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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000003.1:1195723..1197959+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_31645-T1 ID=CAN33_31645-T1|Name=CAN33_31645-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2237bp|location=Sequence derived from alignment at NKJJ01000003.1:1195723..1197959+ (Aspergillus niger FDAARGOS_311)
ATGCTCTCAACTATAACATCTTTCCTCATCCTTCTGTTCTTTGTTACCAC
AGTCTCCGCCTATCCCTTCGAGGAGAACTCCTTTCCTCGTCTCCAGGATA
CTTTAGCCACTGGCACCAAACCCGGTGACCCCCCAAATTCGGTGGTGGGT
ATGACTACGTCGTAGTGGGCGGTGGCACAACCGGGCTCCTAGTAGCCAGT
CGGCTAGCAAAGGCAGGAAACTCAGTCGCCGTTATCGAAAACGGCACATA
CCCTACTGGGAATTTGACTACAGTGCCAGGGTACAATGAGCAGTGGTTTA
GCAGGGTGTTGCCGTCGAATTGGACGGATATGGTGAATGTGTGGCCTACT
GTGCAGCAGGTGGTATGTTGCCCAGCTCTACTCGGGGTGAATACTTACGG
GCGCTAATCCTGGCTTTATTGCAGGGAGGGGGAGAGCAGCAGCATATGAT
GGGGAGAATGGTAGGTAGCTTATTCCTCTACTTTATCCTGTAGCCTTTGT
TATGGTTATGTCTGATAGAATTGCAGATCGGAGGGAGCCAGGGCTTTACC
TTTGTCGATTACTTCCGCACTACTAAGGGGGCTATGAAAAGATGGGCTGA
CGAAACTGGCGATGATTCCTGGACTTGGGAGAATGTCCAGCAATACTATA
AAAAGTCATTCAAATTCACACCATTGAACAATACCGCAAGACCATCGAAT
GCCACACCGGACTATGAGTCAAGTCAAATCGTTGGTTCTACGCCTGGGCC
ACTAGAACTCACCTTCCCCAAATATGCCCAGGCATTTGGTAGCTGGGTTA
AACTTGGTCTCAACGAATTAAAAGCTGGTATCAATCGAGTCTTTGTCGAG
GGCGATATCAAAGGTGCCAGTTGGATCTTAAATATGATCGATTCGCAAAC
GGGCAATCGCGCCACAACATATACAGCTTTCTTGGAACCAACACAGAAAG
ATGACACGTCGAAGATTGACGTGTATGTGGAGACGCTGGCCGAGAGAACT
TTGTCAAACACTCCCCCTGGCAGCGACCCCGTAACCATCGGAGTCTTAGT
GAAACGGTGGGGCATGAGATTTCCGATATTCGCAGGGAAAGAAGTAATCC
TAGCTGGAGGACCCATACTTACTCCTCAATTTCTCATGGTGTCTGGTATC
GGTCCTCAGGATCACCTGCAGGAGATGAACATTACAGTCCTAGCTAATAG
ACCGGGAGTCGGCCAGAACTACAACGATCATATTCTCTTCGGCGTCAAGC
ACGCAGTACAAGTGGAGACAACATCGGTGCTCCTCAACGATACCAGGAAG
TGGCAAGAGTGCGAAAGATTCAAAGCTCACGCAGATGGCATGCTGGCCGA
TCCGGGCCCGGATTTCGCCGCCTTTGTCGATTACCCGGAAGATATTCGCC
AAAACCTGTCTGCCCAGACTAAATCAGGTAATTTGTGGCCTTGTGTCTCT
CGTGGTTCCGTTGTGCCTAATAATATGATTCTAGATCTCTCCCAATTCCC
CTCTGACTGGCCAGATATCGGTATCGTATCTTCTCCACTCGGCGTCAATG
GCGACGGCAATCACAACTATGCAGACCTCGTCTGCATCCCTATGAAGCCC
ATATCCAAGGGAACTATTAAACTCAGATCTAAGTCCATGGATGATAAGCC
TGTGCTGGATCCGCAATGGCTTAAATCTCCGACAGACATGGATACTGCCG
