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Sequences
The following sequences are available for this feature:
mRNA from alignment at An11:1553784..1555660- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_007014-T1 ID=CBS51388_007014-T1|Name=CBS51388_007014-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=1877bp|location=Sequence derived from alignment at An11:1553784..1555660- (Aspergillus niger CBS 513.88)
ATGCTTGTTACTTCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCA
GGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAG
AGAAAGGTATAATTTATGTTGCGCAAATGCGTCGCAAGAAGCTAACTCGA
CGTGTCATTGTGTAGTATGCAACGTACTTGACTACGGGGCATCCGCAAAT
TCGACCATTGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCA
AACAGGTGGACTAGGTAAGTTCTACTAGTATCTTTATGGCGGTTTAAAAG
CAGAGCAACAGGAAAACACTAATGTTAGTGATTCAGTTTATATTCCGGAA
GGGGACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTG
GGCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATGTGTAGGAAT
GCGCTTATATGAATCTGCCACTTTGTGAACACTAACAAACCGCAGCACCG
ATGGAGGAAACATGATATTCAGTGAGTTACATGCGAGACAGCCGACAATG
ATGTGAGAATTACGCTGAGATACAATCTAGTCGAACACACCAGTGATATC
GAAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCT
GTTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACG
TGACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTAC
TTCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCAT
TCGTGGCGCCAGTATGGGAGGGCTTGACGGAATCGATATCTCCGGAGCCA
ATTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACT
GTGAAGGTAGTCTATTTTGCACAACCCCAGAGCCAAGAGGCCTATTCTAA
AGCTTGCTGATGAACAATGCAGAGTCCATCGGCCAACGTCCGCGTAGAAA
ACGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGCACG
GACACGAATATCTCTAACATTGAATTTGAGAACATCTACACTTACAACTC
CACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAA
ACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGAT
TTGGATACATACTGGGGTGATGAGAGCGATGGTGACGGTATCAAGTACGA
GAATATCGGTTTTGAAGTGTGTATCATCTACTCCCAGTCACAGCAATGCC
CAGAATCTAACCCCGAGTCTAGAATTGGAAGGGTACCAGTTCGAATGGCA
TTCAGAGAAGCCCCATCAGAATTCTTTGCCCGGACGCGAATCCATGCACG
AATATTACCCTAACAGCCGTTGAATTGTGGACTGATGTAAGCTTCATATT
GCAATTGATGTTTATGATGCCCGAAAACTAACCCGCTTGATACACACCCA
GACTGGAGATTACGTCAAACAGGTAATAAAAATCTGGTTCCGGTCCTGAT
TTCAAAGCTGGAACTTATGTTCTTTTAGGAATGCTCCAGTGCCTACGGCG
AAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTT
ACGACCACGATTACCTCGGTGTATGCAGCCTACCACAGCCATGATGCCCC
CTTATCACCTGTGCTAATCCTCTGCGTAGGCCAGTCACCGCGTACAGTCC
GACGACGACGATGCCCGGCCTGATTTCAACATCCATGGATACTACGACCT
CTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCT
TACAGCACACTTATGGCGAATATGTAA back to topCoding sequence (CDS) from alignment at An11:1553784..1555660- >CBS51388_007014-T1 ID=CBS51388_007014-T1|Name=CBS51388_007014-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=13320bp|location=Sequence derived from alignment at An11:1553784..1555660- (Aspergillus niger CBS 513.88)
GCCAGTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCAA
CATCCATGGATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGC
TTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGA
ATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCA
CCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATT
ACGTCAAACAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGAGAAGC
CCCATCAGAATTCTTTGCCCGGACGCGAATCCATGCACGAATATTACCCT
AACAGCCGTTGAATTGTGGACTGATAGTCCATCGGCCAACGTCCGCGTAG
AAAACGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGC
ACGGACACGAATATCTCTAACATTGAATTTGAGAACATCTACACTTACAA
CTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTA
CAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTA
GATTTGGATACATACTGGGGTGATGAGAGCGATGGTGACGGTATCAAGTA
CGAGAATATCGGTTTTGAATCGAACACACCAGTGATATCGAAATTTTCAG
TAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTGTTCCATGAGC
AAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTC
AGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTT
AGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCA
GTATGGGAGGGCTTGACGGAATCGATATCTCCGGAGCCAATTACTGGATC
CATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCG
ATGGAGGAAACATGATATTCATTTATATTCCGGAAGGGGACTATCTCCTT
TCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGA
TGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGG
GCATCCGCAAATTCGACCATTGATATCGGACCGCCACTCAAGGAAGCCTT
CCAAGACTGCCAAACAGGTGGACTAGATGCTTGTTACTTCTCTGATTGCA
CTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACG
TACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCAGTCACCGCGTACAG
TCCGACGACGACGATGCCCGGCCTGATTTCAACATCCATGGATACTACGA
CCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCA
GCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGG
CGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTT
TTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAACAGAATTGGA
AGGGTACCAGTTCGAATGGCATTCAGAGAAGCCCCATCAGAATTCTTTGC
CCGGACGCGAATCCATGCACGAATATTACCCTAACAGCCGTTGAATTGTG
GACTGATAGTCCATCGGCCAACGTCCGCGTAGAAAACGTCTTTTGCAACC
ACAGTGGCGGATGCGCGATGGGATCACTTGGCACGGACACGAATATCTCT
AACATTGAATTTGAGAACATCTACACTTACAACTCCACTCAGATGTACAT
GATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGA
ACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGG
GGTGATGAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGA
ATCGAACACACCAGTGATATCGAAATTTTCAGTAATAACTCTGCTGGAGC
AATTCAGGGCTACGGTTATCTGTTCCATGAGCAAGACGAATACGGGCCAC
GGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATC
TTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGG
CGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTTGACG
GAATCGATATCTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACT
AACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAACATGATAT
TCATTTATATTCCGGAAGGGGACTATCTCCTTTCGTCGTGGGTGTCACTA
GTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGA
CAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACC
ATTGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGG
TGGACTAGATGCTTGTTACTTCTCTGATTGCACTTCTGCCCGCCATTGCG
GCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAA
AGCCGCAGAGAAAGGCCAGTCACCGCGTACAGTCCGACGACGACGATGCC
CGGCCTGATTTCAACATCCATGGATACTACGACCTCTATTCCGATTCCGA
CAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATG
GCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCG
ACAGCAAAATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCT
CGGTACTGGAGATTACGTCAAACAGAATTGGAAGGGTACCAGTTCGAATG
GCATTCAGAGAAGCCCCATCAGAATTCTTTGCCCGGACGCGAATCCATGC
ACGAATATTACCCTAACAGCCGTTGAATTGTGGACTGATAGTCCATCGGC
CAACGTCCGCGTAGAAAACGTCTTTTGCAACCACAGTGGCGGATGCGCGA
TGGGATCACTTGGCACGGACACGAATATCTCTAACATTGAATTTGAGAAC
ATCTACACTTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGG
TAATGGCACAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCA
ACGCCTACATGCTAGATTTGGATACATACTGGGGTGATGAGAGCGATGGT
GACGGTATCAAGTACGAGAATATCGGTTTTGAATCGAACACACCAGTGAT
ATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTA
TCTGTTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACA
ACGTGACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCC
TACTTCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGT
CATTCGTGGCGCCAGTATGGGAGGGCTTGACGGAATCGATATCTCCGGAG
CCAATTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTG
ACTGTGAAGCACCGATGGAGGAAACATGATATTCATTTATATTCCGGAAG
GGGACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGG
GCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACG
TACTTGACTACGGGGCATCCGCAAATTCGACCATTGATATCGGACCGCCA
CTCAAGGAAGCCTTCCAAGACTGCCAAACAGGTGGACTAGATGCTTGTTA
CTTCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGG
ACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCA
GTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCAACATC
CATGGATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTT
TCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGC
TCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCT
TGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGT
CAAACAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGAGAAGCCCCA
TCAGAATTCTTTGCCCGGACGCGAATCCATGCACGAATATTACCCTAACA
GCCGTTGAATTGTGGACTGATAGTCCATCGGCCAACGTCCGCGTAGAAAA
CGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGCACGG
ACACGAATATCTCTAACATTGAATTTGAGAACATCTACACTTACAACTCC
ACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAA
CTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATT
TGGATACATACTGGGGTGATGAGAGCGATGGTGACGGTATCAAGTACGAG
AATATCGGTTTTGAATCGAACACACCAGTGATATCGAAATTTTCAGTAAT
AACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTGTTCCATGAGCAAGA
CGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTG
TGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTT
GAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTAT
GGGAGGGCTTGACGGAATCGATATCTCCGGAGCCAATTACTGGATCCATG
ACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGG
AGGAAACATGATATTCATTTATATTCCGGAAGGGGACTATCTCCTTTCGT
CGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGC
ATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCAT
CCGCAAATTCGACCATTGATATCGGACCGCCACTCAAGGAAGCCTTCCAA
GACTGCCAAACAGGTGGACTAGATGCTTGTTACTTCTCTGATTGCACTTC
TGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACG
AGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCAGTCACCGCGTACAGTCCG
ACGACGACGATGCCCGGCCTGATTTCAACATCCATGGATACTACGACCTC
TATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTT
ACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAA
GGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTTAC
GACCACGATTACCTCGGTACTGGAGATTACGTCAAACAGAATTGGAAGGG
TACCAGTTCGAATGGCATTCAGAGAAGCCCCATCAGAATTCTTTGCCCGG
ACGCGAATCCATGCACGAATATTACCCTAACAGCCGTTGAATTGTGGACT
