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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:1695843..1700216- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_14825-T1 ID=CAN33_14825-T1|Name=CAN33_14825-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4374bp|location=Sequence derived from alignment at NKJJ01000010.1:1695843..1700216- (Aspergillus niger FDAARGOS_311)
ATGTCCGTCGAGGGTCGAGTATCGAGGGGAGAGACCGGGTGTGCAGATGC
ATGGCGGGTAGTTGATTTTGAGAGACCCAAACTACCAGAGAACCTACAGC
CTCTCATCACGGACAAGTTCGGCTTATCCGACCTGCTCACCGAACTGGAA
AGGTACAACGGGGTTTTAAGAAACAGTTGTAGTATCGCTTGCAATCGAGG
CGCGACTCTCCGTACTCCGCGATTATGTGCGCAACTAGAAAGCATATTCT
CGACCCCAGAACCACAGACCTCTGCGTCGTCACGTCCCCTAACTTGGGCA
CGGCTCATTCGCCATGTGGAAAGTCCTGGAGCGAACCTGCCTGACACCGT
TCTGACAATTAAAGATATCGTGGCTCAGCTTCCAGAAGACGATCGCAAGC
CTTCGGTCACTGGGAGGCCATGGCAATTCTTCAAACCGAGGCCAGATGAG
AATGATCTTGGCGCAGAACTCAAATTAATCGAAAGCACCGTGGCAGAGCT
CAGCAATGTCAGCGAACGGGTAAACCAAGGTATACTCACAAACCAATTGC
CTCTGCCTCTGCTAATTCAGCATTTCCGTTAGCTGCTCGTGGAATAGACA
CCTTGAAAGAAGAGTTATTGCGTCGCCATAATCGGCTTGTCCTACTTCAA
AGCCAGCAATATAGCCCTAGCGGCCCGGTGAATCCGTACTCGACCAATCC
GACAATAGGAACAGCAATCCAGTCAACAGGTTGGCAAGATGGGACCAAAC
AGTCAAAGAATATGGAGCCTCCCAATAACTCATCGAGTCAGCATGCTCAG
TCCCTTTCTGAAACTTACGGATCCCCTCCAAACGCGGCGAGGCGGTTGAA
GGTCATAGATCTCATAGATATCTCCAACCAGCACGCTCAGTCTGCACCTT
ACGCCACTGCATCACCAAACGCGGTGGTACAGTCCAAAGACTTGAAGCCT
GTGGAGAACCCGTCTCAGCAGCACAGTCAGTGTCCAACAGGCCCGTCCAC
ACCATCTGTCAGCCATGCGCCATCTTCCGCTTGTACGTCGAATACTGATG
CCATGTATTCGCTCACTGCGACGGAAGAGCAAGCATCCCCGAACTCGACA
GCGTCGTACTATGTAGCCGAAGAAACAAGCGAACTCAGGCAGCCGCACCT
TGAGCTTCAGGTGCAGGCGTCACCACAATGTGAGGGCACTGGGGCTTGCG
ATCAGCCTACCTCTTTCCTACATACTCTACGACGATAAGGAATCATTGGC
ACGATGCTCTTGCTTTAGAAACGCGACTCATGCTCATCTTCAGCAGTATA
ATAAACGATCCCAAGAATGCACTTCTCATCAGATGGTCCGACAAAGGGGA
TTCTTTCATCATTCCAGACAGGAACGAATTTGCTCGGAAGTTGCTCCCTA
CCCTATGCGGTCATGGCGATTTCAGAGCATTTTGCAGGCTTCTATGGTAT
TACAACTTCCATCTCAAGAAGCAAATCGTAAATGAATCCTCTCTGTGGAG
ATCATGGCAAAGCACTCCTTTCAGAGAATACAGCAATCCAAATTTTCGGC
GAGACGATGAAACCGGGCTTTCGCGTATCGAATGTCGAAGGAGGAAGACC
AGAAAGTCCCCAGACCCTGAATCTCGGTCTTCCGTGTCCGATCTGTTTCC