TCGCCGGTCTGCAGTACCTTCTGCGCCTCTATGGAACGAACAGCATGAAG
CCCATCTTAAATGCCTCGGGTAAACCTATCGATCTAGAAAGTTCTAACAA
GGACGACCTCATTAAGTATGTGAAAAACAACTATCGAACGTTGAATCACC
AATCTGCATCGTGCCGAATGGGAAAGCGAGACGATCCTATGGCCGTGGTG
GATAGTAAGGGCAAGGTAATCGGAGTTGATAGATGTGAGTCCTACCTACT
TCGACTCTGGACTTGACGTTTGGTTGCTCCTCCGTGTTGTACGTACGGAA
CTGATTGAGAAACAGTGAGAATTGCTGACCCGTCCGCCTGGCCTTTCTTG
CCAGCGGGATTTCCGTTAGGCACTGCCTGTGAGTAATACCCTACCATTCC
CACAGTCAGTTTTGGAATGATCGGTCTAACCTACTCAAACTGTAGATATG
TTTGCGGAGAAGATAGCCGATAACATCCTCAGTGATCATGGAAGTGACAA
GGATGAGGATGAGGATGAGCTGCGAGTGGAACTCTAG back to topCoding sequence (CDS) from alignment at NKJJ01000003.1:1195723..1197959+ >CAN33_31645-T1 ID=CAN33_31645-T1|Name=CAN33_31645-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12852bp|location=Sequence derived from alignment at NKJJ01000003.1:1195723..1197959+ (Aspergillus niger FDAARGOS_311)
ATGCTCTCAACTATAACATCTTTCCTCATCCTTCTGTTCTTTGTTACCAC
AGTCTCCGCCTATCCCTTCGAGGAGAACTCCTTTCCTCGTCTCCAGGATA
CTTTAGCCACTGGCACCAAACCCGGTGACCCCCCAAATTCGGTGGTGGGA
AACTCAGTCGCCGTTATCGAAAACGGCACATACCCTACTGGGAATTTGAC
TACAGTGCCAGGGTACAATGAGCAGTGGTTTAGCAGGGTGTTGCCGTCGA
ATTGGACGGATATGGTGAATGTGTGGCCTACTGTGCAGCAGGTGGGAGGG
GGAGAGCAGCAGCATATGATGGGGAGAATGATCGGAGGGAGCCAGGGCTT
TACCTTTGTCGATTACTTCCGCACTACTAAGGGGGCTATGAAAAGATGGG
CTGACGAAACTGGCGATGATTCCTGGACTTGGGAGAATGTCCAGCAATAC
TATAAAAAGTCATTCAAATTCACACCATTGAACAATACCGCAAGACCATC
GAATGCCACACCGGACTATGAGTCAAGTCAAATCGTTGGTTCTACGCCTG
GGCCACTAGAACTCACCTTCCCCAAATATGCCCAGGCATTTGGTAGCTGG
GTTAAACTTGGTCTCAACGAATTAAAAGCTGGTATCAATCGAGTCTTTGT
CGAGGGCGATATCAAAGGTGCCAGTTGGATCTTAAATATGATCGATTCGC
AAACGGGCAATCGCGCCACAACATATACAGCTTTCTTGGAACCAACACAG
AAAGATGACACGTCGAAGATTGACGTGTATGTGGAGACGCTGGCCGAGAG
AACTTTGTCAAACACTCCCCCTGGCAGCGACCCCGTAACCATCGGAGTCT
TAGTGAAACGGTGGGGCATGAGATTTCCGATATTCGCAGGGAAAGAAGTA
ATCCTAGCTGGAGGACCCATACTTACTCCTCAATTTCTCATGGTGTCTGG
TATCGGTCCTCAGGATCACCTGCAGGAGATGAACATTACAGTCCTAGCTA
ATAGACCGGGAGTCGGCCAGAACTACAACGATCATATTCTCTTCGGCGTC
AAGCACGCAGTACAAGTGGAGACAACATCGGTGCTCCTCAACGATACCAG
GAAGTGGCAAGAGTGCGAAAGATTCAAAGCTCACGCAGATGGCATGCTGG
CCGATCCGGGCCCGGATTTCGCCGCCTTTGTCGATTACCCGGAAGATATT
