGAGTGTATCGCTCAGTTGAGC
AAATACAACTCGCCCCTAATCATGGCCACGTCCGGATCCAAGGGTTCCAG
TATCAACGTGTCCCAGATGGTTGCCCTTGTCGGTCAGCAGATTATCGGTG
GTCAGCGTGTGCAGGACGGCTTCCAGGACCGTACCCTGCCGCACTTCCCC
AAGAACGCTCGCCAGCCCCCGTCCAAGGGTTTCGTCCGTAACAGTTTCTT
CTCCGGACTGGAGCCCACGGAGTTTATTTTCCACGCCATGTCCGGTCGTG
AAGGTCTGGTCGATACGGCCGTCAAGACCGCCGAGACGGGTTACATGTCT
CGTCGGTTGATGAAGTCGCTTGAAGATCTCTCGACCAGATACGATGATAC
CGTGCGTAACTCGTCCGCGGCCATTGTCCAGTTCCAGTACGGTGATGATA
AGCTTGATCCCTTGGATATGGAAGGTAAAGCCAAGCCTGTCCATTTCGAC
CGGACTTTCATCCACGCCGAGTCGACGACTTACAAGAACGACGAGCGGAG
TTTGCTTCCGGCCGAGATCATGGAGATTTGTGAAGAGATGCTTTCGAAGG
AGCGCTCTAAGCTGGTGCGGAAGGATTTGATGGGCAACGAGCTCGGCTAC
ATGGATCGGTCTGACCATGGTGTCGATCAGTTCGAGAGTGCTCGTGACTT
CCTCGAGTCTATCCAGCAATACGTCGCTACGAAGGCAGACAAGCTGATCT
CCCGCGGTGGTGACATCGACCCCAACGACGAGAGAAGTCAGAAGGGTCTG
AACCACACCGGAAAGCTGACTGAGCGCACGCTCCGCACTTTCATCTCGTC
ATGTTTGATGAAGTACAAGAAGGCCCAAGTCGAGGCTGGCCACGCCGTCG
GTGCAGTTGGTGCACAGTCCATTGGTGAACCTGGTACGCAGATGACGCTG
AAAACTTTCCACTTTGCTGGTGTCGCCGGTATGAGTATCACGCAGGGTGT
ACCCCGTATTAAGGAAATTATCAACGCGTCGAAGGAGATCAGTACGCCTG
TTGTTGCTTGCGAGCTCGTCACGAAGGACAATATCATCGCGGCGCGAATC
GTCAAGGGACGTATTGAGAAGACCTACTTGCGAGACATTATCCACTATGT
CCGTGAGACATGGACGGGCAAGGAAGCCTACATCACAGTGAAGATCAACT
GGAAGACAATCCAGGACTTGGCGCTCGAGCTGAAGATCGAGAACATCTTG
TCGGCGATCAAGAACCACAAACGGTTCAAGGCAGACGATCTGAAGTTCCG
ATGCTCGCGGTCCCACATCCACGTCTACATGGACGTGGATCCGTCGACCA
AGGCCAATCTGTCCAAGACGGAGATCGCCCACACCAGTGCCGATCCTTTC
CTCCGTCTGAAGCACCTGAAGCGCATGCTCCCTGACATCCAAGTCCTGGG
TCACCCCCAGGCCTTCCGTGCCATCATCCGAACCGACGAGACGTCTACCA
CCAACACGCTTCTGGTGGAAGGCTACGGTCTCCGCGAGTGTATGACAACG
ATGGGTGTGGACGGACTGCGCACGTCAACCAACAACGTCATGGAGATGCG
GGACGTTCTCGGTATCGAGGCGGCGCGGACGACCATCGTGCAGGAAATCA
GCGAGGTCATGAAGGACATGGACATTGATCCGCGACACATGCAGTTGCTG
GCCGATGTCATGACCTACAAGGGTGAAGTGCTGGGTATCACGCGATTCGG
TCTCGCGAAGATGCGTGACTCCGTCCTGCAGTTGGCGTCGTTCGAAAAGA
CGGCGGACCATCTGTTCGACGCCGGTGGTGCGGGTCGCAGCGATCTCATC
GAGGGTGTGTCCGAGTGTATCATTATGGGCAAGACGGTGTCGCTGGGAAC
GGGAGCGATGGAGGTGGTGCGCAAGATGAACTTCTTCGAGGGACAGATCG
GGGCACGCAAGACGACGTTCGAAGATACATGGACCGAGGTGTACGAGGCG