CCGTGCACGCGGAGACTTCACTATGGATGAAGATCATGTCGCAAGCGACA
TGTGGCGAGGCGAAAAGACATGTGAGAGTGTCCGAGGGTCACACACTAGA
TATCGAAAGCGGAGACGGGTAGCTTAGGGCAACAGACGGTGTGAGAACTA
CATTATACCGTATCATTCTATAGATTATGAAAGTTCACACATGGTAGTAC
AGGCTACTCCACACAGAATGTATAATTTAATGAGCTCCCAAATAGTAAAG
CATACTTTGTGATTGTGACACCTATAACACAACATAGCCGCATCGTTATT
TGCCATATTCTATGAAGTCAACATATGCAAAGCATTGCCAAGGTTGCTTT
CTTGAGACAATTCCTTTAGGTTCTCGACAAAAAGCGGAAACTGCTAGTGT
CAAGAGGACAAATCGGTACAGTATAGCCATTCTGTAAAGCAACTTATTAT
TGGTTATTTCCCTAGAATACTTAGCATGAGGGACAAAATCTAGGTTAAAC
GGCTACTGTATTCGTCGTCCTCTTCTTGACCAAGTTCTACAAAACAAACA
GATTCACAATGTACCTATCCCTTAAAGCTCCAAATTACTTAGTGTTGGTT
TAGCTACAATCCAATATTTTCATATGGAGGCTACGGTTCACATACTGAGC
CTGAATGAAGTCCCTATCAGGCATAGTCAAAGTAGTAACGGTATTGATAC
TGAAAAACCTGGAGTCAGTAGTAACGCTTATAGTAGGTCTATACATAGTT
GATGCCACATGTATTATTCATAGAACAGTTTGAGTCCTGGATGACAGCAT
CATTCTCGACGCTGAAAAATAGTTTGTCCTGATGAGTTTTAGAGCCCCTT
TCACAGGGCAGCAGTTATCATTATTTGAGGGGGTTCAGAGTATGCTGGCT
TGTCCGAGTAGCATTACTGCTCAGGTATGTGTACTACTTCTACCCGTCTG
CTCCTCACCACCTCTATCATGTACTATTCAAATCCGATTACTTTACTCTT
GTTCGAATTCCCGAGACAGAATTGGTGGAAGCGAGTCAGCAGACATAATT
TCTCCCTATTCTGACATGCATCGCGATTATCATGCATCATCGTATAGCTC
TAATCATTGTACTTCTGGCAGCCGGCTGGACTACCGCGCATAGACACTTC
GATTGTCATAGGCATCATCGGGCTCGAGTGACAGGTCGCGAGTCAAGTAA
AGGCTATAAATCAGTTGCCTATTACGCGAACTGGGTGAGCGGCTATGGTT
TTGACTCTCTGACATGCGCAGCTAATTTATGATAGGATATTTACGCGCGA
AATTATTTTCCATGGCAGCTGCCTGCAGAAAATTTGACCCACGTCTTATA
TGCATTTGCGAATGTTAAACCAAATGGTACTGTTTTCGCCTCGGACACCT
GGGCTGATCTAGAGAAGCGATGGCCAGCAGAGGGTGACCCCACGAGTACC
AAGGGAAAGGGAAATGTATATGGTATCGTACACCAGCTTTTCGAAATGAA
AAGACGACACCGGAATCTCAAGGTCTCTTTGTCTATTGGAGGGTATACAT
ACTCACAAGCAGGCTGCTTTAATACCATGGCCGCCAGTGAGCTCGGGAGA
CATAACTTTGCAACCTCAGCTGTCCAGCTAATGGCTGACTGGGGGTTTGA
TGGGCTAGATATAGATTGGGAGGCACGTCACCATGCTTAATCCATCGAAG
CAAGCTTACGAGTGCATCTTTAGTATCCGGAAAACGAAACCGAGGCGAAT
AACATGGTAATGCTTCTAAAACAAGTCCGAGAGGTGAACTGCGAAGCGCT
GATAAAGTCGGACGAAATTTTCTGATATTATGCATTTATGCAGGAACTTG
ACTACTACAGTGACACAAATTCTTTGAGAAAGCATTTCCTCCTTACAGTT
GCTGCACCTGCGGGTCTGCAAATATCTCTTGCTCTCCGTTTCCTAGAGAT
GTCTTTTCTGACAATGGTACTACAGGTTCGGCCAACTACAACATCTTGAA
AAAGCAGGAGATGGATCGCTACGTCGATTTCTGGAACTTAATGAGCTATG