CGCCAAAACCTGTCTGCCCAGACTAAATCAGATCTCTCCCAATTCCCCTC
TGACTGGCCAGATATCGGTATCGTATCTTCTCCACTCGGCGTCAATGGCG
ACGGCAATCACAACTATGCAGACCTCGTCTGCATCCCTATGAAGCCCATA
TCCAAGGGAACTATTAAACTCAGATCTAAGTCCATGGATGATAAGCCTGT
GCTGGATCCGCAATGGCTTAAATCTCCGACAGACATGGATACTGCCGTCG
CCGGTCTGCAGTACCTTCTGCGCCTCTATGGAACGAACAGCATGAAGCCC
ATCTTAAATGCCTCGGGTAAACCTATCGATCTAGAAAGTTCTAACAAGGA
CGACCTCATTAAGTATGTGAAAAACAACTATCGAACGTTGAATCACCAAT
CTGCATCGTGCCGAATGGGAAAGCGAGACGATCCTATGGCCGTGGTGGAT
AGTAAGGGCAAGGTAATCGGAGTTGATAGATTGAGAATTGCTGACCCGTC
CGCCTGGCCTTTCTTGCCAGCGGGATTTCCGTTAGGCACTGCCTATATGT
TTGCGGAGAAGATAGCCGATAACATCCTCAGTGATCATGGAAGTGACAAG
GATGAGGATGAGGATGAGCTGCGAGTGGAACTCTAGATGCTCTCAACTAT
AACATCTTTCCTCATCCTTCTGTTCTTTGTTACCACAGTCTCCGCCTATC
CCTTCGAGGAGAACTCCTTTCCTCGTCTCCAGGATACTTTAGCCACTGGC
ACCAAACCCGGTGACCCCCCAAATTCGGTGGTGGGAAACTCAGTCGCCGT
TATCGAAAACGGCACATACCCTACTGGGAATTTGACTACAGTGCCAGGGT
ACAATGAGCAGTGGTTTAGCAGGGTGTTGCCGTCGAATTGGACGGATATG
GTGAATGTGTGGCCTACTGTGCAGCAGGTGGGAGGGGGAGAGCAGCAGCA
TATGATGGGGAGAATGATCGGAGGGAGCCAGGGCTTTACCTTTGTCGATT
ACTTCCGCACTACTAAGGGGGCTATGAAAAGATGGGCTGACGAAACTGGC
GATGATTCCTGGACTTGGGAGAATGTCCAGCAATACTATAAAAAGTCATT
CAAATTCACACCATTGAACAATACCGCAAGACCATCGAATGCCACACCGG
ACTATGAGTCAAGTCAAATCGTTGGTTCTACGCCTGGGCCACTAGAACTC
ACCTTCCCCAAATATGCCCAGGCATTTGGTAGCTGGGTTAAACTTGGTCT
CAACGAATTAAAAGCTGGTATCAATCGAGTCTTTGTCGAGGGCGATATCA
AAGGTGCCAGTTGGATCTTAAATATGATCGATTCGCAAACGGGCAATCGC
GCCACAACATATACAGCTTTCTTGGAACCAACACAGAAAGATGACACGTC
GAAGATTGACGTGTATGTGGAGACGCTGGCCGAGAGAACTTTGTCAAACA
CTCCCCCTGGCAGCGACCCCGTAACCATCGGAGTCTTAGTGAAACGGTGG
GGCATGAGATTTCCGATATTCGCAGGGAAAGAAGTAATCCTAGCTGGAGG
ACCCATACTTACTCCTCAATTTCTCATGGTGTCTGGTATCGGTCCTCAGG
ATCACCTGCAGGAGATGAACATTACAGTCCTAGCTAATAGACCGGGAGTC
GGCCAGAACTACAACGATCATATTCTCTTCGGCGTCAAGCACGCAGTACA
AGTGGAGACAACATCGGTGCTCCTCAACGATACCAGGAAGTGGCAAGAGT
GCGAAAGATTCAAAGCTCACGCAGATGGCATGCTGGCCGATCCGGGCCCG
GATTTCGCCGCCTTTGTCGATTACCCGGAAGATATTCGCCAAAACCTGTC
TGCCCAGACTAAATCAGATCTCTCCCAATTCCCCTCTGACTGGCCAGATA
TCGGTATCGTATCTTCTCCACTCGGCGTCAATGGCGACGGCAATCACAAC
TATGCAGACCTCGTCTGCATCCCTATGAAGCCCATATCCAAGGGAACTAT
TAAACTCAGATCTAAGTCCATGGATGATAAGCCTGTGCTGGATCCGCAAT
GGCTTAAATCTCCGACAGACATGGATACTGCCGTCGCCGGTCTGCAGTAC
