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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch1:1120796..1124340+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_000527-T1 ID=KYF_000527-T1|Name=KYF_000527-T1|organism=Aspergillus niger KYF3|type=mRNA|length=3545bp|location=Sequence derived from alignment at ch1:1120796..1124340+ (Aspergillus niger KYF3)
ATGGTTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTC
CTCGGTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGT
ACTTTTTCATCCCAGGCATTGCGAACTTGGCTGGTGGTGCGTTTTTTCTC
CTGCTTGCTAACTTCCTGGCTCTTGCTCGGGCATAACACGACGGTTGCAC
TTGTGCCACTTTGTTAACCTCTTGCGACATCAGGCCTGCCAAATGCGTCA
TACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTTT
CCCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCTT
CAACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCTG
AAGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCCT
CCCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCACC
CGAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGCC
ACCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACCC
CCGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTTG
TGTACATGAACGCAATCCAAACCGTGAAGCCGCGGGGCCTTAACATCGTT
CCGGTAGCCATAGATGCGCAGGGCATGCTTGCGCATGGTAAAGGAGGATT
GGCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCATC
TGATGTACACAATCACGTAAGTTCAAACCTCTGTAGCAACACTTTGCTGG
CATGTTGGCTAATGTTGCCTTATCTGGTTGCAGTATCGGCCAAAACCCGA
CGGGCGGGACCTTGTCGGTCGAGCGCAGGAGGGAGATCTACGCTCTCTGT
CGACAATTTGACATCATCATCATAGAAGACGATCCGTACTGGAACTTACA
GTATCCTTCTGCAACTGCTATGGAGGCCGGATTTCGAGGATCAGATGCCG
TAGATGTAATTCCACGCAACTACAACGCCCACGGCAGGTCCTCCGGGTAC
GATTTTCTGGATTCCTTGGTGCCATCGTATCTCTCCGTTGATACGGACGG
GCGTGTCGTGCGTCTTGACACCTTCTCAAAGACCATAGCTCCTGGTTGTC
GCTTAGGATGGATTACCGCTCAGCCAGCTATAATCGAACGCCTGACTCGT
CTCACCGAGACATCGACTCAGCAGCCATCAGGGTTTGTACAGGCCATGGT
GGCCGAACTGATTGTGGGTCAGCAATCCGAGGATGGCCAGAATGCCACAG
GTGCAAGTAGGAATAAATCTAAAAAGAGCGAACAAGCCTGGCAGATGGAC
GGCTGGGTTCGCTGGTTGGAAGGCCTCCGTGCGGGATACGAACAACGCAT
GACGACAATGTGTACAATTCTCGAAGAGGGCAAGTACCTCATTGACTCCG
GTAGCGCATGGGACGATGTACAACCCATGGCAGAGGATGACACTGCCTGG
GAAGTCCTGGATAAGATGCAGATGTACGAGTTCTCCTGGCCCACCGGCGG
TATGTTTGTGTGGGTCAAGGTCTGCATCGAGACGCACCCCTTGCTGGAGA
AGTATGGCCCGGAGAAGCTGATCCAAGCTTTGTGGCTGCATTTGATGCAA
AAGCCGTATTTGTGCCTTTCGGGTCCCGGAACCATGTTTGCTCCTACAAC
GGAGCTTCTGGACCGGGCGCAGACATATTACAGGTTGTGCTTTGCGGCGA
TGCCTGCGGAGGATGTGTTGGGCATTACTCGGAGGTTGGTAGATGGATTT
CGCGCGTTTTGGCAACGGAAGAATCTCGATGGCTTGGATGATGAGGAGGT
TGCTCTTAGTAGGCTGCAGGCAAAGGGTTCAGGCAACTTGTTGGGTTTGG
GCTGCTAGACTGGGTTGCTTGAATATACCATGCAATCTACATCCGTTATC
TTGGACAGCGATTATATACTATTTTGGTTGGCGCATAACTTTCATAAATT
GATTCACCTACGCACGACGGAAGTCGCCCTAGAGTCTATGAAAAGAAACA
CAATCGTTATCTAGCATCAAAAGAGTATATATGTCATTTGATTTTATTTA
ATTTTTATATGCAATGGTCAATCACTGCTCCAAAAGAATCCAAAAAGTGG
CGCCGGCAAGGAATGCGGGGCGGGTTGCCCAAAAAAACAAAAAGCGACCC
CACTGGGACTCGAACCCAGAATCTTCAGTACCGAAAACTGACGCCCTACC
ATTGAGCTATAGAGCCAATTCTACAATAACTTTGGTACAACTAAGATTGA
CATCAGAACCAAACATCGGAATAAATCCGCTCCGTCGCATGATAATCGTC
ATGACCCAGGGCAATGCGCGATAATAATCTTGAAACCCCGCGGCATCAAG
TCAACCATCGTCCCCGCTGCCACCCAGGGCTGCCCAGCCTTACCCTATCC
CGCAAAAATGGATTCGGCCCTCGAATCCCTGCAGAATACCGATCTAGCGG