ACTATGCTGGCAGCTGGGATTCAATTAGTGGCCACATGGCCAATCTCTTT
GAGTCTACTGATCGACCCGCGTCTACTCCTTCTAACACCGATCAGGCAAT
TGATAGTTACCTCAATGCTAACATATCTTCTAGAAAGATTGTCCTCGGGC
TGCCGCTATATGGCCGTGGGTTTTCGAATACGAACGGCCCTGGCCAAGCT
TTCACTGGTATTCCTGAGGGCGACTGGGAGGAGGGTGTTTATGACTATAA
GTCACTCCCGCTCAGTGGAGATAATGTGACCGTATTAGAGGATATTGGGG
CAAGCTATAGTTATAGTTCGCAGAATCGGCTGATGGTTAGTTATGATACT
CCGGAAATAATAAGACGCAAGGCGAAATATATCATTGAAAAGGGCCTTGG
GGGCGGGATGTGGTGGGAGGTCTCGGGGGATGAAGAGGGGGAGGACAGTT
TGATATCGATAGTGAGTATCTCTCAACCACCAGAAAGGCAGTTCTCACAT
GAACTATAGCTCGTCGAATCCCTGGGTGGATCAAGAGCATTGGAAAAATC
TGAGAATATGTTGATATATCCTGTATCGTCCTACAAAAACATTAGGGATG
GTTGGTTAAGGCAGAAAACATGAGTCCTTACCGATACACTACTGACATAA
CTCACAGTTGAACCGGAGAGGTAA back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:1695843..1700216- >CAN33_14825-T1 ID=CAN33_14825-T1|Name=CAN33_14825-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8850bp|location=Sequence derived from alignment at NKJJ01000010.1:1695843..1700216- (Aspergillus niger FDAARGOS_311)
TTGAACCGGAGAGGTAACTCGTCGAATCCCTGGGTGGATCAAGAGCATTG
GAAAAATCTGAGAATATGTTGATATATCCTGTATCGTCCTACAAAAACAT
TAGGGATGGTTCGGCCAACTACAACATCTTGAAAAAGCAGGAGATGGATC
GCTACGTCGATTTCTGGAACTTAATGAGCTATGACTATGCTGGCAGCTGG
GATTCAATTAGTGGCCACATGGCCAATCTCTTTGAGTCTACTGATCGACC
CGCGTCTACTCCTTCTAACACCGATCAGGCAATTGATAGTTACCTCAATG
CTAACATATCTTCTAGAAAGATTGTCCTCGGGCTGCCGCTATATGGCCGT
GGGTTTTCGAATACGAACGGCCCTGGCCAAGCTTTCACTGGTATTCCTGA
GGGCGACTGGGAGGAGGGTGTTTATGACTATAAGTCACTCCCGCTCAGTG
GAGATAATGTGACCGTATTAGAGGATATTGGGGCAAGCTATAGTTATAGT
TCGCAGAATCGGCTGATGGTTAGTTATGATACTCCGGAAATAATAAGACG
CAAGGCGAAATATATCATTGAAAAGGGCCTTGGGGGCGGGATGTGGTGGG
AGGTCTCGGGGGATGAAGAGGGGGAGGACAGTTTGATATCGATACTGCTC
GTGGAATAGACACCTTGAAAGAAGAGTTATTGCGTCGCCATAATCGGCTT
GTCCTACTTCAAAGCCAGCAATATAGCCCTAGCGGCCCGGTGAATCCGTA
CTCGACCAATCCGACAATAGGAACAGCAATCCAGTCAACAGGTTGGCAAG
ATGGGACCAAACAGTCAAAGAATATGGAGCCTCCCAATAACTCATCGAGT
CAGCATGCTCAGTCCCTTTCTGAAACTTACGGATCCCCTCCAAACGCGGC
GAGGCGGTTGAAGGTCATAGATCTCATAGATATCTCCAACCAGCACGCTC
AGTCTGCACCTTACGCCACTGCATCACCAAACGCGGTGGTACAGTCCAAA
GACTTGAAGCCTGTGGAGAACCCGTCTCAGCAGCACAGTCAGTGTCCAAC
AGGCCCGTCCACACCATCTGTCAGCCATGCGCCATCTTCCGCTTGTACGT