CTTCTGCGCCTCTATGGAACGAACAGCATGAAGCCCATCTTAAATGCCTC
GGGTAAACCTATCGATCTAGAAAGTTCTAACAAGGACGACCTCATTAAGT
ATGTGAAAAACAACTATCGAACGTTGAATCACCAATCTGCATCGTGCCGA
ATGGGAAAGCGAGACGATCCTATGGCCGTGGTGGATAGTAAGGGCAAGGT
AATCGGAGTTGATAGATTGAGAATTGCTGACCCGTCCGCCTGGCCTTTCT
TGCCAGCGGGATTTCCGTTAGGCACTGCCTATATGTTTGCGGAGAAGATA
GCCGATAACATCCTCAGTGATCATGGAAGTGACAAGGATGAGGATGAGGA
TGAGCTGCGAGTGGAACTCTAGATGCTCTCAACTATAACATCTTTCCTCA
TCCTTCTGTTCTTTGTTACCACAGTCTCCGCCTATCCCTTCGAGGAGAAC
TCCTTTCCTCGTCTCCAGGATACTTTAGCCACTGGCACCAAACCCGGTGA
CCCCCCAAATTCGGTGGTGGGAAACTCAGTCGCCGTTATCGAAAACGGCA
CATACCCTACTGGGAATTTGACTACAGTGCCAGGGTACAATGAGCAGTGG
TTTAGCAGGGTGTTGCCGTCGAATTGGACGGATATGGTGAATGTGTGGCC
TACTGTGCAGCAGGTGGGAGGGGGAGAGCAGCAGCATATGATGGGGAGAA
TGATCGGAGGGAGCCAGGGCTTTACCTTTGTCGATTACTTCCGCACTACT
AAGGGGGCTATGAAAAGATGGGCTGACGAAACTGGCGATGATTCCTGGAC
TTGGGAGAATGTCCAGCAATACTATAAAAAGTCATTCAAATTCACACCAT
TGAACAATACCGCAAGACCATCGAATGCCACACCGGACTATGAGTCAAGT
CAAATCGTTGGTTCTACGCCTGGGCCACTAGAACTCACCTTCCCCAAATA
TGCCCAGGCATTTGGTAGCTGGGTTAAACTTGGTCTCAACGAATTAAAAG
CTGGTATCAATCGAGTCTTTGTCGAGGGCGATATCAAAGGTGCCAGTTGG
ATCTTAAATATGATCGATTCGCAAACGGGCAATCGCGCCACAACATATAC
AGCTTTCTTGGAACCAACACAGAAAGATGACACGTCGAAGATTGACGTGT
ATGTGGAGACGCTGGCCGAGAGAACTTTGTCAAACACTCCCCCTGGCAGC
GACCCCGTAACCATCGGAGTCTTAGTGAAACGGTGGGGCATGAGATTTCC
GATATTCGCAGGGAAAGAAGTAATCCTAGCTGGAGGACCCATACTTACTC
CTCAATTTCTCATGGTGTCTGGTATCGGTCCTCAGGATCACCTGCAGGAG
ATGAACATTACAGTCCTAGCTAATAGACCGGGAGTCGGCCAGAACTACAA
CGATCATATTCTCTTCGGCGTCAAGCACGCAGTACAAGTGGAGACAACAT
CGGTGCTCCTCAACGATACCAGGAAGTGGCAAGAGTGCGAAAGATTCAAA
GCTCACGCAGATGGCATGCTGGCCGATCCGGGCCCGGATTTCGCCGCCTT
TGTCGATTACCCGGAAGATATTCGCCAAAACCTGTCTGCCCAGACTAAAT
CAGATCTCTCCCAATTCCCCTCTGACTGGCCAGATATCGGTATCGTATCT
TCTCCACTCGGCGTCAATGGCGACGGCAATCACAACTATGCAGACCTCGT
CTGCATCCCTATGAAGCCCATATCCAAGGGAACTATTAAACTCAGATCTA
AGTCCATGGATGATAAGCCTGTGCTGGATCCGCAATGGCTTAAATCTCCG
ACAGACATGGATACTGCCGTCGCCGGTCTGCAGTACCTTCTGCGCCTCTA
TGGAACGAACAGCATGAAGCCCATCTTAAATGCCTCGGGTAAACCTATCG
ATCTAGAAAGTTCTAACAAGGACGACCTCATTAAGTATGTGAAAAACAAC
TATCGAACGTTGAATCACCAATCTGCATCGTGCCGAATGGGAAAGCGAGA
CGATCCTATGGCCGTGGTGGATAGTAAGGGCAAGGTAATCGGAGTTGATA