CCATTGGAGAGAGCCAAGGCAGCTCGACGCAAGCGATCATGA back to topCoding sequence (CDS) from alignment at ch1:913939..918380- >KYF_000463-T1 ID=KYF_000463-T1|Name=KYF_000463-T1|organism=Aspergillus niger KYF3|type=CDS|length=8706bp|location=Sequence derived from alignment at ch1:913939..918380- (Aspergillus niger KYF3)
GTCCAACGATGACATTGTCAGCCAAGGTGTGGTGGAAGTTTCGGATCGCA
AGTTCTTCGATCTCGATCATGATCGAGCGGTGGTAGCCAATGGTCCTCTC
GATGCGCGCATGGGTATCTCCAACAAGACCTCCTCATGTCAGACTTGTGG
TGGCACTCTCCAGATTTGCAATGGACACTTCGGTCATGTCCGGCTCGTGC
TACCGGCTTTCCACGTCGGTTACTTCAAGCGAGTCATTACTATTTTGCAG
GAAGTGTGCAAGGAATGTTCGCGCATTCTGCTCCCCGAAGCCGATCGCCG
TGCCTATCTTCGTGAAATGCGTCGTCCTGGGTTGGATAATTTGCGGCGCG
GCCAGATTGCGAAGCGGATCAACGAGCGGTGCCGTAAGACACGCAACTGC
GAGGCCTGTGGTGCGGTTAACGGTGTGGTGAAGAAAGCTGGAACGAGCGC
CCTCAAAATCACCCACGACAAATTCCGTGCATTCAACGCCTCGACCTCCG
TCAAGAAAGTTCCGCCGCCCAGCAAGATTGTTTTCGACCGGTCATTCGAC
GAAGCCAGAACGTCCAATGCTGAGGTCGAGAAACATTACAAGAAGGCCCA
GGATGATATGAACGCTCTTCGCGTGCTGAACCTGTTCAAGAAGATTTCCG
ATACCGATTGCGAGCTGCTTGGTTTGAACCCGAAGGAAGCAAGACCGGAA
ATGTTCCTCTGGCAATTCATCCCCGCTCCTCCGGTGTGTATTCGTCCTTC
CGTCGGTCAGGATGCGGCGTCCACTGAGGACGATTTGACAGCCAAGCTAG
GCGACATTGTCCAGAGCAATATCAACCTGAAAAACGCATTGTTGAAGGGC
GCACCGGTACAGACAATTATGGAATGCTGGGACTACATGCAGCTACAGAT
TGCGGTGTATATCAACAGTGATGTGCCGGGTCTGAACAAGGCAGACCTTG
GAAAGCCCATTCGTGGTTTCGTGCAGCGATTGAAGGGTAAGCAGGGTCGG
TTCCGTGGTAACTTGTCCGGAAAGCGTGTAGATTTCTCAGGCCGTACTGT
CATTTCCCCCGATCCCAACCTGCGAGTCGATGAGGTTGCGGTCCCTGAAT
TGGTGGCCAAGAACATGACCTATCCCGAAGTTGTTACTCGGTACAATAAA
GAGAAGCTACAGCAGAGAGTCCGAAACGGCACGAAGAAGTGGCCGGGTGC
AAACTACATTATGAAAAAGGGCCAGACGTTCAAGCTCTTCCTTAAATATG
GTAACCTGAACATGATTGCCGACCAACTGCAGGAGGGTGATGTTATTGAG
CGCCACATCGAGGACGGTGATATTGTTCTGTTCAACCGACAGCCCTCTCT
GCACAAGCTCAGTATTCTGTCTCACTTTGCCAAAGTTCGTCCTCACCGGA
CCTTCCGACTGAATGAGTGTGTCTGTAACCCTTACAACGCGGATTTCGAC
GGAGACGAGATGAACTTGCACGTGCCTCAGACGGAGGAGGCGAGAGCCGA
AGCGATGGAACTGATGGGAGTCAAGAACAACTTGGCCACGCCCAAGAACG
GAGAGCCGATTATTTCTGCCATTCAAGATTTCATCAGTGCCGCCTACATT
CTCAGTAGCAAGGACAACTTCTTCGACCGCCGCTCGTTCACCCAAATTTG