CGAATACTGATGCCATGTATTCGCTCACTGCGACGGAAGAGCAAGCATCC
CCGAACTCGACAGCGTCGTACTATGTAGCCGAAGAAACAAGCGAACTCAG
GCAGCCGCACCTTGAGCTTCAGGTGCAGGCGTCACCACAATATGTCCGTC
GAGGGTCGAGTATCGAGGGGAGAGACCGGGTGTGCAGATGCATGGCGGGT
AGTTGATTTTGAGAGACCCAAACTACCAGAGAACCTACAGCCTCTCATCA
CGGACAAGTTCGGCTTATCCGACCTGCTCACCGAACTGGAAAGGTACAAC
GGGGTTTTAAGAAACAGTTGTAGTATCGCTTGCAATCGAGGCGCGACTCT
CCGTACTCCGCGATTATGTGCGCAACTAGAAAGCATATTCTCGACCCCAG
AACCACAGACCTCTGCGTCGTCACGTCCCCTAACTTGGGCACGGCTCATT
CGCCATGTGGAAAGTCCTGGAGCGAACCTGCCTGACACCGTTCTGACAAT
TAAAGATATCGTGGCTCAGCTTCCAGAAGACGATCGCAAGCCTTCGGTCA
CTGGGAGGCCATGGCAATTCTTCAAACCGAGGCCAGATGAGAATGATCTT
GGCGCAGAACTCAAATTAATCGAAAGCACCGTGGCAGAGCTCAGCAATGT
CAGCGAACGGGTAAACCAAGTTGAACCGGAGAGGTAACTCGTCGAATCCC
TGGGTGGATCAAGAGCATTGGAAAAATCTGAGAATATGTTGATATATCCT
GTATCGTCCTACAAAAACATTAGGGATGGTTCGGCCAACTACAACATCTT
GAAAAAGCAGGAGATGGATCGCTACGTCGATTTCTGGAACTTAATGAGCT
ATGACTATGCTGGCAGCTGGGATTCAATTAGTGGCCACATGGCCAATCTC
TTTGAGTCTACTGATCGACCCGCGTCTACTCCTTCTAACACCGATCAGGC
AATTGATAGTTACCTCAATGCTAACATATCTTCTAGAAAGATTGTCCTCG
GGCTGCCGCTATATGGCCGTGGGTTTTCGAATACGAACGGCCCTGGCCAA
GCTTTCACTGGTATTCCTGAGGGCGACTGGGAGGAGGGTGTTTATGACTA
TAAGTCACTCCCGCTCAGTGGAGATAATGTGACCGTATTAGAGGATATTG
GGGCAAGCTATAGTTATAGTTCGCAGAATCGGCTGATGGTTAGTTATGAT
ACTCCGGAAATAATAAGACGCAAGGCGAAATATATCATTGAAAAGGGCCT
TGGGGGCGGGATGTGGTGGGAGGTCTCGGGGGATGAAGAGGGGGAGGACA
GTTTGATATCGATACTGCTCGTGGAATAGACACCTTGAAAGAAGAGTTAT
TGCGTCGCCATAATCGGCTTGTCCTACTTCAAAGCCAGCAATATAGCCCT
AGCGGCCCGGTGAATCCGTACTCGACCAATCCGACAATAGGAACAGCAAT
CCAGTCAACAGGTTGGCAAGATGGGACCAAACAGTCAAAGAATATGGAGC
CTCCCAATAACTCATCGAGTCAGCATGCTCAGTCCCTTTCTGAAACTTAC
GGATCCCCTCCAAACGCGGCGAGGCGGTTGAAGGTCATAGATCTCATAGA
TATCTCCAACCAGCACGCTCAGTCTGCACCTTACGCCACTGCATCACCAA
ACGCGGTGGTACAGTCCAAAGACTTGAAGCCTGTGGAGAACCCGTCTCAG
CAGCACAGTCAGTGTCCAACAGGCCCGTCCACACCATCTGTCAGCCATGC
GCCATCTTCCGCTTGTACGTCGAATACTGATGCCATGTATTCGCTCACTG
CGACGGAAGAGCAAGCATCCCCGAACTCGACAGCGTCGTACTATGTAGCC
GAAGAAACAAGCGAACTCAGGCAGCCGCACCTTGAGCTTCAGGTGCAGGC
GTCACCACAATATGTCCGTCGAGGGTCGAGTATCGAGGGGAGAGACCGGG
TGTGCAGATGCATGGCGGGTAGTTGATTTTGAGAGACCCAAACTACCAGA
GAACCTACAGCCTCTCATCACGGACAAGTTCGGCTTATCCGACCTGCTCA
