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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000053:776794..779803+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_002773-T1 ID=ATCC10864_002773-T1|Name=ATCC10864_002773-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=3010bp|location=Sequence derived from alignment at MCQH01000053:776794..779803+ (Aspergillus niger ATCC 10864)
ATGTCCGCACCCAGACTCATCAACCGCTTCATGCGGCCATCGACCTCGCC
GATCTCTCTGACGACAACTTTTGCCCGTCGCTCCTTCGGCAGCTCGGTTG
TTCGTCAAAACAGCGTGAACAACAATGATCGCGCACCATCCACGGCCCCT
GAGCATCGCAAGAACCAGACAAACAAGCCCCCTAACCCCCATGTGCCCAA
CACGACCTCCACCATGACCAAGGACTTCCCCAAGGTCGGCGAGAAGCCGG
CTCCCCCCGAGATGTTGAACTCGGTCGACCCCAACTACCGGCCGGCGGAT
CCTTACCCCGGGAGAGTCGAGCATTTCACCGGAGGTCGCCAGGAGACGGG
GGCTCAGAAGCCTGAACTTGGTGTTGGAGAGATGGAGGGAATTACTTTCA
AGGTTGAGCCTCTGCGCCGGGAGGGCGAAGATGTCACTACTATGAGGGCT
CGGTTGTTGTGTTCGTGATCCCCGGTTCACGTCTTCCTGGTTGAATGAGT
AGCTAATGCAGTTGGGTAATTGTATAGATCAGAGCCGCAAGCGCGGAATC
CTCGAGTCTGATCTCCTGTTGTCTACGTTCGCCGATGTTTATCTGGCCGA
TATGAACAAGGAGCAGTTGCAGGAGTATGACCGGTTCTTGGATGAGAATG
ACTGGGATATTTACTACTGGGCCACGCAGGACCCTCCGGCTGAGGGCAAT
GAGGCTGCTGTGTCCACTGAGGCAGGTGCCCAGGATACTCCCACGGAGAC
GTGGAAGCGTACTGGAGCCAAGAGCGGCGAGTGGGCGCAGACGGTTGGTG
CTTTCAAGGCTGCATACCGGCCCGTTCCGTCACGATGGGCCGACTCCGAT
GTGCTGCGACTCCTGCGTCAACATGTTCGGGATAACAGTGCCACGGGATT
CCATGCTGCGAAGACCAAGAAGACTGGTGGGCCTGGACTGGGACGTATGC
CCAATGTGCAGGTGTTCAACAAGTGAGCATTGCTAGTCTGCTGCCATAGG
CATGGTGGGTTGTGTAAGTGACGCGAAATTGTATAGTTGGCTTGTATGAT
ATGTGGGCGAGATTGTACAGATTATACACCGGAATGGCTTTACTGGGATA
TAAGGGGAGGGTTATAAAAAGCATTGCTATTCGATAATGAGGGTTCATTC
ACATTTCAACCGGATATCTAGTGATATAGATGGCGATAGGCGGTCAGCGG
CCGAGGCAGGCGGTGAAAATACACGTGACTCGCTTATACGAGTTAGGGTT
GGCGGTACCGCACAACGGCGAGAAGGGCTGGGCGCGCTAGTTAGGGCTCA
GGCGGGCACGCTGAGTGTCTGCCACTCCATCCTCAATGCTGTGATTTTTA
TCTCCAGCCTAGAGTCAACGACAATTGCTCCGCCCGCGTTCATCCCTCTC
TCCTCCCAGACTCCCAACATGGCTGAGCAGCTCGTCCTTCGCGGTACCCT
TGAGGGTCACAATGGCTGGGTTACCTGCCTGGCTACCTCTCTGGAGAAGT
AAGGCAACACTACACTACACCGAATTGAAGACATGAAACAAATGCGTTTT
GTTGCGAAAATCGAACAAGGTGTGCATGTGCTACCGAACAAGTGGTATAT
GGATGCATTGTTGCGAGAAAAGAAAATGATCGCATTGGTTGAAACATGAA
ATATTCATATATCAAATGGACAAAACTGGGTTCTGACTTTATGTTTTTCT