GATTGAGAATTGCTGACCCGTCCGCCTGGCCTTTCTTGCCAGCGGGATTT
CCGTTAGGCACTGCCTATATGTTTGCGGAGAAGATAGCCGATAACATCCT
CAGTGATCATGGAAGTGACAAGGATGAGGATGAGGATGAGCTGCGAGTGG
AACTCTAGATGCTCTCAACTATAACATCTTTCCTCATCCTTCTGTTCTTT
GTTACCACAGTCTCCGCCTATCCCTTCGAGGAGAACTCCTTTCCTCGTCT
CCAGGATACTTTAGCCACTGGCACCAAACCCGGTGACCCCCCAAATTCGG
TGGTGGGAAACTCAGTCGCCGTTATCGAAAACGGCACATACCCTACTGGG
AATTTGACTACAGTGCCAGGGTACAATGAGCAGTGGTTTAGCAGGGTGTT
GCCGTCGAATTGGACGGATATGGTGAATGTGTGGCCTACTGTGCAGCAGG
TGGGAGGGGGAGAGCAGCAGCATATGATGGGGAGAATGATCGGAGGGAGC
CAGGGCTTTACCTTTGTCGATTACTTCCGCACTACTAAGGGGGCTATGAA
AAGATGGGCTGACGAAACTGGCGATGATTCCTGGACTTGGGAGAATGTCC
AGCAATACTATAAAAAGTCATTCAAATTCACACCATTGAACAATACCGCA
AGACCATCGAATGCCACACCGGACTATGAGTCAAGTCAAATCGTTGGTTC
TACGCCTGGGCCACTAGAACTCACCTTCCCCAAATATGCCCAGGCATTTG
GTAGCTGGGTTAAACTTGGTCTCAACGAATTAAAAGCTGGTATCAATCGA
GTCTTTGTCGAGGGCGATATCAAAGGTGCCAGTTGGATCTTAAATATGAT
CGATTCGCAAACGGGCAATCGCGCCACAACATATACAGCTTTCTTGGAAC
CAACACAGAAAGATGACACGTCGAAGATTGACGTGTATGTGGAGACGCTG
GCCGAGAGAACTTTGTCAAACACTCCCCCTGGCAGCGACCCCGTAACCAT
CGGAGTCTTAGTGAAACGGTGGGGCATGAGATTTCCGATATTCGCAGGGA
AAGAAGTAATCCTAGCTGGAGGACCCATACTTACTCCTCAATTTCTCATG
GTGTCTGGTATCGGTCCTCAGGATCACCTGCAGGAGATGAACATTACAGT
CCTAGCTAATAGACCGGGAGTCGGCCAGAACTACAACGATCATATTCTCT
TCGGCGTCAAGCACGCAGTACAAGTGGAGACAACATCGGTGCTCCTCAAC
GATACCAGGAAGTGGCAAGAGTGCGAAAGATTCAAAGCTCACGCAGATGG
CATGCTGGCCGATCCGGGCCCGGATTTCGCCGCCTTTGTCGATTACCCGG
AAGATATTCGCCAAAACCTGTCTGCCCAGACTAAATCAGATCTCTCCCAA
TTCCCCTCTGACTGGCCAGATATCGGTATCGTATCTTCTCCACTCGGCGT
CAATGGCGACGGCAATCACAACTATGCAGACCTCGTCTGCATCCCTATGA
AGCCCATATCCAAGGGAACTATTAAACTCAGATCTAAGTCCATGGATGAT
AAGCCTGTGCTGGATCCGCAATGGCTTAAATCTCCGACAGACATGGATAC
TGCCGTCGCCGGTCTGCAGTACCTTCTGCGCCTCTATGGAACGAACAGCA
TGAAGCCCATCTTAAATGCCTCGGGTAAACCTATCGATCTAGAAAGTTCT
AACAAGGACGACCTCATTAAGTATGTGAAAAACAACTATCGAACGTTGAA
TCACCAATCTGCATCGTGCCGAATGGGAAAGCGAGACGATCCTATGGCCG
TGGTGGATAGTAAGGGCAAGGTAATCGGAGTTGATAGATTGAGAATTGCT
GACCCGTCCGCCTGGCCTTTCTTGCCAGCGGGATTTCCGTTAGGCACTGC
CTATATGTTTGCGGAGAAGATAGCCGATAACATCCTCAGTGATCATGGAA
GTGACAAGGATGAGGATGAGGATGAGCTGCGAGTGGAACTCTAGATGCTC
TCAACTATAACATCTTTCCTCATCCTTCTGTTCTTTGTTACCACAGTCTC