TCTGTACATGCTGGGCCCGCAGACACGCTTCGACCTGCCCCCTCCAGCTG
TGCTTAAGCCTCAGATGTTGTGGACCGGAAAGCAGGTTTTCAACATCCTC
ATGCGGCCGAACAAGGATGACCCCGTCTTGGTCAATTTGGATGCTGCGTG
CAGACAGTTCAAGGCTCCCAAGGATGGTACGCCACGGGATCTGGACCCGA
AGGATTCCTGGCTCGTCATCCGTAACTCCGAGGTGATGTGTGGTGTGATG
GACAAATCCACCATTGGTTCCGGAAAGAAAGACAACGTGTTCTATATCAT
GCTGAGAGATTACGGGCCTGTGGCGGCTGCCGAGGGTATGAACCGCCTGT
CCAGGCTCTCAGCCCGCTGGTTCACAAACATGGGATTCTCGATCGGTATC
ACCGACGTATATCCCAGCGAAAAGCTCCTACGTTCGAAGCATGACCTCGT
CGAAACGGCGTACGCACAGTGTGACGAAGTCATTGCCAAGTACAAGGCAG
GCACACTGGAGAAATATCCTGGTTGTGACGAGTTGCAGACCATGGAGAAC
CAACTGTCCGGTATTCTCAGTAAGGTCCGTCAGCAGGCAGGAGACGAGTG
TATCGCTCAGTTGAGCAAATACAACTCGCCCCTAATCATGGCCACGTCCG
GATCCAAGGGTTCCAGTATCAACGTGTCCCAGATGGTTGCCCTTGTCGGT
CAGCAGATTATCGGTGGTCAGCGTGTGCAGGACGGCTTCCAGGACCGTAC
CCTGCCGCACTTCCCCAAGAACGCTCGCCAGCCCCCGTCCAAGGGTTTCG
TCCGTAACAGTTTCTTCTCCGGACTGGAGCCCACGGAGTTTATTTTCCAC
GCCATGTCCGGTCGTGAAGGTCTGGTCGATACGGCCGTCAAGACCGCCGA
GACGGGTTACATGTCTCGTCGGTTGATGAAGTCGCTTGAAGATCTCTCGA
CCAGATACGATGATACCGTGCGTAACTCGTCCGCGGCCATTGTCCAGTTC
CAGTACGGTGATGATAAGCTTGATCCCTTGGATATGGAAGGTAAAGCCAA
GCCTGTCCATTTCGACCGGACTTTCATCCACGCCGAGTCGACGACTTACA
AGAACGACGAGCGGAGTTTGCTTCCGGCCGAGATCATGGAGATTTGTGAA
GAGATGCTTTCGAAGGAGCGCTCTAAGCTGGTGCGGAAGGATTTGATGGG
CAACGAGCTCGGCTACATGGATCGGTCTGACCATGGTGTCGATCAGTTCG
AGAGTGCTCGTGACTTCCTCGAGTCTATCCAGCAATACGTCGCTACGAAG
GCAGACAAGCTGATCTCCCGCGGTGGTGACATCGACCCCAACGACGAGAG
AAGTCAGAAGGGTCTGAACCACACCGGAAAGCTGACTGAGCGCACGCTCC
GCACTTTCATCTCGTCATGTTTGATGAAGTACAAGAAGGCCCAAGTCGAG
GCTGGCCACGCCGTCGGTGCAGTTGGTGCACAGTCCATTGGTGAACCTGG
TACGCAGATGACGCTGAAAACTTTCCACTTTGCTGGTGTCGCCGGTATGA
GTATCACGCAGGGTGTACCCCGTATTAAGGAAATTATCAACGCGTCGAAG
GAGATCAGTACGCCTGTTGTTGCTTGCGAGCTCGTCACGAAGGACAATAT
CATCGCGGCGCGAATCGTCAAGGGACGTATTGAGAAGACCTACTTGCGAG
ACATTATCCACTATGTCCGTGAGACATGGACGGGCAAGGAAGCCTACATC
ACAGTGAAGATCAACTGGAAGACAATCCAGGACTTGGCGCTCGAGCTGAA
GATCGAGAACATCTTGTCGGCGATCAAGAACCACAAACGGTTCAAGGCAG
ACGATCTGAAGTTCCGATGCTCGCGGTCCCACATCCACGTCTACATGGAC
GTGGATCCGTCGACCAAGGCCAATCTGTCCAAGACGGAGATCGCCCACAC
