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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:1615519..1617394- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_24315-T1 ID=CAN33_24315-T1|Name=CAN33_24315-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1876bp|location=Sequence derived from alignment at NKJJ01000002.1:1615519..1617394- (Aspergillus niger FDAARGOS_311)
ATGCTTGTTACTCCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCA
GGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAG
AGAAAGGTATAATTTATGTTGCGCAAATGCGTCGCAAGAAGCTAACCCGA
CGTGACATTGTGTAGTATGCAACGTACTTGACTACGGGGCATCCGCAAAT
TCGACCAATGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCA
AACAGGCGGACTAGGTAAGTTCTACTAGTATCTCCATGGCGGTTTAAAAG
CAGAGCAACAACAAAAACTAATGTTTGTAATTCAGTTTATATCCCGGAAG
GGAACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGG
GCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATGTGTAGGAATG
CGCTTATATGAATCTGCCACTTTGTGAACACTAACAAACCGCAGCACCGA
TGGAGGAAATATGATATTCAGTTAGTTACATGCGAGACAGCCGACAATGA
TGTGAGAATTACGCTGAGATACAATCTAGTCGAACACACCAATGATATCG
AAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTA
TTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGT
GACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACT
TCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATT
CGTGGCGCCAGTATGGGAGGGCTCGACGGAATCGATATTTCCGGAGCCAA
TTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTG
TGAAGGTAGTCCTATTTTGCACAACCCCAGAGCCAAGAGGCCTATTCCAA
AGCTTGCTGATGAACAATGCAGAGTCCATCGGCCAACGTCCGGGTAGAAA
ATGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGAACG
GACACGAATATCTCTAACATTGAATACGAGAACATCTACACTTACAACTC
CACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAA
ACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGAT
TTGGATACATACTGGGGTGATCAGAGCGATGGTGACGGTATCAAGTACGA
GAATATCGGTTTTGAAGTGTGTATCATCTGCTCCCAGTCACAGCAACGCC
CAGAATCTAATCCGAGTCTAGAATTGGAAGGGTACCAGTTCGAATGGCAT
TCAGCGAAGCCCCATCAGGATTCTTTGCCCGGACGAGAATCCATGCACGA
ATATTACCCTAACAGCCGTTGAACTGTGGACTGATGTAAGCTTCATATTG
CAATTGATGTTTATGGTGCCCGAAAACTAACCCGCTTGATACACACCCAG
ACTGGAGATTACGTCAAGCAGGTAATGAAAATCTGGTTCCGGTCCTGATT
TCAAAGCTGGAACTTATGTTCTTTTAGGAATGCTCCAGTGCCTACGGCGA
AGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTTA
CGACCACGATTACCTCGGTGTATGCAGCCTACCACAGCCATGATGCCCCC
TTATCACCTGTGCTAATCCTCTGCGTAGGCCTGTCACCGCGTACAGTCCG
ACGACGACGATGCCCGGCCTGATTTCGACATCCATGGATACTACGACCTC
TATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTT
ACAGCACACTTATGGCGAATATGTAA back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:1615519..1617394- >CAN33_24315-T1 ID=CAN33_24315-T1|Name=CAN33_24315-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=13320bp|location=Sequence derived from alignment at NKJJ01000002.1:1615519..1617394- (Aspergillus niger FDAARGOS_311)
GCCTGTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCGA
CATCCATGGATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGC
TTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGA
ATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCA
CCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATT
ACGTCAAGCAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGCGAAGC
CCCATCAGGATTCTTTGCCCGGACGAGAATCCATGCACGAATATTACCCT
AACAGCCGTTGAACTGTGGACTGATAGTCCATCGGCCAACGTCCGGGTAG
AAAATGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGA
ACGGACACGAATATCTCTAACATTGAATACGAGAACATCTACACTTACAA
CTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTA
CAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTA
GATTTGGATACATACTGGGGTGATCAGAGCGATGGTGACGGTATCAAGTA
CGAGAATATCGGTTTTGAATCGAACACACCAATGATATCGAAATTTTCAG
TAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTATTCCATGAGC
AAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTC
AGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTT
AGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCA
GTATGGGAGGGCTCGACGGAATCGATATTTCCGGAGCCAATTACTGGATC
CATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCG
ATGGAGGAAATATGATATTCATTTATATCCCGGAAGGGAACTATCTCCTT
TCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGA
TGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGG
GCATCCGCAAATTCGACCAATGATATCGGACCGCCACTCAAGGAAGCCTT
CCAAGACTGCCAAACAGGCGGACTAGATGCTTGTTACTCCTCTGATTGCA
CTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACG
TACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCTGTCACCGCGTACAG
TCCGACGACGACGATGCCCGGCCTGATTTCGACATCCATGGATACTACGA
CCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCA
GCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGG
CGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTT
TTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAGCAGAATTGGA
AGGGTACCAGTTCGAATGGCATTCAGCGAAGCCCCATCAGGATTCTTTGC
CCGGACGAGAATCCATGCACGAATATTACCCTAACAGCCGTTGAACTGTG
GACTGATAGTCCATCGGCCAACGTCCGGGTAGAAAATGTCTTTTGCAACC
ACAGTGGCGGATGCGCGATGGGATCACTTGGAACGGACACGAATATCTCT
AACATTGAATACGAGAACATCTACACTTACAACTCCACTCAGATGTACAT
GATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGA
ACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGG
GGTGATCAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGA
ATCGAACACACCAATGATATCGAAATTTTCAGTAATAACTCTGCTGGAGC
AATTCAGGGCTACGGTTATCTATTCCATGAGCAAGACGAATACGGGCCAC
GGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATC
TTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGG
CGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTCGACG
GAATCGATATTTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACT
AACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAATATGATAT
TCATTTATATCCCGGAAGGGAACTATCTCCTTTCGTCGTGGGTGTCACTA
GTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGA
CAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACC
AATGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGG
CGGACTAGATGCTTGTTACTCCTCTGATTGCACTTCTGCCCGCCATTGCG
GCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAA
AGCCGCAGAGAAAGGCCTGTCACCGCGTACAGTCCGACGACGACGATGCC
CGGCCTGATTTCGACATCCATGGATACTACGACCTCTATTCCGATTCCGA
CAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATG
GCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCG
ACAGCAAAATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCT
CGGTACTGGAGATTACGTCAAGCAGAATTGGAAGGGTACCAGTTCGAATG
GCATTCAGCGAAGCCCCATCAGGATTCTTTGCCCGGACGAGAATCCATGC
ACGAATATTACCCTAACAGCCGTTGAACTGTGGACTGATAGTCCATCGGC
CAACGTCCGGGTAGAAAATGTCTTTTGCAACCACAGTGGCGGATGCGCGA
TGGGATCACTTGGAACGGACACGAATATCTCTAACATTGAATACGAGAAC
ATCTACACTTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGG
TAATGGCACAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCA
ACGCCTACATGCTAGATTTGGATACATACTGGGGTGATCAGAGCGATGGT
GACGGTATCAAGTACGAGAATATCGGTTTTGAATCGAACACACCAATGAT
ATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTA
TCTATTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACA
ACGTGACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCC
TACTTCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGT
CATTCGTGGCGCCAGTATGGGAGGGCTCGACGGAATCGATATTTCCGGAG
CCAATTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTG
ACTGTGAAGCACCGATGGAGGAAATATGATATTCATTTATATCCCGGAAG
GGAACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGG
GCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACG
TACTTGACTACGGGGCATCCGCAAATTCGACCAATGATATCGGACCGCCA
CTCAAGGAAGCCTTCCAAGACTGCCAAACAGGCGGACTAGATGCTTGTTA
CTCCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGG
ACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCT
GTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCGACATC
CATGGATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTT
TCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGC
TCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCT
TGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGT
CAAGCAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGCGAAGCCCCA
TCAGGATTCTTTGCCCGGACGAGAATCCATGCACGAATATTACCCTAACA
GCCGTTGAACTGTGGACTGATAGTCCATCGGCCAACGTCCGGGTAGAAAA
TGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGAACGG
ACACGAATATCTCTAACATTGAATACGAGAACATCTACACTTACAACTCC
ACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAA
CTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATT
TGGATACATACTGGGGTGATCAGAGCGATGGTGACGGTATCAAGTACGAG
AATATCGGTTTTGAATCGAACACACCAATGATATCGAAATTTTCAGTAAT
AACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTATTCCATGAGCAAGA
CGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTG
TGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTT
GAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTAT
GGGAGGGCTCGACGGAATCGATATTTCCGGAGCCAATTACTGGATCCATG
ACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGG
AGGAAATATGATATTCATTTATATCCCGGAAGGGAACTATCTCCTTTCGT
CGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGC
ATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCAT
CCGCAAATTCGACCAATGATATCGGACCGCCACTCAAGGAAGCCTTCCAA
GACTGCCAAACAGGCGGACTAGATGCTTGTTACTCCTCTGATTGCACTTC
TGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACG
AGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCTGTCACCGCGTACAGTCCG
ACGACGACGATGCCCGGCCTGATTTCGACATCCATGGATACTACGACCTC
TATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTT
ACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAA
GGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTTAC
GACCACGATTACCTCGGTACTGGAGATTACGTCAAGCAGAATTGGAAGGG
TACCAGTTCGAATGGCATTCAGCGAAGCCCCATCAGGATTCTTTGCCCGG
ACGAGAATCCATGCACGAATATTACCCTAACAGCCGTTGAACTGTGGACT
GATAGTCCATCGGCCAACGTCCGGGTAGAAAATGTCTTTTGCAACCACAG
TGGCGGATGCGCGATGGGATCACTTGGAACGGACACGAATATCTCTAACA
TTGAATACGAGAACATCTACACTTACAACTCCACTCAGATGTACATGATC
AAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGAACTT
CATTGGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGGGGTG
ATCAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGAATCG
AACACACCAATGATATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATT
CAGGGCTACGGTTATCTATTCCATGAGCAAGACGAATACGGGCCACGGAT
TCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATCTTGG
TGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGGCGAG
GTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTCGACGGAAT
CGATATTTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACTAACG
GCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAATATGATATTCAT
TTATATCCCGGAAGGGAACTATCTCCTTTCGTCGTGGGTGTCACTAGTTT
ATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGACAAG
AATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACCAATG
ATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGGCGGA
CTAGATGCTTGTTACTCCTCTGATTGCACTTCTGCCCGCCATTGCGGCGG
CGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCC
GCAGAGAAAGGCCTGTCACCGCGTACAGTCCGACGACGACGATGCCCGGC
CTGATTTCGACATCCATGGATACTACGACCTCTATTCCGATTCCGACAAT
TCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGA
ATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAG
CAAAATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGT
ACTGGAGATTACGTCAAGCAGAATTGGAAGGGTACCAGTTCGAATGGCAT
TCAGCGAAGCCCCATCAGGATTCTTTGCCCGGACGAGAATCCATGCACGA
ATATTACCCTAACAGCCGTTGAACTGTGGACTGATAGTCCATCGGCCAAC
GTCCGGGTAGAAAATGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGG
ATCACTTGGAACGGACACGAATATCTCTAACATTGAATACGAGAACATCT
ACACTTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAAT
GGCACAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGC
CTACATGCTAGATTTGGATACATACTGGGGTGATCAGAGCGATGGTGACG
GTATCAAGTACGAGAATATCGGTTTTGAATCGAACACACCAATGATATCG
AAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTA
TTCCATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGT
GACTGATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACT
TCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATT
CGTGGCGCCAGTATGGGAGGGCTCGACGGAATCGATATTTCCGGAGCCAA
TTACTGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTG
TGAAGCACCGATGGAGGAAATATGATATTCATTTATATCCCGGAAGGGAA
CTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTT
TGCAACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACT
TGACTACGGGGCATCCGCAAATTCGACCAATGATATCGGACCGCCACTCA
AGGAAGCCTTCCAAGACTGCCAAACAGGCGGACTAGATGCTTGTTACTCC
TCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCG
TGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCTGTCA
CCGCGTACAGTCCGACGACGACGATGCCCGGCCTGATTTCGACATCCATG
GATACTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCC
AGGTGCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCA
GTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCC
TCATATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAG
CAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAGCGAAGCCCCATCAG
GATTCTTTGCCCGGACGAGAATCCATGCACGAATATTACCCTAACAGCCG
TTGAACTGTGGACTGATAGTCCATCGGCCAACGTCCGGGTAGAAAATGTC
TTTTGCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGAACGGACAC
GAATATCTCTAACATTGAATACGAGAACATCTACACTTACAACTCCACTC
AGATGTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGT
TCTTTCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGA
TACATACTGGGGTGATCAGAGCGATGGTGACGGTATCAAGTACGAGAATA
TCGGTTTTGAATCGAACACACCAATGATATCGAAATTTTCAGTAATAACT
CTGCTGGAGCAATTCAGGGCTACGGTTATCTATTCCATGAGCAAGACGAA
TACGGGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCA
TGACTTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGT
CATACAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGA
GGGCTCGACGGAATCGATATTTCCGGAGCCAATTACTGGATCCATGACGT
TGAGGTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGA
AATATGATATTCATTTATATCCCGGAAGGGAACTATCTCCTTTCGTCGTG
GGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTA
TTTACCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGC
AAATTCGACCAATGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACT
GCCAAACAGGCGGACTAGATGCTTGTTACTCCTCTGATTGCACTTCTGCC
CGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTG
CGTCTGCGAAAGCCGCAGAGAAAGGCCTGTCACCGCGTACAGTCCGACGA
CGACGATGCCCGGCCTGATTTCGACATCCATGGATACTACGACCTCTATT
CCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGTGCCTCAGCTTACAG
CACACTTATGGCGAATATGTAAGAATGCTCCAGTGCCTACGGCGAAGGCG
AATGTTTGCGACAGCAAAATGGCACCCTTGCCTCATATTCTTTTACGACC
ACGATTACCTCGGTACTGGAGATTACGTCAAGCAGAATTGGAAGGGTACC
AGTTCGAATGGCATTCAGCGAAGCCCCATCAGGATTCTTTGCCCGGACGA
GAATCCATGCACGAATATTACCCTAACAGCCGTTGAACTGTGGACTGATA
GTCCATCGGCCAACGTCCGGGTAGAAAATGTCTTTTGCAACCACAGTGGC
GGATGCGCGATGGGATCACTTGGAACGGACACGAATATCTCTAACATTGA
ATACGAGAACATCTACACTTACAACTCCACTCAGATGTACATGATCAAGT
CCAATGGGGGTAATGGCACAGTTACAAACTGTTCTTTCAAGAACTTCATT
GGATATAGCAACGCCTACATGCTAGATTTGGATACATACTGGGGTGATCA
GAGCGATGGTGACGGTATCAAGTACGAGAATATCGGTTTTGAATCGAACA
CACCAATGATATCGAAATTTTCAGTAATAACTCTGCTGGAGCAATTCAGG
GCTACGGTTATCTATTCCATGAGCAAGACGAATACGGGCCACGGATTCTT
CGACTTAACAACGTGACTGATTTCAGTGTGCATGACTTGATCTTGGTGGA
TTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATACAACGGCGAGGTGT
ACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGCTCGACGGAATCGAT
ATTTCCGGAGCCAATTACTGGATCCATGACGTTGAGGTCACTAACGGCGA
CGAATGTGTGACTGTGAAGCACCGATGGAGGAAATATGATATTCATTTAT
ATCCCGGAAGGGAACTATCTCCTTTCGTCGTGGGTGTCACTAGTTTATGG
TTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTACCGAGACAAGAATG
TTATGCAACGTACTTGACTACGGGGCATCCGCAAATTCGACCAATGATAT
CGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCAAACAGGCGGACTAG
ATGCTTGTTACTCCTCTGATTGCACTTCTGCCCGCCATTGCGGCGGCGCA
GGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTCTGCGAAAGCCGCAG
AGAAAGGCCTGTCACCGCGTACAGTCCGACGACGACGATGCCCGGCCTGA
TTTCGACATCCATGGATACTACGACCTCTATTCCGATTCCGACAATTCCT
ACCAGCTTTTTCCCAGGTGCCTCAGCTTACAGCACACTTATGGCGAATAT
GTAAGAATGCTCCAGTGCCTACGGCGAAGGCGAATGTTTGCGACAGCAAA
ATGGCACCCTTGCCTCATATTCTTTTACGACCACGATTACCTCGGTACTG
GAGATTACGTCAAGCAGAATTGGAAGGGTACCAGTTCGAATGGCATTCAG
CGAAGCCCCATCAGGATTCTTTGCCCGGACGAGAATCCATGCACGAATAT
TACCCTAACAGCCGTTGAACTGTGGACTGATAGTCCATCGGCCAACGTCC
GGGTAGAAAATGTCTTTTGCAACCACAGTGGCGGATGCGCGATGGGATCA
CTTGGAACGGACACGAATATCTCTAACATTGAATACGAGAACATCTACAC
TTACAACTCCACTCAGATGTACATGATCAAGTCCAATGGGGGTAATGGCA
CAGTTACAAACTGTTCTTTCAAGAACTTCATTGGATATAGCAACGCCTAC
ATGCTAGATTTGGATACATACTGGGGTGATCAGAGCGATGGTGACGGTAT
CAAGTACGAGAATATCGGTTTTGAATCGAACACACCAATGATATCGAAAT
TTTCAGTAATAACTCTGCTGGAGCAATTCAGGGCTACGGTTATCTATTCC
ATGAGCAAGACGAATACGGGCCACGGATTCTTCGACTTAACAACGTGACT
GATTTCAGTGTGCATGACTTGATCTTGGTGGATTCACCGGCCTACTTCCT
CAACTTAGTTGAGTCATACAACGGCGAGGTGTACAACATGGTCATTCGTG
GCGCCAGTATGGGAGGGCTCGACGGAATCGATATTTCCGGAGCCAATTAC
TGGATCCATGACGTTGAGGTCACTAACGGCGACGAATGTGTGACTGTGAA
GCACCGATGGAGGAAATATGATATTCATTTATATCCCGGAAGGGAACTAT
CTCCTTTCGTCGTGGGTGTCACTAGTTTATGGTTCTGGTTGGGCTTTGCA
ACTAGATGGCATTATTTACCGAGACAAGAATGTTATGCAACGTACTTGAC
TACGGGGCATCCGCAAATTCGACCAATGATATCGGACCGCCACTCAAGGA
AGCCTTCCAAGACTGCCAAACAGGCGGACTAGATGCTTGTTACTCCTCTG
ATTGCACTTCTGCCCGCCATTGCGGCGGCGCAGGTCTCAGGGACCGTGGG
GCCACGTACGAGTGCGTCTGCGAAAGCCGCAGAGAAAGGCCTGTCACCGC
GTACAGTCCGACGACGACGATGCCCGGCCTGATTTCGACATCCATGGATA
CTACGACCTCTATTCCGATTCCGACAATTCCTACCAGCTTTTTCCCAGGT
GCCTCAGCTTACAGCACACTTATGGCGAATATGTAAGAATGCTCCAGTGC
CTACGGCGAAGGCGAATGTTTGCGACAGCAAAATGGCACCCTTGCCTCAT
ATTCTTTTACGACCACGATTACCTCGGTACTGGAGATTACGTCAAGCAGA
ATTGGAAGGGTACCAGTTCGAATGGCATTCAGCGAAGCCCCATCAGGATT
CTTTGCCCGGACGAGAATCCATGCACGAATATTACCCTAACAGCCGTTGA
ACTGTGGACTGATAGTCCATCGGCCAACGTCCGGGTAGAAAATGTCTTTT
GCAACCACAGTGGCGGATGCGCGATGGGATCACTTGGAACGGACACGAAT
ATCTCTAACATTGAATACGAGAACATCTACACTTACAACTCCACTCAGAT
GTACATGATCAAGTCCAATGGGGGTAATGGCACAGTTACAAACTGTTCTT
TCAAGAACTTCATTGGATATAGCAACGCCTACATGCTAGATTTGGATACA
TACTGGGGTGATCAGAGCGATGGTGACGGTATCAAGTACGAGAATATCGG
TTTTGAATCGAACACACCAATGATATCGAAATTTTCAGTAATAACTCTGC
TGGAGCAATTCAGGGCTACGGTTATCTATTCCATGAGCAAGACGAATACG
GGCCACGGATTCTTCGACTTAACAACGTGACTGATTTCAGTGTGCATGAC
TTGATCTTGGTGGATTCACCGGCCTACTTCCTCAACTTAGTTGAGTCATA
CAACGGCGAGGTGTACAACATGGTCATTCGTGGCGCCAGTATGGGAGGGC
TCGACGGAATCGATATTTCCGGAGCCAATTACTGGATCCATGACGTTGAG
GTCACTAACGGCGACGAATGTGTGACTGTGAAGCACCGATGGAGGAAATA
TGATATTCATTTATATCCCGGAAGGGAACTATCTCCTTTCGTCGTGGGTG
TCACTAGTTTATGGTTCTGGTTGGGCTTTGCAACTAGATGGCATTATTTA
CCGAGACAAGAATGTTATGCAACGTACTTGACTACGGGGCATCCGCAAAT
TCGACCAATGATATCGGACCGCCACTCAAGGAAGCCTTCCAAGACTGCCA
AACAGGCGGACTAGATGCTTGTTACTCCTCTGATTGCACTTCTGCCCGCC
ATTGCGGCGGCGCAGGTCTCAGGGACCGTGGGGCCACGTACGAGTGCGTC
TGCGAAAGCCGCAGAGAAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004650 | polygalacturonase activity |
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 | antiSMASH:Cluster_10000021.12 |
| Note | antiSMASH:Cluster_10000021.13 |
| Note | SECRETED:SignalP(1-20) |
| Note | CAZy:GH28 |
| DBxref | InterPro:IPR011050 |
| DBxref | InterPro:IPR012334 |
| DBxref | InterPro:IPR000743 |
| DBxref | PFAM:PF12708 |
| DBxref | PFAM:PF00295 |
| Product | Glycosyl hydrolases family 28 family 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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:1615519..1617394 - |
|