GATAGTCCATCGGCCAACGTCCGCGTAGAAAACGTCTTTTGCAACCACAG
TGGCGGATGCGCGATGGGATCACTTGGCACGGACACGAATATCTCTAACA
TTGAATTTGAGAACATCTACACTTACAACTCCACTCAGATGTACATGATC
AAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGAACTT
CATTGGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGGGGTG
ATGAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGAATCG
AACACACCAGTGATATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATT
CAGGGCTACGGTTATCTGTTCCATGAGCAAGACGAATACGGGCCACGGAT
TCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATCTTGG
TGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGGCGAG
GTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTTGACGGAAT
CGATATCTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACTAACG
GCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAACATGATATTCAT
TTATATTCCGGAAGGGGACTATCTCCTTTCGTCGTGGGTGTCACTAGTTT
ATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGACAAG
AATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACCATTG
ATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGGTGGA
CTAGATGCTTGTTACTTCTCTGATTGCACTTCTGCCCGCCATTGCGGCGG
CGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCC
GCAGAGAAAGGCCAGTCACCGCGTACAGTCCGACGACGACGATGCCCGGC
CTGATTTCAACATCCATGGATACTACGACCTCTATTCCGATTCCGACAAT
TCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGA
ATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAG
CAAAATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGT
ACTGGAGATTACGTCAAACAGAATTGGAAGGGTACCAGTTCGAATGGCAT
TCAGAGAAGCCCCATCAGAATTCTTTGCCCGGACGCGAATCCATGCACGA
ATATTACCCTAACAGCCGTTGAATTGTGGACTGATAGTCCATCGGCCAAC
GTCCGCGTAGAAAACGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGG
ATCACTTGGCACGGACACGAATATCTCTAACATTGAATTTGAGAACATCT
ACACTTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAAT
GGCACAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGC
CTACATGCTAGATTTGGATACATACTGGGGTGATGAGAGCGATGGTGACG
GTATCAAGTACGAGAATATCGGTTTTGAATCGAACACACCAGTGATATCG
AAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTG
TTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGT
GACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACT
TCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATT
CGTGGCGCCAGTATGGGAGGGCTTGACGGAATCGATATCTCCGGAGCCAA
TTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTG
TGAAGCACCGATGGAGGAAACATGATATTCATTTATATTCCGGAAGGGGA
CTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTT
TGCAACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACT
TGACTACGGGGCATCCGCAAATTCGACCATTGATATCGGACCGCCACTCA
AGGAAGCCTTCCAAGACTGCCAAACAGGTGGACTAGATGCTTGTTACTTC
TCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCG
TGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCAGTCA
CCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCAACATCCATG
GATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCC
AGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCA
GTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCC
TCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAA
CAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGAGAAGCCCCATCAG
AATTCTTTGCCCGGACGCGAATCCATGCACGAATATTACCCTAACAGCCG
TTGAATTGTGGACTGATAGTCCATCGGCCAACGTCCGCGTAGAAAACGTC
TTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGCACGGACAC
GAATATCTCTAACATTGAATTTGAGAACATCTACACTTACAACTCCACTC
AGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGT
TCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGA
TACATACTGGGGTGATGAGAGCGATGGTGACGGTATCAAGTACGAGAATA
TCGGTTTTGAATCGAACACACCAGTGATATCGAAATTTTCAGTAATAACT
CTGCTGGAGCAATTCAGGGCTACGGTTATCTGTTCCATGAGCAAGACGAA
TACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCA
TGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGT
CATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGA
GGGCTTGACGGAATCGATATCTCCGGAGCCAATTACTGGATCCATGACGT
TGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGA
AACATGATATTCATTTATATTCCGGAAGGGGACTATCTCCTTTCGTCGTG
GGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTA
TTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGC
AAATTCGACCATTGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACT
GCCAAACAGGTGGACTAGATGCTTGTTACTTCTCTGATTGCACTTCTGCC
CGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTG
CGTCTGCGAAAGCCGCAGAGAAAGGCCAGTCACCGCGTACAGTCCGACGA
CGACGATGCCCGGCCTGATTTCAACATCCATGGATACTACGACCTCTATT
CCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAG
CACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCG
AATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTTACGACC
ACGATTACCTCGGTACTGGAGATTACGTCAAACAGAATTGGAAGGGTACC
AGTTCGAATGGCATTCAGAGAAGCCCCATCAGAATTCTTTGCCCGGACGC
GAATCCATGCACGAATATTACCCTAACAGCCGTTGAATTGTGGACTGATA
GTCCATCGGCCAACGTCCGCGTAGAAAACGTCTTTTGCAACCACAGTGGC