CAGTGCCGATCCTTTCCTCCGTCTGAAGCACCTGAAGCGCATGCTCCCTG
ACATCCAAGTCCTGGGTCACCCCCAGGCCTTCCGTGCCATCATCCGAACC
GACGAGACGTCTACCACCAACACGCTTCTGGTGGAAGGCTACGGTCTCCG
CGAGTGTATGACAACGATGGGTGTGGACGGACTGCGCACGTCAACCAACA
ACGTCATGGAGATGCGGGACGTTCTCGGTATCGAGGCGGCGCGGACGACC
ATCGTGCAGGAAATCAGCGAGGTCATGAAGGACATGGACATTGATCCGCG
ACACATGCAGTTGCTGGCCGATGTCATGACCTACAAGGGTGAAGTGCTGG
GTATCACGCGATTCGGTCTCGCGAAGATGCGTGACTCCGTCCTGCAGTTG
GCGTCGTTCGAAAAGACGGCGGACCATCTGTTCGACGCCGGTGGTGCGGG
TCGCAGCGATCTCATCGAGGGTGTGTCCGAGTGTATCATTATGGGCAAGA
CGGTGTCGCTGGGAACGGGAGCGATGGAGGTGGTGCGCAAGATGAACTTC
TTCGAGGGACAGATCGGGGCACGCAAGACGACGTTCGAAGATACATGGAC
CGAGGTGTACGAGGCGCCATTGGAGAGAGCCAAGGCAGCTCGACGCAAGC
GATCATGAATGCAGCCTCCAGAAGGTGTGCAGGTCGACCTGGGCAAGGCC
CAGGTCATTGACCGCGTTCCCAAAGTTATCAAGGAGTTGAAGTTTGGTGT
TCTGTCCAACGATGACATTGTCAGCCAAGGTGTGGTGGAAGTTTCGGATC
GCAAGTTCTTCGATCTCGATCATGATCGAGCGGTGGTAGCCAATGGTCCT
CTCGATGCGCGCATGGGTATCTCCAACAAGACCTCCTCATGTCAGACTTG
TGGTGGCACTCTCCAGATTTGCAATGGACACTTCGGTCATGTCCGGCTCG
TGCTACCGGCTTTCCACGTCGGTTACTTCAAGCGAGTCATTACTATTTTG
CAGGAAGTGTGCAAGGAATGTTCGCGCATTCTGCTCCCCGAAGCCGATCG
CCGTGCCTATCTTCGTGAAATGCGTCGTCCTGGGTTGGATAATTTGCGGC
GCGGCCAGATTGCGAAGCGGATCAACGAGCGGTGCCGTAAGACACGCAAC
TGCGAGGCCTGTGGTGCGGTTAACGGTGTGGTGAAGAAAGCTGGAACGAG
CGCCCTCAAAATCACCCACGACAAATTCCGTGCATTCAACGCCTCGACCT
CCGTCAAGAAAGTTCCGCCGCCCAGCAAGATTGTTTTCGACCGGTCATTC
GACGAAGCCAGAACGTCCAATGCTGAGGTCGAGAAACATTACAAGAAGGC
CCAGGATGATATGAACGCTCTTCGCGTGCTGAACCTGTTCAAGAAGATTT
CCGATACCGATTGCGAGCTGCTTGGTTTGAACCCGAAGGAAGCAAGACCG
GAAATGTTCCTCTGGCAATTCATCCCCGCTCCTCCGGTGTGTATTCGTCC
TTCCGTCGGTCAGGATGCGGCGTCCACTGAGGACGATTTGACAGCCAAGC
TAGGCGACATTGTCCAGAGCAATATCAACCTGAAAAACGCATTGTTGAAG
GGCGCACCGGTACAGACAATTATGGAATGCTGGGACTACATGCAGCTACA
GATTGCGGTGTATATCAACAGTGATGTGCCGGGTCTGAACAAGGCAGACC
TTGGAAAGCCCATTCGTGGTTTCGTGCAGCGATTGAAGGGTAAGCAGGGT
CGGTTCCGTGGTAACTTGTCCGGAAAGCGTGTAGATTTCTCAGGCCGTAC
TGTCATTTCCCCCGATCCCAACCTGCGAGTCGATGAGGTTGCGGTCCCTG
AATTGGTGGCCAAGAACATGACCTATCCCGAAGTTGTTACTCGGTACAAT
AAAGAGAAGCTACAGCAGAGAGTCCGAAACGGCACGAAGAAGTGGCCGGG
TGCAAACTACATTATGAAAAAGGGCCAGACGTTCAAGCTCTTCCTTAAAT