AAGAAATTGAAGCCATCAATGCCATCTACGAACCGGACACCCTTACCATC
ACTAACACCTCTGCCTCGACCGGCCCCTCAACTCTCGACCTCGGCGGCTC
CGGCTCTTCAGACTCTTCTCCTCCTTCAACAACAATAAAGCTCCAACTCC
CAGAACACCCTCACTTGTCCTTCCTCCTCGGATTCAACTCAACATATCCC
GACACCCCGCCCAAAATCCTAGGAACAGCATCCACAGCCTCACGAGGAGA
GGGCAAGCTCGCCGTCGATGTACTAGAGGACATTCTCAGCCGCACATACC
AGCCGGGCGCGGTATGTCTATTCGACCTGATCAATGAAGCCGTCCAGGCA
TTCACGGAGCTCAATATCGGCGGCAGCGCTACAACAACCACCACCACCAA
CAACAATGACACAACTTCCCACACCCAACCTGCCTCCGAAGAACTCAACA
CCGAAAACGGCAGCCATCAACCGCTAACCACAAGATCAACAACCCCCGAC
CATCACACATTTAACCTCACTAGCCCACCGCCATGGATCCTTTCCGACGT
CATCACGGAAAAGAAATCCGTCTTCGTCGGGCGCGCAGCCCACGTCACGA
GTCTGGACCAGGCAAAGGCGTTCCTGGATCATCTGCTCGCGACGGAGAAA
AAGGTTGCGTCCGCGACGCATAATATCAGTGCATGGAGGATTCGCGAGGT
GAAATCATCTACTTCTACTGCTGGCGGTAGTAAGAATGGAGAAGCTACAG
AGATGATTGTGCAGGATTGTGATGATGATGGGGAGACGGCTGCTGGAGGT
CGACTACTGCATTTGATGCAGTTGATGGATGTTTGGGATGTGGTGGTTGT
GGTGACAAGATGGTATGGCGGTGTGTTGCTGGGGCCGGATCGGTTTCGCA
TTATCAATGCGGCCGGGAGGGATGCGCTGGTCAAGGGGGGTTTTGTTAAA
GAGAAGATGTCTGGAGAGAAGGGGAAGAAGAAGGGAAAGAAATGA back to topCoding sequence (CDS) from alignment at ch1:1120796..1124340+ >KYF_000527-T1 ID=KYF_000527-T1|Name=KYF_000527-T1|organism=Aspergillus niger KYF3|type=CDS|length=11592bp|location=Sequence derived from alignment at ch1:1120796..1124340+ (Aspergillus niger KYF3)
ATGGTTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTC
CTCGGTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGT
ACTTTTTCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCG
TCATACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCG
TTTCCCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCC
CTTCAACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTC
CTGAAGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGG
CCTCCCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCC
ACCCGAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGT
GCCACCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGA
CCCCCGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAAT
TTGTGTACATGAACGCAATCCAAACCGTGAAGCCGCGGGGCCTTAACATC
GTTCCGGTAGCCATAGATGCGCAGGGCATGCTTGCGCATGGTAAAGGAGG
ATTGGCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGC
ATCTGATGTACACAATCACTATCGGCCAAAACCCGACGGGCGGGACCTTG
TCGGTCGAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTTGACAT
CATCATCATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAA
CTGCTATGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCA
CGCAACTACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTC
CTTGGTGCCATCGTATCTCTCCGTTGATACGGACGGGCGTGTCGTGCGTC
TTGACACCTTCTCAAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATT
ACCGCTCAGCCAGCTATAATCGAACGCCTGACTCGTCTCACCGAGACATC
GACTCAGCAGCCATCAGGGTTTGTACAGGCCATGGTGGCCGAACTGATTG
TGGGTCAGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAGGAAT
AAATCTAAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTG
GTTGGAAGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTA
CAATTCTCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGAC
GATGTACAACCCATGGCAGAGGATGACACTGCCTGGGAAGTCCTGGATAA
GATGCAGATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGG
TCAAGGTCTGCATCGAGACGCACCCCTTGCTGGAGAAGTATGGCCCGGAG
AAGCTGATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTG
CCTTTCGGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACC
GGGCGCAGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGAT
GTGTTGGGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCA
ACGGAAGAATCTCGATGGCTTGGATGATGAGGAGGTTGCTCTTAGTAGGC
TGCAGGCAAAGGGGCAATGCGCGATAATAATCTTGAAACCCCGCGGCATC
AAGTCAACCATCGTCCCCGCTGCCACCCAGGGCTGCCCAGCCTTACCCTA
TCCCGCAAAAATGGATTCGGCCCTCGAATCCCTGCAGAATACCGATCTAG
CGGAAGAAATTGAAGCCATCAATGCCATCTACGAACCGGACACCCTTACC
ATCACTAACACCTCTGCCTCGACCGGCCCCTCAACTCTCGACCTCGGCGG
CTCCGGCTCTTCAGACTCTTCTCCTCCTTCAACAACAATAAAGCTCCAAC
TCCCAGAACACCCTCACTTGTCCTTCCTCCTCGGATTCAACTCAACATAT
CCCGACACCCCGCCCAAAATCCTAGGAACAGCATCCACAGCCTCACGAGG
AGAGGGCAAGCTCGCCGTCGATGTACTAGAGGACATTCTCAGCCGCACAT
ACCAGCCGGGCGCGGTATGTCTATTCGACCTGATCAATGAAGCCGTCCAG
GCATTCACGGAGCTCAATATCGGCGGCAGCGCTACAACAACCACCACCAC
CAACAACAATGACACAACTTCCCACACCCAACCTGCCTCCGAAGAACTCA
ACACCGAAAACGGCAGCCATCAACCGCTAACCACAAGATCAACAACCCCC
GACCATCACACATTTAACCTCACTAGCCCACCGCCATGGATCCTTTCCGA
CGTCATCACGGAAAAGAAATCCGTCTTCGTCGGGCGCGCAGCCCACGTCA
CGAGTCTGGACCAGGCAAAGGCGTTCCTGGATCATCTGCTCGCGACGGAG
AAAAAGGTTGCGTCCGCGACGCATAATATCAGTGCATGGAGGATTCGCGA
GGTGAAATCATCTACTTCTACTGCTGGCGGTAGTAAGAATGGAGAAGCTA
CAGAGATGATTGTGCAGGATTGTGATGATGATGGGGAGACGGCTGCTGGA
GGTCGACTACTGCATTTGATGCAGTTGATGGATGTTTGGGATGTGGTGGT
TGTGGTGACAAGATGGTATGGCGGTGTGTTGCTGGGGCCGGATCGGTTTC
GCATTATCAATGCGGCCGGGAGGGATGCGCTGGTCAAGGGGGGTTTTGTT
AAAGAGAAGATGTCTGGAGAGAAGGGGAAGAAGAAGGGAAAGAAATGAAT
GGTTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTCCT
CGGTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGTAC
TTTTTCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCGTC
ATACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTT
TCCCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCT
TCAACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCT
GAAGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCC
TCCCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCAC
CCGAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGC
CACCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACC
CCCGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTT
GTGTACATGAACGCAATCCAAACCGTGAAGCCGCGGGGCCTTAACATCGT
TCCGGTAGCCATAGATGCGCAGGGCATGCTTGCGCATGGTAAAGGAGGAT
TGGCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCAT
CTGATGTACACAATCACTATCGGCCAAAACCCGACGGGCGGGACCTTGTC
GGTCGAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTTGACATCA
TCATCATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAACT
GCTATGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCACG
CAACTACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTCCT
TGGTGCCATCGTATCTCTCCGTTGATACGGACGGGCGTGTCGTGCGTCTT
GACACCTTCTCAAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATTAC
CGCTCAGCCAGCTATAATCGAACGCCTGACTCGTCTCACCGAGACATCGA
CTCAGCAGCCATCAGGGTTTGTACAGGCCATGGTGGCCGAACTGATTGTG
GGTCAGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAGGAATAA
ATCTAAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTGGT
TGGAAGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTACA
ATTCTCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGACGA
TGTACAACCCATGGCAGAGGATGACACTGCCTGGGAAGTCCTGGATAAGA
TGCAGATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGGTC
AAGGTCTGCATCGAGACGCACCCCTTGCTGGAGAAGTATGGCCCGGAGAA
GCTGATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTGCC
TTTCGGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACCGG
GCGCAGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGATGT
GTTGGGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCAAC
GGAAGAATCTCGATGGCTTGGATGATGAGGAGGTTGCTCTTAGTAGGCTG
CAGGCAAAGGGGCAATGCGCGATAATAATCTTGAAACCCCGCGGCATCAA
GTCAACCATCGTCCCCGCTGCCACCCAGGGCTGCCCAGCCTTACCCTATC
CCGCAAAAATGGATTCGGCCCTCGAATCCCTGCAGAATACCGATCTAGCG
GAAGAAATTGAAGCCATCAATGCCATCTACGAACCGGACACCCTTACCAT
CACTAACACCTCTGCCTCGACCGGCCCCTCAACTCTCGACCTCGGCGGCT
CCGGCTCTTCAGACTCTTCTCCTCCTTCAACAACAATAAAGCTCCAACTC
CCAGAACACCCTCACTTGTCCTTCCTCCTCGGATTCAACTCAACATATCC
CGACACCCCGCCCAAAATCCTAGGAACAGCATCCACAGCCTCACGAGGAG
AGGGCAAGCTCGCCGTCGATGTACTAGAGGACATTCTCAGCCGCACATAC
CAGCCGGGCGCGGTATGTCTATTCGACCTGATCAATGAAGCCGTCCAGGC
ATTCACGGAGCTCAATATCGGCGGCAGCGCTACAACAACCACCACCACCA
ACAACAATGACACAACTTCCCACACCCAACCTGCCTCCGAAGAACTCAAC
ACCGAAAACGGCAGCCATCAACCGCTAACCACAAGATCAACAACCCCCGA
CCATCACACATTTAACCTCACTAGCCCACCGCCATGGATCCTTTCCGACG
TCATCACGGAAAAGAAATCCGTCTTCGTCGGGCGCGCAGCCCACGTCACG
AGTCTGGACCAGGCAAAGGCGTTCCTGGATCATCTGCTCGCGACGGAGAA
AAAGGTTGCGTCCGCGACGCATAATATCAGTGCATGGAGGATTCGCGAGG
TGAAATCATCTACTTCTACTGCTGGCGGTAGTAAGAATGGAGAAGCTACA
GAGATGATTGTGCAGGATTGTGATGATGATGGGGAGACGGCTGCTGGAGG
TCGACTACTGCATTTGATGCAGTTGATGGATGTTTGGGATGTGGTGGTTG
TGGTGACAAGATGGTATGGCGGTGTGTTGCTGGGGCCGGATCGGTTTCGC
ATTATCAATGCGGCCGGGAGGGATGCGCTGGTCAAGGGGGGTTTTGTTAA
AGAGAAGATGTCTGGAGAGAAGGGGAAGAAGAAGGGAAAGAAATGAATGG
TTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTCCTCG
GTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGTACTT
TTTCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCGTCAT
ACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTTTC
CCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCTTC
AACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCTGA
AGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCCTC
CCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCACCC
GAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGCCA
CCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACCCC
CGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTTGT
GTACATGAACGCAATCCAAACCGTGAAGCCGCGGGGCCTTAACATCGTTC
CGGTAGCCATAGATGCGCAGGGCATGCTTGCGCATGGTAAAGGAGGATTG
GCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCATCT
GATGTACACAATCACTATCGGCCAAAACCCGACGGGCGGGACCTTGTCGG
TCGAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTTGACATCATC
ATCATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAACTGC
TATGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCACGCA
ACTACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTCCTTG
GTGCCATCGTATCTCTCCGTTGATACGGACGGGCGTGTCGTGCGTCTTGA
CACCTTCTCAAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATTACCG
CTCAGCCAGCTATAATCGAACGCCTGACTCGTCTCACCGAGACATCGACT