TCCTCGATTATAGCCCCAACATGCTGCTCTCTGGCAGTCGCGACAAGACC
CTGATCATCTGGAACCTGACCCGCGACGAGCAGGCCTACGGTTACCCCAA
GCGCAGCCTTGAGGGTCACTCTCACATCGTCTCTGACTGTGTATGCCCTC
CGAATTACTCCGTCCCCACCATGTCCCAGTCCAGACAAGAAAAGACTTTC
CCCACAGACGAAGGACGAAGCCCGATCGAAACCTACGAGAAGGCGGGACT
GGGCAAAGAATAAAAAGGAAGATGATTTGGCTGACCGTGCATGGGGATTT
ATAGGTGATCTCCTCCGACGGTGCCTACGCTCTGTCCTCCTCCTGGGACA
AGTCCCTCCGCCTGTGGGAGCTCTCCACTGGTGAGACCACCCGGACCTTC
GTCGGCCACACCAACGACGTCCTCTCCGTTTCTTTCTCCGCCGACAACCG
CCAGATTGTCTCCGCTTCCCGTGACCGCTCCATCAAGCTCTGGAACACCC
TTGGTGACTGCAAGTTCACCATCACCGACAAGGGCCACACCGAGTGGGTT
TCCTGCGTTCGCTTCAGCCCCAACCCCCAGAACCCCGTCATCGTCTCCGC
TGGTTGGGACAAGCTCGTCAAGGTACGTTATGACTCGACTCCCGCATACC
CAAGTTTATATCATTCGCAATCTCGACTCGTCCAGAAGATGTTTTTGCAT
AAACGTATTTGCTACTTCAGAGCCTTTCACGGCCATGAGACAAACATTCA
CCAATGCCCTGATGGACAATCAATAAACATATCTTGTTTATGTTGTTATT
GCTTTTATTGCTTTTCCACCGAGAACTTCAACTTGAAGAATCTTATCTCT
GTGGAGTCATGAAGCTAACATGCAAAACAACTAGGTTTGGGAGCTCGCTT
CCTGCCGTCTCCAGACCGACCACATCGGTCACACCGGCTACATCAACGCC
GTCACCATCTCCCCCGATGGATCCCTCTGCGCCTCCGGTGGCAAGGACGG
CACCACCATGCTCTGGGACCTTAACGAGTCCAAGCACCTCTACTCCCTCC
ACGCCGGTGACGAGATCCACGCCCTCGTCTTCTCCCCCAACCGTTACTGG
CTCTGCGCTGCCACCTCCAGCAGCATCACCATCTTCGACCTCGAGAAGAA
GAGCAAGGTTGACGAGCTCAAGCCCGAGTACATCGAGAAGGGCAAGAAGA
GCCGCGAGCCCGAGTGTGTCAGCTTGGCCTGGAGCGCTGACGGCCAGACT
CTGTTCGCTGGTTACACCGACAACAAGATCCGCGCTTGGGGTGTCATGTC
GAGGGCATAG back to topCoding sequence (CDS) from alignment at MCQH01000053:776794..779803+ >ATCC10864_002773-T1 ID=ATCC10864_002773-T1|Name=ATCC10864_002773-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=12168bp|location=Sequence derived from alignment at MCQH01000053:776794..779803+ (Aspergillus niger ATCC 10864)
ATGTCCGCACCCAGACTCATCAACCGCTTCATGCGGCCATCGACCTCGCC
GATCTCTCTGACGACAACTTTTGCCCGTCGCTCCTTCGGCAGCTCGGTTG
TTCGTCAAAACAGCGTGAACAACAATGATCGCGCACCATCCACGGCCCCT
GAGCATCGCAAGAACCAGACAAACAAGCCCCCTAACCCCCATGTGCCCAA
CACGACCTCCACCATGACCAAGGACTTCCCCAAGGTCGGCGAGAAGCCGG
CTCCCCCCGAGATGTTGAACTCGGTCGACCCCAACTACCGGCCGGCGGAT
CCTTACCCCGGGAGAGTCGAGCATTTCACCGGAGGTCGCCAGGAGACGGG
GGCTCAGAAGCCTGAACTTGGTGTTGGAGAGATGGAGGGAATTACTTTCA
AGGTTGAGCCTCTGCGCCGGGAGGGCGAAGATGTCACTACTATGAGGGCT