ATGGTAACCTGAACATGATTGCCGACCAACTGCAGGAGGGTGATGTTATT
GAGCGCCACATCGAGGACGGTGATATTGTTCTGTTCAACCGACAGCCCTC
TCTGCACAAGCTCAGTATTCTGTCTCACTTTGCCAAAGTTCGTCCTCACC
GGACCTTCCGACTGAATGAGTGTGTCTGTAACCCTTACAACGCGGATTTC
GACGGAGACGAGATGAACTTGCACGTGCCTCAGACGGAGGAGGCGAGAGC
CGAAGCGATGGAACTGATGGGAGTCAAGAACAACTTGGCCACGCCCAAGA
ACGGAGAGCCGATTATTTCTGCCATTCAAGATTTCATCAGTGCCGCCTAC
ATTCTCAGTAGCAAGGACAACTTCTTCGACCGCCGCTCGTTCACCCAAAT
TTGTCTGTACATGCTGGGCCCGCAGACACGCTTCGACCTGCCCCCTCCAG
CTGTGCTTAAGCCTCAGATGTTGTGGACCGGAAAGCAGGTTTTCAACATC
CTCATGCGGCCGAACAAGGATGACCCCGTCTTGGTCAATTTGGATGCTGC
GTGCAGACAGTTCAAGGCTCCCAAGGATGGTACGCCACGGGATCTGGACC
CGAAGGATTCCTGGCTCGTCATCCGTAACTCCGAGGTGATGTGTGGTGTG
ATGGACAAATCCACCATTGGTTCCGGAAAGAAAGACAACGTGTTCTATAT
CATGCTGAGAGATTACGGGCCTGTGGCGGCTGCCGAGGGTATGAACCGCC
TGTCCAGGCTCTCAGCCCGCTGGTTCACAAACATGGGATTCTCGATCGGT
ATCACCGACGTATATCCCAGCGAAAAGCTCCTACGTTCGAAGCATGACCT
CGTCGAAACGGCGTACGCACAGTGTGACGAAGTCATTGCCAAGTACAAGG
CAGGCACACTGGAGAAATATCCTGGTTGTGACGAGTTGCAGACCATGGAG
AACCAACTGTCCGGTATTCTCAGTAAGGTCCGTCAGCAGGCAGGAGACGA
GTGTATCGCTCAGTTGAGCAAATACAACTCGCCCCTAATCATGGCCACGT
CCGGATCCAAGGGTTCCAGTATCAACGTGTCCCAGATGGTTGCCCTTGTC
GGTCAGCAGATTATCGGTGGTCAGCGTGTGCAGGACGGCTTCCAGGACCG
TACCCTGCCGCACTTCCCCAAGAACGCTCGCCAGCCCCCGTCCAAGGGTT
TCGTCCGTAACAGTTTCTTCTCCGGACTGGAGCCCACGGAGTTTATTTTC
CACGCCATGTCCGGTCGTGAAGGTCTGGTCGATACGGCCGTCAAGACCGC
CGAGACGGGTTACATGTCTCGTCGGTTGATGAAGTCGCTTGAAGATCTCT
CGACCAGATACGATGATACCGTGCGTAACTCGTCCGCGGCCATTGTCCAG
TTCCAGTACGGTGATGATAAGCTTGATCCCTTGGATATGGAAGGTAAAGC
CAAGCCTGTCCATTTCGACCGGACTTTCATCCACGCCGAGTCGACGACTT
ACAAGAACGACGAGCGGAGTTTGCTTCCGGCCGAGATCATGGAGATTTGT
GAAGAGATGCTTTCGAAGGAGCGCTCTAAGCTGGTGCGGAAGGATTTGAT
GGGCAACGAGCTCGGCTACATGGATCGGTCTGACCATGGTGTCGATCAGT
TCGAGAGTGCTCGTGACTTCCTCGAGTCTATCCAGCAATACGTCGCTACG
AAGGCAGACAAGCTGATCTCCCGCGGTGGTGACATCGACCCCAACGACGA
GAGAAGTCAGAAGGGTCTGAACCACACCGGAAAGCTGACTGAGCGCACGC
TCCGCACTTTCATCTCGTCATGTTTGATGAAGTACAAGAAGGCCCAAGTC
GAGGCTGGCCACGCCGTCGGTGCAGTTGGTGCACAGTCCATTGGTGAACC
TGGTACGCAGATGACGCTGAAAACTTTCCACTTTGCTGGTGTCGCCGGTA