CAGCAGCCATCAGGGTTTGTACAGGCCATGGTGGCCGAACTGATTGTGGG
TCAGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAGGAATAAAT
CTAAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTGGTTG
GAAGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTACAAT
TCTCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGACGATG
TACAACCCATGGCAGAGGATGACACTGCCTGGGAAGTCCTGGATAAGATG
CAGATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGGTCAA
GGTCTGCATCGAGACGCACCCCTTGCTGGAGAAGTATGGCCCGGAGAAGC
TGATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTGCCTT
TCGGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACCGGGC
GCAGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGATGTGT
TGGGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCAACGG
AAGAATCTCGATGGCTTGGATGATGAGGAGGTTGCTCTTAGTAGGCTGCA
GGCAAAGGGGCAATGCGCGATAATAATCTTGAAACCCCGCGGCATCAAGT
CAACCATCGTCCCCGCTGCCACCCAGGGCTGCCCAGCCTTACCCTATCCC
GCAAAAATGGATTCGGCCCTCGAATCCCTGCAGAATACCGATCTAGCGGA
AGAAATTGAAGCCATCAATGCCATCTACGAACCGGACACCCTTACCATCA
CTAACACCTCTGCCTCGACCGGCCCCTCAACTCTCGACCTCGGCGGCTCC
GGCTCTTCAGACTCTTCTCCTCCTTCAACAACAATAAAGCTCCAACTCCC
AGAACACCCTCACTTGTCCTTCCTCCTCGGATTCAACTCAACATATCCCG
ACACCCCGCCCAAAATCCTAGGAACAGCATCCACAGCCTCACGAGGAGAG
GGCAAGCTCGCCGTCGATGTACTAGAGGACATTCTCAGCCGCACATACCA
GCCGGGCGCGGTATGTCTATTCGACCTGATCAATGAAGCCGTCCAGGCAT
TCACGGAGCTCAATATCGGCGGCAGCGCTACAACAACCACCACCACCAAC
AACAATGACACAACTTCCCACACCCAACCTGCCTCCGAAGAACTCAACAC
CGAAAACGGCAGCCATCAACCGCTAACCACAAGATCAACAACCCCCGACC
ATCACACATTTAACCTCACTAGCCCACCGCCATGGATCCTTTCCGACGTC
ATCACGGAAAAGAAATCCGTCTTCGTCGGGCGCGCAGCCCACGTCACGAG
TCTGGACCAGGCAAAGGCGTTCCTGGATCATCTGCTCGCGACGGAGAAAA
AGGTTGCGTCCGCGACGCATAATATCAGTGCATGGAGGATTCGCGAGGTG
AAATCATCTACTTCTACTGCTGGCGGTAGTAAGAATGGAGAAGCTACAGA
GATGATTGTGCAGGATTGTGATGATGATGGGGAGACGGCTGCTGGAGGTC
GACTACTGCATTTGATGCAGTTGATGGATGTTTGGGATGTGGTGGTTGTG
GTGACAAGATGGTATGGCGGTGTGTTGCTGGGGCCGGATCGGTTTCGCAT
TATCAATGCGGCCGGGAGGGATGCGCTGGTCAAGGGGGGTTTTGTTAAAG
AGAAGATGTCTGGAGAGAAGGGGAAGAAGAAGGGAAAGAAATGAATGGTT
TACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTCCTCGGT
CACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGTACTTTT
TCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCGTCATAC
TTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTTTCCC
CGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCTTCAA
CGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCTGAAG
AAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCCTCCC
CGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCACCCGA
ATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGCCACC
GACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACCCCCG
TCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTTGTGT
ACATGAACGCAATCCAAACCGTGAAGCCGCGGGGCCTTAACATCGTTCCG
GTAGCCATAGATGCGCAGGGCATGCTTGCGCATGGTAAAGGAGGATTGGC
CGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCATCTGA
TGTACACAATCACTATCGGCCAAAACCCGACGGGCGGGACCTTGTCGGTC
GAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTTGACATCATCAT
CATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAACTGCTA
TGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCACGCAAC
TACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTCCTTGGT
GCCATCGTATCTCTCCGTTGATACGGACGGGCGTGTCGTGCGTCTTGACA
CCTTCTCAAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATTACCGCT
CAGCCAGCTATAATCGAACGCCTGACTCGTCTCACCGAGACATCGACTCA
GCAGCCATCAGGGTTTGTACAGGCCATGGTGGCCGAACTGATTGTGGGTC
AGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAGGAATAAATCT
AAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTGGTTGGA
AGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTACAATTC
TCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGACGATGTA
CAACCCATGGCAGAGGATGACACTGCCTGGGAAGTCCTGGATAAGATGCA
GATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGGTCAAGG
TCTGCATCGAGACGCACCCCTTGCTGGAGAAGTATGGCCCGGAGAAGCTG
ATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTGCCTTTC
GGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACCGGGCGC
AGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGATGTGTTG
GGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCAACGGAA
GAATCTCGATGGCTTGGATGATGAGGAGGTTGCTCTTAGTAGGCTGCAGG
CAAAGGGGCAATGCGCGATAATAATCTTGAAACCCCGCGGCATCAAGTCA
ACCATCGTCCCCGCTGCCACCCAGGGCTGCCCAGCCTTACCCTATCCCGC
AAAAATGGATTCGGCCCTCGAATCCCTGCAGAATACCGATCTAGCGGAAG
AAATTGAAGCCATCAATGCCATCTACGAACCGGACACCCTTACCATCACT
AACACCTCTGCCTCGACCGGCCCCTCAACTCTCGACCTCGGCGGCTCCGG
CTCTTCAGACTCTTCTCCTCCTTCAACAACAATAAAGCTCCAACTCCCAG
AACACCCTCACTTGTCCTTCCTCCTCGGATTCAACTCAACATATCCCGAC
ACCCCGCCCAAAATCCTAGGAACAGCATCCACAGCCTCACGAGGAGAGGG
CAAGCTCGCCGTCGATGTACTAGAGGACATTCTCAGCCGCACATACCAGC
CGGGCGCGGTATGTCTATTCGACCTGATCAATGAAGCCGTCCAGGCATTC
ACGGAGCTCAATATCGGCGGCAGCGCTACAACAACCACCACCACCAACAA
CAATGACACAACTTCCCACACCCAACCTGCCTCCGAAGAACTCAACACCG
AAAACGGCAGCCATCAACCGCTAACCACAAGATCAACAACCCCCGACCAT
CACACATTTAACCTCACTAGCCCACCGCCATGGATCCTTTCCGACGTCAT
CACGGAAAAGAAATCCGTCTTCGTCGGGCGCGCAGCCCACGTCACGAGTC
TGGACCAGGCAAAGGCGTTCCTGGATCATCTGCTCGCGACGGAGAAAAAG
GTTGCGTCCGCGACGCATAATATCAGTGCATGGAGGATTCGCGAGGTGAA
ATCATCTACTTCTACTGCTGGCGGTAGTAAGAATGGAGAAGCTACAGAGA
TGATTGTGCAGGATTGTGATGATGATGGGGAGACGGCTGCTGGAGGTCGA
CTACTGCATTTGATGCAGTTGATGGATGTTTGGGATGTGGTGGTTGTGGT
GACAAGATGGTATGGCGGTGTGTTGCTGGGGCCGGATCGGTTTCGCATTA
TCAATGCGGCCGGGAGGGATGCGCTGGTCAAGGGGGGTTTTGTTAAAGAG
AAGATGTCTGGAGAGAAGGGGAAGAAGAAGGGAAAGAAATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009058 | biosynthetic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0005515 | protein binding |
| GO:0030170 | pyridoxal phosphate binding |
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:
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1.5 |
| Note | EggNog:ENOG41 |
| Note | SMCOG1019:aminotransferase |
| DBxref | InterPro:IPR015424 |
| DBxref | InterPro:IPR020568 |
| DBxref | InterPro:IPR020569 |
| DBxref | InterPro:IPR036956 |
| DBxref | InterPro:IPR015421 |
| DBxref | InterPro:IPR001498 |
| DBxref | InterPro:IPR006575 |
| DBxref | InterPro:IPR004839 |
| DBxref | InterPro:IPR016135 |
| DBxref | PFAM:PF01205 |
| DBxref | PFAM:PF05773 |
| DBxref | PFAM:PF00155 |
| Product | putative secondary metabolism biosynthetic enzyme |
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 | ch1:1120796..1124340 + |
|