CCGAACTGGAAAGGTACAACGGGGTTTTAAGAAACAGTTGTAGTATCGCT
TGCAATCGAGGCGCGACTCTCCGTACTCCGCGATTATGTGCGCAACTAGA
AAGCATATTCTCGACCCCAGAACCACAGACCTCTGCGTCGTCACGTCCCC
TAACTTGGGCACGGCTCATTCGCCATGTGGAAAGTCCTGGAGCGAACCTG
CCTGACACCGTTCTGACAATTAAAGATATCGTGGCTCAGCTTCCAGAAGA
CGATCGCAAGCCTTCGGTCACTGGGAGGCCATGGCAATTCTTCAAACCGA
GGCCAGATGAGAATGATCTTGGCGCAGAACTCAAATTAATCGAAAGCACC
GTGGCAGAGCTCAGCAATGTCAGCGAACGGGTAAACCAAGTTGAACCGGA
GAGGTAACTCGTCGAATCCCTGGGTGGATCAAGAGCATTGGAAAAATCTG
AGAATATGTTGATATATCCTGTATCGTCCTACAAAAACATTAGGGATGGT
TCGGCCAACTACAACATCTTGAAAAAGCAGGAGATGGATCGCTACGTCGA
TTTCTGGAACTTAATGAGCTATGACTATGCTGGCAGCTGGGATTCAATTA
GTGGCCACATGGCCAATCTCTTTGAGTCTACTGATCGACCCGCGTCTACT
CCTTCTAACACCGATCAGGCAATTGATAGTTACCTCAATGCTAACATATC
TTCTAGAAAGATTGTCCTCGGGCTGCCGCTATATGGCCGTGGGTTTTCGA
ATACGAACGGCCCTGGCCAAGCTTTCACTGGTATTCCTGAGGGCGACTGG
GAGGAGGGTGTTTATGACTATAAGTCACTCCCGCTCAGTGGAGATAATGT
GACCGTATTAGAGGATATTGGGGCAAGCTATAGTTATAGTTCGCAGAATC
GGCTGATGGTTAGTTATGATACTCCGGAAATAATAAGACGCAAGGCGAAA
TATATCATTGAAAAGGGCCTTGGGGGCGGGATGTGGTGGGAGGTCTCGGG
GGATGAAGAGGGGGAGGACAGTTTGATATCGATACTGCTCGTGGAATAGA
CACCTTGAAAGAAGAGTTATTGCGTCGCCATAATCGGCTTGTCCTACTTC
AAAGCCAGCAATATAGCCCTAGCGGCCCGGTGAATCCGTACTCGACCAAT
CCGACAATAGGAACAGCAATCCAGTCAACAGGTTGGCAAGATGGGACCAA
ACAGTCAAAGAATATGGAGCCTCCCAATAACTCATCGAGTCAGCATGCTC
AGTCCCTTTCTGAAACTTACGGATCCCCTCCAAACGCGGCGAGGCGGTTG
AAGGTCATAGATCTCATAGATATCTCCAACCAGCACGCTCAGTCTGCACC
TTACGCCACTGCATCACCAAACGCGGTGGTACAGTCCAAAGACTTGAAGC
CTGTGGAGAACCCGTCTCAGCAGCACAGTCAGTGTCCAACAGGCCCGTCC
ACACCATCTGTCAGCCATGCGCCATCTTCCGCTTGTACGTCGAATACTGA
TGCCATGTATTCGCTCACTGCGACGGAAGAGCAAGCATCCCCGAACTCGA
CAGCGTCGTACTATGTAGCCGAAGAAACAAGCGAACTCAGGCAGCCGCAC
CTTGAGCTTCAGGTGCAGGCGTCACCACAATATGTCCGTCGAGGGTCGAG
TATCGAGGGGAGAGACCGGGTGTGCAGATGCATGGCGGGTAGTTGATTTT
GAGAGACCCAAACTACCAGAGAACCTACAGCCTCTCATCACGGACAAGTT
CGGCTTATCCGACCTGCTCACCGAACTGGAAAGGTACAACGGGGTTTTAA
GAAACAGTTGTAGTATCGCTTGCAATCGAGGCGCGACTCTCCGTACTCCG
CGATTATGTGCGCAACTAGAAAGCATATTCTCGACCCCAGAACCACAGAC
CTCTGCGTCGTCACGTCCCCTAACTTGGGCACGGCTCATTCGCCATGTGG
AAAGTCCTGGAGCGAACCTGCCTGACACCGTTCTGACAATTAAAGATATC
GTGGCTCAGCTTCCAGAAGACGATCGCAAGCCTTCGGTCACTGGGAGGCC