CGCCTATCCCTTCGAGGAGAACTCCTTTCCTCGTCTCCAGGATACTTTAG
CCACTGGCACCAAACCCGGTGACCCCCCAAATTCGGTGGTGGGAAACTCA
GTCGCCGTTATCGAAAACGGCACATACCCTACTGGGAATTTGACTACAGT
GCCAGGGTACAATGAGCAGTGGTTTAGCAGGGTGTTGCCGTCGAATTGGA
CGGATATGGTGAATGTGTGGCCTACTGTGCAGCAGGTGGGAGGGGGAGAG
CAGCAGCATATGATGGGGAGAATGATCGGAGGGAGCCAGGGCTTTACCTT
TGTCGATTACTTCCGCACTACTAAGGGGGCTATGAAAAGATGGGCTGACG
AAACTGGCGATGATTCCTGGACTTGGGAGAATGTCCAGCAATACTATAAA
AAGTCATTCAAATTCACACCATTGAACAATACCGCAAGACCATCGAATGC
CACACCGGACTATGAGTCAAGTCAAATCGTTGGTTCTACGCCTGGGCCAC
TAGAACTCACCTTCCCCAAATATGCCCAGGCATTTGGTAGCTGGGTTAAA
CTTGGTCTCAACGAATTAAAAGCTGGTATCAATCGAGTCTTTGTCGAGGG
CGATATCAAAGGTGCCAGTTGGATCTTAAATATGATCGATTCGCAAACGG
GCAATCGCGCCACAACATATACAGCTTTCTTGGAACCAACACAGAAAGAT
GACACGTCGAAGATTGACGTGTATGTGGAGACGCTGGCCGAGAGAACTTT
GTCAAACACTCCCCCTGGCAGCGACCCCGTAACCATCGGAGTCTTAGTGA
AACGGTGGGGCATGAGATTTCCGATATTCGCAGGGAAAGAAGTAATCCTA
GCTGGAGGACCCATACTTACTCCTCAATTTCTCATGGTGTCTGGTATCGG
TCCTCAGGATCACCTGCAGGAGATGAACATTACAGTCCTAGCTAATAGAC
CGGGAGTCGGCCAGAACTACAACGATCATATTCTCTTCGGCGTCAAGCAC
GCAGTACAAGTGGAGACAACATCGGTGCTCCTCAACGATACCAGGAAGTG
GCAAGAGTGCGAAAGATTCAAAGCTCACGCAGATGGCATGCTGGCCGATC
CGGGCCCGGATTTCGCCGCCTTTGTCGATTACCCGGAAGATATTCGCCAA
AACCTGTCTGCCCAGACTAAATCAGATCTCTCCCAATTCCCCTCTGACTG
GCCAGATATCGGTATCGTATCTTCTCCACTCGGCGTCAATGGCGACGGCA
ATCACAACTATGCAGACCTCGTCTGCATCCCTATGAAGCCCATATCCAAG
GGAACTATTAAACTCAGATCTAAGTCCATGGATGATAAGCCTGTGCTGGA
TCCGCAATGGCTTAAATCTCCGACAGACATGGATACTGCCGTCGCCGGTC
TGCAGTACCTTCTGCGCCTCTATGGAACGAACAGCATGAAGCCCATCTTA
AATGCCTCGGGTAAACCTATCGATCTAGAAAGTTCTAACAAGGACGACCT
CATTAAGTATGTGAAAAACAACTATCGAACGTTGAATCACCAATCTGCAT
CGTGCCGAATGGGAAAGCGAGACGATCCTATGGCCGTGGTGGATAGTAAG
GGCAAGGTAATCGGAGTTGATAGATTGAGAATTGCTGACCCGTCCGCCTG
GCCTTTCTTGCCAGCGGGATTTCCGTTAGGCACTGCCTATATGTTTGCGG
AGAAGATAGCCGATAACATCCTCAGTGATCATGGAAGTGACAAGGATGAG
GATGAGGATGAGCTGCGAGTGGAACTCTAGATGCTCTCAACTATAACATC
TTTCCTCATCCTTCTGTTCTTTGTTACCACAGTCTCCGCCTATCCCTTCG
AGGAGAACTCCTTTCCTCGTCTCCAGGATACTTTAGCCACTGGCACCAAA
CCCGGTGACCCCCCAAATTCGGTGGTGGGAAACTCAGTCGCCGTTATCGA
AAACGGCACATACCCTACTGGGAATTTGACTACAGTGCCAGGGTACAATG
AGCAGTGGTTTAGCAGGGTGTTGCCGTCGAATTGGACGGATATGGTGAAT
GTGTGGCCTACTGTGCAGCAGGTGGGAGGGGGAGAGCAGCAGCATATGAT