CGGTTGTTGTATCAGAGCCGCAAGCGCGGAATCCTCGAGTCTGATCTCCT
GTTGTCTACGTTCGCCGATGTTTATCTGGCCGATATGAACAAGGAGCAGT
TGCAGGAGTATGACCGGTTCTTGGATGAGAATGACTGGGATATTTACTAC
TGGGCCACGCAGGACCCTCCGGCTGAGGGCAATGAGGCTGCTGTGTCCAC
TGAGGCAGGTGCCCAGGATACTCCCACGGAGACGTGGAAGCGTACTGGAG
CCAAGAGCGGCGAGTGGGCGCAGACGGTTGGTGCTTTCAAGGCTGCATAC
CGGCCCGTTCCGTCACGATGGGCCGACTCCGATGTGCTGCGACTCCTGCG
TCAACATGTTCGGGATAACAGTGCCACGGGATTCCATGCTGCGAAGACCA
AGAAGACTGGTGGGCCTGGACTGGGACGTATGCCCAATGTGCAGGTGTTC
AACAAGGTTGGCGGTACCGCACAACGGCGAGAAGGGCTGGGCGCGCTAGT
TAGGGCTCAGGCGGGCACGCTGAGTGTCTGCCACTCCATCCTCAATGCTG
TGATTTTTATCTCCAGCCTAGAGTCAACGACAATTGCTCCGCCCGCGTTC
ATCCCTCTCTCCTCCCAGACTCCCAACATGGCTGAGCAGCTCGTCCTTCG
CGGTACCCTTGAGGGTCACAATGGCTGGGTTACCTGCCTGGCTACCTCTC
TGGAGAACCCCAACATGCTGCTCTCTGGCAGTCGCGACAAGACCCTGATC
ATCTGGAACCTGACCCGCGACGAGCAGGCCTACGGTTACCCCAAGCGCAG
CCTTGAGGGTCACTCTCACATCGTCTCTGACTGTGTGATCTCCTCCGACG
GTGCCTACGCTCTGTCCTCCTCCTGGGACAAGTCCCTCCGCCTGTGGGAG
CTCTCCACTGGTGAGACCACCCGGACCTTCGTCGGCCACACCAACGACGT
CCTCTCCGTTTCTTTCTCCGCCGACAACCGCCAGATTGTCTCCGCTTCCC
GTGACCGCTCCATCAAGCTCTGGAACACCCTTGGTGACTGCAAGTTCACC
ATCACCGACAAGGGCCACACCGAGTGGGTTTCCTGCGTTCGCTTCAGCCC
CAACCCCCAGAACCCCGTCATCGTCTCCGCTGGTTGGGACAAGCTCGTCA
AGGTTTGGGAGCTCGCTTCCTGCCGTCTCCAGACCGACCACATCGGTCAC
ACCGGCTACATCAACGCCGTCACCATCTCCCCCGATGGATCCCTCTGCGC
CTCCGGTGGCAAGGACGGCACCACCATGCTCTGGGACCTTAACGAGTCCA
AGCACCTCTACTCCCTCCACGCCGGTGACGAGATCCACGCCCTCGTCTTC
TCCCCCAACCGTTACTGGCTCTGCGCTGCCACCTCCAGCAGCATCACCAT
CTTCGACCTCGAGAAGAAGAGCAAGGTTGACGAGCTCAAGCCCGAGTACA
TCGAGAAGGGCAAGAAGAGCCGCGAGCCCGAGTGTGTCAGCTTGGCCTGG
AGCGCTGACGGCCAGACTCTGTTCGCTGGTTACACCGACAACAAGATCCG
CGCTTGGGGTGTCATGTCGAGGGCATAGATGTCCGCACCCAGACTCATCA
ACCGCTTCATGCGGCCATCGACCTCGCCGATCTCTCTGACGACAACTTTT
GCCCGTCGCTCCTTCGGCAGCTCGGTTGTTCGTCAAAACAGCGTGAACAA
CAATGATCGCGCACCATCCACGGCCCCTGAGCATCGCAAGAACCAGACAA
ACAAGCCCCCTAACCCCCATGTGCCCAACACGACCTCCACCATGACCAAG
GACTTCCCCAAGGTCGGCGAGAAGCCGGCTCCCCCCGAGATGTTGAACTC
GGTCGACCCCAACTACCGGCCGGCGGATCCTTACCCCGGGAGAGTCGAGC
ATTTCACCGGAGGTCGCCAGGAGACGGGGGCTCAGAAGCCTGAACTTGGT
GTTGGAGAGATGGAGGGAATTACTTTCAAGGTTGAGCCTCTGCGCCGGGA
GGGCGAAGATGTCACTACTATGAGGGCTCGGTTGTTGTATCAGAGCCGCA