ATGGCAATTCTTCAAACCGAGGCCAGATGAGAATGATCTTGGCGCAGAAC
TCAAATTAATCGAAAGCACCGTGGCAGAGCTCAGCAATGTCAGCGAACGG
GTAAACCAAGTTGAACCGGAGAGGTAACTCGTCGAATCCCTGGGTGGATC
AAGAGCATTGGAAAAATCTGAGAATATGTTGATATATCCTGTATCGTCCT
ACAAAAACATTAGGGATGGTTCGGCCAACTACAACATCTTGAAAAAGCAG
GAGATGGATCGCTACGTCGATTTCTGGAACTTAATGAGCTATGACTATGC
TGGCAGCTGGGATTCAATTAGTGGCCACATGGCCAATCTCTTTGAGTCTA
CTGATCGACCCGCGTCTACTCCTTCTAACACCGATCAGGCAATTGATAGT
TACCTCAATGCTAACATATCTTCTAGAAAGATTGTCCTCGGGCTGCCGCT
ATATGGCCGTGGGTTTTCGAATACGAACGGCCCTGGCCAAGCTTTCACTG
GTATTCCTGAGGGCGACTGGGAGGAGGGTGTTTATGACTATAAGTCACTC
CCGCTCAGTGGAGATAATGTGACCGTATTAGAGGATATTGGGGCAAGCTA
TAGTTATAGTTCGCAGAATCGGCTGATGGTTAGTTATGATACTCCGGAAA
TAATAAGACGCAAGGCGAAATATATCATTGAAAAGGGCCTTGGGGGCGGG
ATGTGGTGGGAGGTCTCGGGGGATGAAGAGGGGGAGGACAGTTTGATATC
GATACTGCTCGTGGAATAGACACCTTGAAAGAAGAGTTATTGCGTCGCCA
TAATCGGCTTGTCCTACTTCAAAGCCAGCAATATAGCCCTAGCGGCCCGG
TGAATCCGTACTCGACCAATCCGACAATAGGAACAGCAATCCAGTCAACA
GGTTGGCAAGATGGGACCAAACAGTCAAAGAATATGGAGCCTCCCAATAA
CTCATCGAGTCAGCATGCTCAGTCCCTTTCTGAAACTTACGGATCCCCTC
CAAACGCGGCGAGGCGGTTGAAGGTCATAGATCTCATAGATATCTCCAAC
CAGCACGCTCAGTCTGCACCTTACGCCACTGCATCACCAAACGCGGTGGT
ACAGTCCAAAGACTTGAAGCCTGTGGAGAACCCGTCTCAGCAGCACAGTC
AGTGTCCAACAGGCCCGTCCACACCATCTGTCAGCCATGCGCCATCTTCC
GCTTGTACGTCGAATACTGATGCCATGTATTCGCTCACTGCGACGGAAGA
GCAAGCATCCCCGAACTCGACAGCGTCGTACTATGTAGCCGAAGAAACAA
GCGAACTCAGGCAGCCGCACCTTGAGCTTCAGGTGCAGGCGTCACCACAA
TATGTCCGTCGAGGGTCGAGTATCGAGGGGAGAGACCGGGTGTGCAGATG
CATGGCGGGTAGTTGATTTTGAGAGACCCAAACTACCAGAGAACCTACAG
CCTCTCATCACGGACAAGTTCGGCTTATCCGACCTGCTCACCGAACTGGA
AAGGTACAACGGGGTTTTAAGAAACAGTTGTAGTATCGCTTGCAATCGAG
GCGCGACTCTCCGTACTCCGCGATTATGTGCGCAACTAGAAAGCATATTC
TCGACCCCAGAACCACAGACCTCTGCGTCGTCACGTCCCCTAACTTGGGC
ACGGCTCATTCGCCATGTGGAAAGTCCTGGAGCGAACCTGCCTGACACCG
TTCTGACAATTAAAGATATCGTGGCTCAGCTTCCAGAAGACGATCGCAAG
CCTTCGGTCACTGGGAGGCCATGGCAATTCTTCAAACCGAGGCCAGATGA
GAATGATCTTGGCGCAGAACTCAAATTAATCGAAAGCACCGTGGCAGAGC
TCAGCAATGTCAGCGAACGGGTAAACCAAGTTGAACCGGAGAGGTAACTC
GTCGAATCCCTGGGTGGATCAAGAGCATTGGAAAAATCTGAGAATATGTT
GATATATCCTGTATCGTCCTACAAAAACATTAGGGATGGTTCGGCCAACT
ACAACATCTTGAAAAAGCAGGAGATGGATCGCTACGTCGATTTCTGGAAC