GGGGAGAATGATCGGAGGGAGCCAGGGCTTTACCTTTGTCGATTACTTCC
GCACTACTAAGGGGGCTATGAAAAGATGGGCTGACGAAACTGGCGATGAT
TCCTGGACTTGGGAGAATGTCCAGCAATACTATAAAAAGTCATTCAAATT
CACACCATTGAACAATACCGCAAGACCATCGAATGCCACACCGGACTATG
AGTCAAGTCAAATCGTTGGTTCTACGCCTGGGCCACTAGAACTCACCTTC
CCCAAATATGCCCAGGCATTTGGTAGCTGGGTTAAACTTGGTCTCAACGA
ATTAAAAGCTGGTATCAATCGAGTCTTTGTCGAGGGCGATATCAAAGGTG
CCAGTTGGATCTTAAATATGATCGATTCGCAAACGGGCAATCGCGCCACA
ACATATACAGCTTTCTTGGAACCAACACAGAAAGATGACACGTCGAAGAT
TGACGTGTATGTGGAGACGCTGGCCGAGAGAACTTTGTCAAACACTCCCC
CTGGCAGCGACCCCGTAACCATCGGAGTCTTAGTGAAACGGTGGGGCATG
AGATTTCCGATATTCGCAGGGAAAGAAGTAATCCTAGCTGGAGGACCCAT
ACTTACTCCTCAATTTCTCATGGTGTCTGGTATCGGTCCTCAGGATCACC
TGCAGGAGATGAACATTACAGTCCTAGCTAATAGACCGGGAGTCGGCCAG
AACTACAACGATCATATTCTCTTCGGCGTCAAGCACGCAGTACAAGTGGA
GACAACATCGGTGCTCCTCAACGATACCAGGAAGTGGCAAGAGTGCGAAA
GATTCAAAGCTCACGCAGATGGCATGCTGGCCGATCCGGGCCCGGATTTC
GCCGCCTTTGTCGATTACCCGGAAGATATTCGCCAAAACCTGTCTGCCCA
GACTAAATCAGATCTCTCCCAATTCCCCTCTGACTGGCCAGATATCGGTA
TCGTATCTTCTCCACTCGGCGTCAATGGCGACGGCAATCACAACTATGCA
GACCTCGTCTGCATCCCTATGAAGCCCATATCCAAGGGAACTATTAAACT
CAGATCTAAGTCCATGGATGATAAGCCTGTGCTGGATCCGCAATGGCTTA
AATCTCCGACAGACATGGATACTGCCGTCGCCGGTCTGCAGTACCTTCTG
CGCCTCTATGGAACGAACAGCATGAAGCCCATCTTAAATGCCTCGGGTAA
ACCTATCGATCTAGAAAGTTCTAACAAGGACGACCTCATTAAGTATGTGA
AAAACAACTATCGAACGTTGAATCACCAATCTGCATCGTGCCGAATGGGA
AAGCGAGACGATCCTATGGCCGTGGTGGATAGTAAGGGCAAGGTAATCGG
AGTTGATAGATTGAGAATTGCTGACCCGTCCGCCTGGCCTTTCTTGCCAG
CGGGATTTCCGTTAGGCACTGCCTATATGTTTGCGGAGAAGATAGCCGAT
AACATCCTCAGTGATCATGGAAGTGACAAGGATGAGGATGAGGATGAGCT
GCGAGTGGAACTCTAGATGCTCTCAACTATAACATCTTTCCTCATCCTTC
TGTTCTTTGTTACCACAGTCTCCGCCTATCCCTTCGAGGAGAACTCCTTT
CCTCGTCTCCAGGATACTTTAGCCACTGGCACCAAACCCGGTGACCCCCC
AAATTCGGTGGTGGGAAACTCAGTCGCCGTTATCGAAAACGGCACATACC
CTACTGGGAATTTGACTACAGTGCCAGGGTACAATGAGCAGTGGTTTAGC
AGGGTGTTGCCGTCGAATTGGACGGATATGGTGAATGTGTGGCCTACTGT
GCAGCAGGTGGGAGGGGGAGAGCAGCAGCATATGATGGGGAGAATGATCG
GAGGGAGCCAGGGCTTTACCTTTGTCGATTACTTCCGCACTACTAAGGGG
GCTATGAAAAGATGGGCTGACGAAACTGGCGATGATTCCTGGACTTGGGA
GAATGTCCAGCAATACTATAAAAAGTCATTCAAATTCACACCATTGAACA
ATACCGCAAGACCATCGAATGCCACACCGGACTATGAGTCAAGTCAAATC