AGCGCGGAATCCTCGAGTCTGATCTCCTGTTGTCTACGTTCGCCGATGTT
TATCTGGCCGATATGAACAAGGAGCAGTTGCAGGAGTATGACCGGTTCTT
GGATGAGAATGACTGGGATATTTACTACTGGGCCACGCAGGACCCTCCGG
CTGAGGGCAATGAGGCTGCTGTGTCCACTGAGGCAGGTGCCCAGGATACT
CCCACGGAGACGTGGAAGCGTACTGGAGCCAAGAGCGGCGAGTGGGCGCA
GACGGTTGGTGCTTTCAAGGCTGCATACCGGCCCGTTCCGTCACGATGGG
CCGACTCCGATGTGCTGCGACTCCTGCGTCAACATGTTCGGGATAACAGT
GCCACGGGATTCCATGCTGCGAAGACCAAGAAGACTGGTGGGCCTGGACT
GGGACGTATGCCCAATGTGCAGGTGTTCAACAAGGTTGGCGGTACCGCAC
AACGGCGAGAAGGGCTGGGCGCGCTAGTTAGGGCTCAGGCGGGCACGCTG
AGTGTCTGCCACTCCATCCTCAATGCTGTGATTTTTATCTCCAGCCTAGA
GTCAACGACAATTGCTCCGCCCGCGTTCATCCCTCTCTCCTCCCAGACTC
CCAACATGGCTGAGCAGCTCGTCCTTCGCGGTACCCTTGAGGGTCACAAT
GGCTGGGTTACCTGCCTGGCTACCTCTCTGGAGAACCCCAACATGCTGCT
CTCTGGCAGTCGCGACAAGACCCTGATCATCTGGAACCTGACCCGCGACG
AGCAGGCCTACGGTTACCCCAAGCGCAGCCTTGAGGGTCACTCTCACATC
GTCTCTGACTGTGTGATCTCCTCCGACGGTGCCTACGCTCTGTCCTCCTC
CTGGGACAAGTCCCTCCGCCTGTGGGAGCTCTCCACTGGTGAGACCACCC
GGACCTTCGTCGGCCACACCAACGACGTCCTCTCCGTTTCTTTCTCCGCC
GACAACCGCCAGATTGTCTCCGCTTCCCGTGACCGCTCCATCAAGCTCTG
GAACACCCTTGGTGACTGCAAGTTCACCATCACCGACAAGGGCCACACCG
AGTGGGTTTCCTGCGTTCGCTTCAGCCCCAACCCCCAGAACCCCGTCATC
GTCTCCGCTGGTTGGGACAAGCTCGTCAAGGTTTGGGAGCTCGCTTCCTG
CCGTCTCCAGACCGACCACATCGGTCACACCGGCTACATCAACGCCGTCA
CCATCTCCCCCGATGGATCCCTCTGCGCCTCCGGTGGCAAGGACGGCACC
ACCATGCTCTGGGACCTTAACGAGTCCAAGCACCTCTACTCCCTCCACGC
CGGTGACGAGATCCACGCCCTCGTCTTCTCCCCCAACCGTTACTGGCTCT
GCGCTGCCACCTCCAGCAGCATCACCATCTTCGACCTCGAGAAGAAGAGC
AAGGTTGACGAGCTCAAGCCCGAGTACATCGAGAAGGGCAAGAAGAGCCG
CGAGCCCGAGTGTGTCAGCTTGGCCTGGAGCGCTGACGGCCAGACTCTGT
TCGCTGGTTACACCGACAACAAGATCCGCGCTTGGGGTGTCATGTCGAGG
GCATAGATGTCCGCACCCAGACTCATCAACCGCTTCATGCGGCCATCGAC
CTCGCCGATCTCTCTGACGACAACTTTTGCCCGTCGCTCCTTCGGCAGCT
CGGTTGTTCGTCAAAACAGCGTGAACAACAATGATCGCGCACCATCCACG
GCCCCTGAGCATCGCAAGAACCAGACAAACAAGCCCCCTAACCCCCATGT
GCCCAACACGACCTCCACCATGACCAAGGACTTCCCCAAGGTCGGCGAGA
AGCCGGCTCCCCCCGAGATGTTGAACTCGGTCGACCCCAACTACCGGCCG
GCGGATCCTTACCCCGGGAGAGTCGAGCATTTCACCGGAGGTCGCCAGGA
GACGGGGGCTCAGAAGCCTGAACTTGGTGTTGGAGAGATGGAGGGAATTA
CTTTCAAGGTTGAGCCTCTGCGCCGGGAGGGCGAAGATGTCACTACTATG
AGGGCTCGGTTGTTGTATCAGAGCCGCAAGCGCGGAATCCTCGAGTCTGA
TCTCCTGTTGTCTACGTTCGCCGATGTTTATCTGGCCGATATGAACAAGG