GGATGCGCGATGGGATCACTTGGCACGGACACGAATATCTCTAACATTGA
ATTTGAGAACATCTACACTTACAACTCCACTCAGATGTACATGATCAAGT
CCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGAACTTCATT
GGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGGGGTGATGA
GAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGAATCGAACA
CACCAGTGATATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGG
GCTACGGTTATCTGTTCCATGAGCAAGACGAATACGGGCCACGGATTCTT
CGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATCTTGGTGGA
TTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGT
ACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTTGACGGAATCGAT
ATCTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACTAACGGCGA
CGAATGTGTGACTGTGAAGCACCGATGGAGGAAACATGATATTCATTTAT
ATTCCGGAAGGGGACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGG
TTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATG
TTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACCATTGATAT
CGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGGTGGACTAG
ATGCTTGTTACTTCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCA
GGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAG
AGAAAGGCCAGTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGA
TTTCAACATCCATGGATACTACGACCTCTATTCCGATTCCGACAATTCCT
ACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATAT
GTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAA
ATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTG
GAGATTACGTCAAACAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAG
AGAAGCCCCATCAGAATTCTTTGCCCGGACGCGAATCCATGCACGAATAT
TACCCTAACAGCCGTTGAATTGTGGACTGATAGTCCATCGGCCAACGTCC
GCGTAGAAAACGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCA
CTTGGCACGGACACGAATATCTCTAACATTGAATTTGAGAACATCTACAC
TTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCA
CAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTAC
ATGCTAGATTTGGATACATACTGGGGTGATGAGAGCGATGGTGACGGTAT
CAAGTACGAGAATATCGGTTTTGAATCGAACACACCAGTGATATCGAAAT
TTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTGTTCC
ATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACT
GATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCT
CAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTG
GCGCCAGTATGGGAGGGCTTGACGGAATCGATATCTCCGGAGCCAATTAC
TGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAA
GCACCGATGGAGGAAACATGATATTCATTTATATTCCGGAAGGGGACTAT
CTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCA
ACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGAC
TACGGGGCATCCGCAAATTCGACCATTGATATCGGACCGCCACTCAAGGA
AGCCTTCCAAGACTGCCAAACAGGTGGACTAGATGCTTGTTACTTCTCTG
ATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGG
GCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCAGTCACCGC
GTACAGTCCGACGACGACGATGCCCGGCCTGATTTCAACATCCATGGATA
CTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGT
GCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGC
CTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCAT
ATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAACAGA
ATTGGAAGGGTACCAGTTCGAATGGCATTCAGAGAAGCCCCATCAGAATT
CTTTGCCCGGACGCGAATCCATGCACGAATATTACCCTAACAGCCGTTGA
ATTGTGGACTGATAGTCCATCGGCCAACGTCCGCGTAGAAAACGTCTTTT
GCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGCACGGACACGAAT
ATCTCTAACATTGAATTTGAGAACATCTACACTTACAACTCCACTCAGAT
GTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTT
TCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGATACA
TACTGGGGTGATGAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGG
TTTTGAATCGAACACACCAGTGATATCGAAATTTTCAGTAATAACTCTGC
TGGAGCAATTCAGGGCTACGGTTATCTGTTCCATGAGCAAGACGAATACG
GGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGAC
TTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATA
CAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGC
TTGACGGAATCGATATCTCCGGAGCCAATTACTGGATCCATGACGTTGAG
GTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAACA
TGATATTCATTTATATTCCGGAAGGGGACTATCTCCTTTCGTCGTGGGTG
TCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTA
CCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAAT
TCGACCATTGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCA
AACAGGTGGACTAGATGCTTGTTACTTCTCTGATTGCACTTCTGCCCGCC
ATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTC
TGCGAAAGCCGCAGAGAAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004650 | polygalacturonase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
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 |
|---|
| Note | SECRETED:SignalP(1-16) |
| Note | CAZy:GH28 |
| DBxref | InterPro:IPR011050 |
| DBxref | InterPro:IPR012334 |
| DBxref | InterPro:IPR000743 |
| DBxref | PFAM:PF00295 |
| 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 |
|---|
| An11 | supercontig | An11:1553784..1555660 - |
|