GTTGGTTCTACGCCTGGGCCACTAGAACTCACCTTCCCCAAATATGCCCA
GGCATTTGGTAGCTGGGTTAAACTTGGTCTCAACGAATTAAAAGCTGGTA
TCAATCGAGTCTTTGTCGAGGGCGATATCAAAGGTGCCAGTTGGATCTTA
AATATGATCGATTCGCAAACGGGCAATCGCGCCACAACATATACAGCTTT
CTTGGAACCAACACAGAAAGATGACACGTCGAAGATTGACGTGTATGTGG
AGACGCTGGCCGAGAGAACTTTGTCAAACACTCCCCCTGGCAGCGACCCC
GTAACCATCGGAGTCTTAGTGAAACGGTGGGGCATGAGATTTCCGATATT
CGCAGGGAAAGAAGTAATCCTAGCTGGAGGACCCATACTTACTCCTCAAT
TTCTCATGGTGTCTGGTATCGGTCCTCAGGATCACCTGCAGGAGATGAAC
ATTACAGTCCTAGCTAATAGACCGGGAGTCGGCCAGAACTACAACGATCA
TATTCTCTTCGGCGTCAAGCACGCAGTACAAGTGGAGACAACATCGGTGC
TCCTCAACGATACCAGGAAGTGGCAAGAGTGCGAAAGATTCAAAGCTCAC
GCAGATGGCATGCTGGCCGATCCGGGCCCGGATTTCGCCGCCTTTGTCGA
TTACCCGGAAGATATTCGCCAAAACCTGTCTGCCCAGACTAAATCAGATC
TCTCCCAATTCCCCTCTGACTGGCCAGATATCGGTATCGTATCTTCTCCA
CTCGGCGTCAATGGCGACGGCAATCACAACTATGCAGACCTCGTCTGCAT
CCCTATGAAGCCCATATCCAAGGGAACTATTAAACTCAGATCTAAGTCCA
TGGATGATAAGCCTGTGCTGGATCCGCAATGGCTTAAATCTCCGACAGAC
ATGGATACTGCCGTCGCCGGTCTGCAGTACCTTCTGCGCCTCTATGGAAC
GAACAGCATGAAGCCCATCTTAAATGCCTCGGGTAAACCTATCGATCTAG
AAAGTTCTAACAAGGACGACCTCATTAAGTATGTGAAAAACAACTATCGA
ACGTTGAATCACCAATCTGCATCGTGCCGAATGGGAAAGCGAGACGATCC
TATGGCCGTGGTGGATAGTAAGGGCAAGGTAATCGGAGTTGATAGATTGA
GAATTGCTGACCCGTCCGCCTGGCCTTTCTTGCCAGCGGGATTTCCGTTA
GGCACTGCCTATATGTTTGCGGAGAAGATAGCCGATAACATCCTCAGTGA
TCATGGAAGTGACAAGGATGAGGATGAGGATGAGCTGCGAGTGGAACTCT
AG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0050660 | flavin adenine dinucleotide binding |
| GO:0016614 | oxidoreductase activity, acting on CH-OH group of donors |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055114 | oxidation-reduction process |
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:
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-20) |
| Note | CAZy:AA3_3 |
| Note | CAZy:AA3 |
| Note | CAZy:AA3_2 |
| DBxref | InterPro:IPR007867 |
| DBxref | InterPro:IPR036188 |
| DBxref | InterPro:IPR012132 |
| DBxref | InterPro:IPR000172 |
| DBxref | PFAM:PF00732 |
| DBxref | PFAM:PF05199 |
| Product | GMC oxidoreductase 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 |
|---|
| NKJJ01000003.1 | supercontig | NKJJ01000003.1:1195723..1197959 + |
|