AGCAGTTGCAGGAGTATGACCGGTTCTTGGATGAGAATGACTGGGATATT
TACTACTGGGCCACGCAGGACCCTCCGGCTGAGGGCAATGAGGCTGCTGT
GTCCACTGAGGCAGGTGCCCAGGATACTCCCACGGAGACGTGGAAGCGTA
CTGGAGCCAAGAGCGGCGAGTGGGCGCAGACGGTTGGTGCTTTCAAGGCT
GCATACCGGCCCGTTCCGTCACGATGGGCCGACTCCGATGTGCTGCGACT
CCTGCGTCAACATGTTCGGGATAACAGTGCCACGGGATTCCATGCTGCGA
AGACCAAGAAGACTGGTGGGCCTGGACTGGGACGTATGCCCAATGTGCAG
GTGTTCAACAAGGTTGGCGGTACCGCACAACGGCGAGAAGGGCTGGGCGC
GCTAGTTAGGGCTCAGGCGGGCACGCTGAGTGTCTGCCACTCCATCCTCA
ATGCTGTGATTTTTATCTCCAGCCTAGAGTCAACGACAATTGCTCCGCCC
GCGTTCATCCCTCTCTCCTCCCAGACTCCCAACATGGCTGAGCAGCTCGT
CCTTCGCGGTACCCTTGAGGGTCACAATGGCTGGGTTACCTGCCTGGCTA
CCTCTCTGGAGAACCCCAACATGCTGCTCTCTGGCAGTCGCGACAAGACC
CTGATCATCTGGAACCTGACCCGCGACGAGCAGGCCTACGGTTACCCCAA
GCGCAGCCTTGAGGGTCACTCTCACATCGTCTCTGACTGTGTGATCTCCT
CCGACGGTGCCTACGCTCTGTCCTCCTCCTGGGACAAGTCCCTCCGCCTG
TGGGAGCTCTCCACTGGTGAGACCACCCGGACCTTCGTCGGCCACACCAA
CGACGTCCTCTCCGTTTCTTTCTCCGCCGACAACCGCCAGATTGTCTCCG
CTTCCCGTGACCGCTCCATCAAGCTCTGGAACACCCTTGGTGACTGCAAG
TTCACCATCACCGACAAGGGCCACACCGAGTGGGTTTCCTGCGTTCGCTT
CAGCCCCAACCCCCAGAACCCCGTCATCGTCTCCGCTGGTTGGGACAAGC
TCGTCAAGGTTTGGGAGCTCGCTTCCTGCCGTCTCCAGACCGACCACATC
GGTCACACCGGCTACATCAACGCCGTCACCATCTCCCCCGATGGATCCCT
CTGCGCCTCCGGTGGCAAGGACGGCACCACCATGCTCTGGGACCTTAACG
AGTCCAAGCACCTCTACTCCCTCCACGCCGGTGACGAGATCCACGCCCTC
GTCTTCTCCCCCAACCGTTACTGGCTCTGCGCTGCCACCTCCAGCAGCAT
CACCATCTTCGACCTCGAGAAGAAGAGCAAGGTTGACGAGCTCAAGCCCG
AGTACATCGAGAAGGGCAAGAAGAGCCGCGAGCCCGAGTGTGTCAGCTTG
GCCTGGAGCGCTGACGGCCAGACTCTGTTCGCTGGTTACACCGACAACAA
GATCCGCGCTTGGGGTGTCATGTCGAGGGCATAGATGTCCGCACCCAGAC
TCATCAACCGCTTCATGCGGCCATCGACCTCGCCGATCTCTCTGACGACA
ACTTTTGCCCGTCGCTCCTTCGGCAGCTCGGTTGTTCGTCAAAACAGCGT
GAACAACAATGATCGCGCACCATCCACGGCCCCTGAGCATCGCAAGAACC
AGACAAACAAGCCCCCTAACCCCCATGTGCCCAACACGACCTCCACCATG
ACCAAGGACTTCCCCAAGGTCGGCGAGAAGCCGGCTCCCCCCGAGATGTT
GAACTCGGTCGACCCCAACTACCGGCCGGCGGATCCTTACCCCGGGAGAG
TCGAGCATTTCACCGGAGGTCGCCAGGAGACGGGGGCTCAGAAGCCTGAA
CTTGGTGTTGGAGAGATGGAGGGAATTACTTTCAAGGTTGAGCCTCTGCG
CCGGGAGGGCGAAGATGTCACTACTATGAGGGCTCGGTTGTTGTATCAGA
GCCGCAAGCGCGGAATCCTCGAGTCTGATCTCCTGTTGTCTACGTTCGCC
GATGTTTATCTGGCCGATATGAACAAGGAGCAGTTGCAGGAGTATGACCG