TTAATGAGCTATGACTATGCTGGCAGCTGGGATTCAATTAGTGGCCACAT
GGCCAATCTCTTTGAGTCTACTGATCGACCCGCGTCTACTCCTTCTAACA
CCGATCAGGCAATTGATAGTTACCTCAATGCTAACATATCTTCTAGAAAG
ATTGTCCTCGGGCTGCCGCTATATGGCCGTGGGTTTTCGAATACGAACGG
CCCTGGCCAAGCTTTCACTGGTATTCCTGAGGGCGACTGGGAGGAGGGTG
TTTATGACTATAAGTCACTCCCGCTCAGTGGAGATAATGTGACCGTATTA
GAGGATATTGGGGCAAGCTATAGTTATAGTTCGCAGAATCGGCTGATGGT
TAGTTATGATACTCCGGAAATAATAAGACGCAAGGCGAAATATATCATTG
AAAAGGGCCTTGGGGGCGGGATGTGGTGGGAGGTCTCGGGGGATGAAGAG
GGGGAGGACAGTTTGATATCGATACTGCTCGTGGAATAGACACCTTGAAA
GAAGAGTTATTGCGTCGCCATAATCGGCTTGTCCTACTTCAAAGCCAGCA
ATATAGCCCTAGCGGCCCGGTGAATCCGTACTCGACCAATCCGACAATAG
GAACAGCAATCCAGTCAACAGGTTGGCAAGATGGGACCAAACAGTCAAAG
AATATGGAGCCTCCCAATAACTCATCGAGTCAGCATGCTCAGTCCCTTTC
TGAAACTTACGGATCCCCTCCAAACGCGGCGAGGCGGTTGAAGGTCATAG
ATCTCATAGATATCTCCAACCAGCACGCTCAGTCTGCACCTTACGCCACT
GCATCACCAAACGCGGTGGTACAGTCCAAAGACTTGAAGCCTGTGGAGAA
CCCGTCTCAGCAGCACAGTCAGTGTCCAACAGGCCCGTCCACACCATCTG
TCAGCCATGCGCCATCTTCCGCTTGTACGTCGAATACTGATGCCATGTAT
TCGCTCACTGCGACGGAAGAGCAAGCATCCCCGAACTCGACAGCGTCGTA
CTATGTAGCCGAAGAAACAAGCGAACTCAGGCAGCCGCACCTTGAGCTTC
AGGTGCAGGCGTCACCACAATATGTCCGTCGAGGGTCGAGTATCGAGGGG
AGAGACCGGGTGTGCAGATGCATGGCGGGTAGTTGATTTTGAGAGACCCA
AACTACCAGAGAACCTACAGCCTCTCATCACGGACAAGTTCGGCTTATCC
GACCTGCTCACCGAACTGGAAAGGTACAACGGGGTTTTAAGAAACAGTTG
TAGTATCGCTTGCAATCGAGGCGCGACTCTCCGTACTCCGCGATTATGTG
CGCAACTAGAAAGCATATTCTCGACCCCAGAACCACAGACCTCTGCGTCG
TCACGTCCCCTAACTTGGGCACGGCTCATTCGCCATGTGGAAAGTCCTGG
AGCGAACCTGCCTGACACCGTTCTGACAATTAAAGATATCGTGGCTCAGC
TTCCAGAAGACGATCGCAAGCCTTCGGTCACTGGGAGGCCATGGCAATTC
TTCAAACCGAGGCCAGATGAGAATGATCTTGGCGCAGAACTCAAATTAAT
CGAAAGCACCGTGGCAGAGCTCAGCAATGTCAGCGAACGGGTAAACCAAG 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:0008061 | chitin binding |
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 | CAZy:GH18 |
| DBxref | InterPro:IPR017853 |
| DBxref | InterPro:IPR001223 |
| DBxref | InterPro:IPR029070 |
| DBxref | InterPro:IPR011583 |
| DBxref | PFAM:PF00704 |
| Product | Glycosyl hydrolases family 18 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 |
|---|
| NKJJ01000010.1 | supercontig | NKJJ01000010.1:1695843..1700216 - |
|