TGAGTATCACGCAGGGTGTACCCCGTATTAAGGAAATTATCAACGCGTCG
AAGGAGATCAGTACGCCTGTTGTTGCTTGCGAGCTCGTCACGAAGGACAA
TATCATCGCGGCGCGAATCGTCAAGGGACGTATTGAGAAGACCTACTTGC
GAGACATTATCCACTATGTCCGTGAGACATGGACGGGCAAGGAAGCCTAC
ATCACAGTGAAGATCAACTGGAAGACAATCCAGGACTTGGCGCTCGAGCT
GAAGATCGAGAACATCTTGTCGGCGATCAAGAACCACAAACGGTTCAAGG
CAGACGATCTGAAGTTCCGATGCTCGCGGTCCCACATCCACGTCTACATG
GACGTGGATCCGTCGACCAAGGCCAATCTGTCCAAGACGGAGATCGCCCA
CACCAGTGCCGATCCTTTCCTCCGTCTGAAGCACCTGAAGCGCATGCTCC
CTGACATCCAAGTCCTGGGTCACCCCCAGGCCTTCCGTGCCATCATCCGA
ACCGACGAGACGTCTACCACCAACACGCTTCTGGTGGAAGGCTACGGTCT
CCGCGAGTGTATGACAACGATGGGTGTGGACGGACTGCGCACGTCAACCA
ACAACGTCATGGAGATGCGGGACGTTCTCGGTATCGAGGCGGCGCGGACG
ACCATCGTGCAGGAAATCAGCGAGGTCATGAAGGACATGGACATTGATCC
GCGACACATGCAGTTGCTGGCCGATGTCATGACCTACAAGGGTGAAGTGC
TGGGTATCACGCGATTCGGTCTCGCGAAGATGCGTGACTCCGTCCTGCAG
TTGGCGTCGTTCGAAAAGACGGCGGACCATCTGTTCGACGCCGGTGGTGC
GGGTCGCAGCGATCTCATCGAGGGTGTGTCCGAGTGTATCATTATGGGCA
AGACGGTGTCGCTGGGAACGGGAGCGATGGAGGTGGTGCGCAAGATGAAC
TTCTTCGAGGGACAGATCGGGGCACGCAAGACGACGTTCGAAGATACATG
GACCGAGGTGTACGAGGCGCCATTGGAGAGAGCCAAGGCAGCTCGACGCA
AGCGATCATGAATGCAGCCTCCAGAAGGTGTGCAGGTCGACCTGGGCAAG
GCCCAGGTCATTGACCGCGTTCCCAAAGTTATCAAGGAGTTGAAGTTTGG
TGTTCT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA binding |
| GO:0003899 | DNA-directed 5'-3' RNA polymerase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006351 | transcription, DNA-templated |
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 |
|---|
| DBxref | InterPro:IPR035698 |
| DBxref | InterPro:IPR035697 |
| DBxref | InterPro:IPR042102 |
| DBxref | InterPro:IPR007066 |
| DBxref | InterPro:IPR007081 |
| DBxref | InterPro:IPR038120 |
| DBxref | InterPro:IPR007083 |
| DBxref | InterPro:IPR000722 |
| DBxref | InterPro:IPR007080 |
| DBxref | InterPro:IPR006592 |
| DBxref | PFAM:PF04998 |
| DBxref | PFAM:PF05000 |
| DBxref | PFAM:PF04983 |
| DBxref | PFAM:PF00623 |
| DBxref | PFAM:PF04997 |
| 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 |
|---|
| ch1 | supercontig | ch1:913939..918380 - |
|