GTTCTTGGATGAGAATGACTGGGATATTTACTACTGGGCCACGCAGGACC
CTCCGGCTGAGGGCAATGAGGCTGCTGTGTCCACTGAGGCAGGTGCCCAG
GATACTCCCACGGAGACGTGGAAGCGTACTGGAGCCAAGAGCGGCGAGTG
GGCGCAGACGGTTGGTGCTTTCAAGGCTGCATACCGGCCCGTTCCGTCAC
GATGGGCCGACTCCGATGTGCTGCGACTCCTGCGTCAACATGTTCGGGAT
AACAGTGCCACGGGATTCCATGCTGCGAAGACCAAGAAGACTGGTGGGCC
TGGACTGGGACGTATGCCCAATGTGCAGGTGTTCAACAAGGTTGGCGGTA
CCGCACAACGGCGAGAAGGGCTGGGCGCGCTAGTTAGGGCTCAGGCGGGC
ACGCTGAGTGTCTGCCACTCCATCCTCAATGCTGTGATTTTTATCTCCAG
CCTAGAGTCAACGACAATTGCTCCGCCCGCGTTCATCCCTCTCTCCTCCC
AGACTCCCAACATGGCTGAGCAGCTCGTCCTTCGCGGTACCCTTGAGGGT
CACAATGGCTGGGTTACCTGCCTGGCTACCTCTCTGGAGAACCCCAACAT
GCTGCTCTCTGGCAGTCGCGACAAGACCCTGATCATCTGGAACCTGACCC
GCGACGAGCAGGCCTACGGTTACCCCAAGCGCAGCCTTGAGGGTCACTCT
CACATCGTCTCTGACTGTGTGATCTCCTCCGACGGTGCCTACGCTCTGTC
CTCCTCCTGGGACAAGTCCCTCCGCCTGTGGGAGCTCTCCACTGGTGAGA
CCACCCGGACCTTCGTCGGCCACACCAACGACGTCCTCTCCGTTTCTTTC
TCCGCCGACAACCGCCAGATTGTCTCCGCTTCCCGTGACCGCTCCATCAA
GCTCTGGAACACCCTTGGTGACTGCAAGTTCACCATCACCGACAAGGGCC
ACACCGAGTGGGTTTCCTGCGTTCGCTTCAGCCCCAACCCCCAGAACCCC
GTCATCGTCTCCGCTGGTTGGGACAAGCTCGTCAAGGTTTGGGAGCTCGC
TTCCTGCCGTCTCCAGACCGACCACATCGGTCACACCGGCTACATCAACG
CCGTCACCATCTCCCCCGATGGATCCCTCTGCGCCTCCGGTGGCAAGGAC
GGCACCACCATGCTCTGGGACCTTAACGAGTCCAAGCACCTCTACTCCCT
CCACGCCGGTGACGAGATCCACGCCCTCGTCTTCTCCCCCAACCGTTACT
GGCTCTGCGCTGCCACCTCCAGCAGCATCACCATCTTCGACCTCGAGAAG
AAGAGCAAGGTTGACGAGCTCAAGCCCGAGTACATCGAGAAGGGCAAGAA
GAGCCGCGAGCCCGAGTGTGTCAGCTTGGCCTGGAGCGCTGACGGCCAGA
CTCTGTTCGCTGGTTACACCGACAACAAGATCCGCGCTTGGGGTGTCATG
TCGAGGGCATAGATGTCCGCACCCAGACTCATCAACCGCTTCATGCGGCC
ATCGACCTCGCCGATCTCTCTGACGACAACTTTTGCCCGTCGCTCCTTCG
GCAGCTCGGTTGTTCGTCAAAACAGCGTGAACAACAATGATCGCGCACCA
TCCACGGCCCCTGAGCATCGCAAGAACCAGACAAACAAGCCCCCTAACCC
CCATGTGCCCAACACGACCTCCACCATGACCAAGGACTTCCCCAAGGTCG
GCGAGAAGCCGGCTCCCCCCGAGATGTTGAACTCGGTCGACCCCAACTAC
CGGCCGGCGGATCCTTACCCCGGGAGAGTCGAGCATTTCACCGGAGGTCG
CCAGGAGACGGGGGCTCAGAAGCCTGAACTTGGTGTTGGAGAGATGGAGG
GAATTACTTTCAAGGTTGAGCCTCTGCGCCGGGAGGGCGAAGATGTCACT
ACTATGAGGGCTCGGTTGTTGTATCAGAGCCGCAAGCGCGGAATCCTCGA
GTCTGATCTCCTGTTGTCTACGTTCGCCGATGTTTATCTGGCCGATATGA
ACAAGGAGCAGTTGCAGGAGTATGACCGGTTCTTGGATGAGAATGACTGG
GATATTTACTACTGGGCCACGCAGGACCCTCCGGCTGAGGGCAATGAGGC
TGCTGTGTCCACTGAGGCAGGTGCCCAGGATACTCCCACGGAGACGTGGA
AGCGTACTGGAGCCAAGAGCGGCGAGTGGGCGCAGACGGTTGGTGCTTTC
AAGGCTGCATACCGGCCCGTTCCGTCACGATGGGCCGACTCCGATGTGCT
GCGACTCCTGCGTCAACATGTTCGGGATAACAGTGCCACGGGATTCCATG
CTGCGAAGACCAAGAAGACTGGTGGGCCTGGACTGGGACGTATGCCCAAT
GTGCAGGTGTTCAACAAGGTTGGCGGTACCGCACAACGGCGAGAAGGGCT
GGGCGCGCTAGTTAGGGCTCAGGCGGGCACGCTGAGTGTCTGCCACTCCA
TCCTCAATGCTGTGATTTTTATCTCCAGCCTAGAGTCAACGACAATTGCT
CCGCCCGCGTTCATCCCTCTCTCCTCCCAGACTCCCAACATGGCTGAGCA
GCTCGTCCTTCGCGGTACCCTTGAGGGTCACAATGGCTGGGTTACCTGCC
TGGCTACCTCTCTGGAGAACCCCAACATGCTGCTCTCTGGCAGTCGCGAC
AAGACCCTGATCATCTGGAACCTGACCCGCGACGAGCAGGCCTACGGTTA
CCCCAAGCGCAGCCTTGAGGGTCACTCTCACATCGTCTCTGACTGTGTGA
TCTCCTCCGACGGTGCCTACGCTCTGTCCTCCTCCTGGGACAAGTCCCTC
CGCCTGTGGGAGCTCTCCACTGGTGAGACCACCCGGACCTTCGTCGGCCA
CACCAACGACGTCCTCTCCGTTTCTTTCTCCGCCGACAACCGCCAGATTG
TCTCCGCTTCCCGTGACCGCTCCATCAAGCTCTGGAACACCCTTGGTGAC
TGCAAGTTCACCATCACCGACAAGGGCCACACCGAGTGGGTTTCCTGCGT
TCGCTTCAGCCCCAACCCCCAGAACCCCGTCATCGTCTCCGCTGGTTGGG
ACAAGCTCGTCAAGGTTTGGGAGCTCGCTTCCTGCCGTCTCCAGACCGAC
CACATCGGTCACACCGGCTACATCAACGCCGTCACCATCTCCCCCGATGG
ATCCCTCTGCGCCTCCGGTGGCAAGGACGGCACCACCATGCTCTGGGACC
TTAACGAGTCCAAGCACCTCTACTCCCTCCACGCCGGTGACGAGATCCAC
GCCCTCGTCTTCTCCCCCAACCGTTACTGGCTCTGCGCTGCCACCTCCAG
CAGCATCACCATCTTCGACCTCGAGAAGAAGAGCAAGGTTGACGAGCTCA
AGCCCGAGTACATCGAGAAGGGCAAGAAGAGCCGCGAGCCCGAGTGTGTC
AGCTTGGCCTGGAGCGCTGACGGCCAGACTCTGTTCGCTGGTTACACCGA
CAACAAGATCCGCGCTTGGGGTGTCATGTCGAGGGCATAGATGTCCGCAC
CCAGACTCATCAACCGCTTCATGCGGCCATCGACCTCGCCGATCTCTCTG
ACGACAACTTTTGCCCGTCGCTCCTTCGGCAGCTCGGTTGTTCGTCAAAA
CAGCGTGAACAACAATGATCGCGCACCATCCACGGCCCCTGAGCATCGCA
AGAACCAGACAAACAAGCCCCCTAACCCCCATGTGCCCAACACGACCTCC
ACCATGACCAAGGACTTCCCCAAGGTCGGCGAGAAGCCGGCTCCCCCCGA
GATGTTGAACTCGGTCGACCCCAACTACCGGCCGGCGGATCCTTACCCCG
GGAGAGTCGAGCATTTCACCGGAGGTCGCCAGGAGACGGGGGCTCAGAAG
CCTGAACTTGGTGTTGGAGAGATGGAGGGAATTACTTTCAAGGTTGAGCC
TCTGCGCCGGGAGGGCGAAGATGTCACTACTATGAGGGCTCGGTTGTTGT
ATCAGAGCCGCAAGCGCGGAATCCTCGAGTCTGATCTCCTGTTGTCTACG
TTCGCCGATGTTTATCTGGCCGATATGAACAAGGAGCAGTTGCAGGAGTA
TGACCGGTTCTTGGATGAGAATGACTGGGATATTTACTACTGGGCCACGC
AGGACCCTCCGGCTGAGGGCAATGAGGCTGCTGTGTCCACTGAGGCAGGT
GCCCAGGATACTCCCACGGAGACGTGGAAGCGTACTGGAGCCAAGAGCGG
CGAGTGGGCGCAGACGGTTGGTGCTTTCAAGGCTGCATACCGGCCCGTTC
CGTCACGATGGGCCGACTCCGATGTGCTGCGACTCCTGCGTCAACATGTT
CGGGATAACAGTGCCACGGGATTCCATGCTGCGAAGACCAAGAAGACTGG
TGGGCCTGGACTGGGACGTATGCCCAATGTGCAGGTGTTCAACAAGGTTG
GCGGTACCGCACAACGGCGAGAAGGGCTGGGCGCGCTAGTTAGGGCTCAG
GCGGGCACGCTGAGTGTCTGCCACTCCATCCTCAATGCTGTGATTTTTAT
CTCCAGCCTAGAGTCAACGACAATTGCTCCGCCCGCGTTCATCCCTCTCT
CCTCCCAGACTCCCAACATGGCTGAGCAGCTCGTCCTTCGCGGTACCCTT
GAGGGTCACAATGGCTGGGTTACCTGCCTGGCTACCTCTCTGGAGAACCC
CAACATGCTGCTCTCTGGCAGTCGCGACAAGACCCTGATCATCTGGAACC
TGACCCGCGACGAGCAGGCCTACGGTTACCCCAAGCGCAGCCTTGAGGGT
CACTCTCACATCGTCTCTGACTGTGTGATCTCCTCCGACGGTGCCTACGC
TCTGTCCTCCTCCTGGGACAAGTCCCTCCGCCTGTGGGAGCTCTCCACTG
GTGAGACCACCCGGACCTTCGTCGGCCACACCAACGACGTCCTCTCCGTT
TCTTTCTCCGCCGACAACCGCCAGATTGTCTCCGCTTCCCGTGACCGCTC
CATCAAGCTCTGGAACACCCTTGGTGACTGCAAGTTCACCATCACCGACA
AGGGCCACACCGAGTGGGTTTCCTGCGTTCGCTTCAGCCCCAACCCCCAG
AACCCCGTCATCGTCTCCGCTGGTTGGGACAAGCTCGTCAAGGTTTGGGA
GCTCGCTTCCTGCCGTCTCCAGACCGACCACATCGGTCACACCGGCTACA
TCAACGCCGTCACCATCTCCCCCGATGGATCCCTCTGCGCCTCCGGTGGC
AAGGACGGCACCACCATGCTCTGGGACCTTAACGAGTCCAAGCACCTCTA
CTCCCTCCACGCCGGTGACGAGATCCACGCCCTCGTCTTCTCCCCCAACC
GTTACTGGCTCTGCGCTGCCACCTCCAGCAGCATCACCATCTTCGACCTC
GAGAAGAAGAGCAAGGTTGACGAGCTCAAGCCCGAGTACATCGAGAAGGG
CAAGAAGAGCCGCGAGCCCGAGTGTGTCAGCTTGGCCTGGAGCGCTGACG
GCCAGACTCTGTTCGCTGGTTACACCGACAACAAGATCCGCGCTTGGGGT
GTCATGTCGAGGGCATAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0018293 | protein-FAD linkage |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005739 | mitochondrion |
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 exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR005631 |
| PFAM | PF03937 |
| InterPro | IPR015943 |
| InterPro | IPR017986 |
| InterPro | IPR019775 |
| InterPro | IPR001680 |
| InterPro | IPR028882 |
| InterPro | IPR036714 |
| InterPro | IPR036322 |
| InterPro | IPR020472 |
| PFAM | PF00400 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG092636T6 |
| 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 |
|---|
| MCQH01000053 | supercontig | MCQH01000053:776794..779803 + |
|
