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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:1831284..1833309+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_24720-T1 ID=CAN33_24720-T1|Name=CAN33_24720-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2026bp|location=Sequence derived from alignment at NKJJ01000002.1:1831284..1833309+ (Aspergillus niger FDAARGOS_311)
ATGGGAAACTCGCAAGGGAAACAGGTGGCCTCCACCGATGAATGTACGTA
TTGAGTGTGTCCGAGAACAATTGGCTGCGGAGGGGCTGACTATGGCGCAG
TGAACTTGAATCAGTTTCGTCTGTTGCGAGTGGTTGGAAAAGGTGCTTTC
GGCAAGGTTCGTATCGTGGAGAAGAAAGACACCGGATTGACGTTCGCGCT
GAAATACATTCGGAAAGAAGAAGGTATGTTGCTGCCGAAGGAATACCTCA
ATACACGCTGACATGAGTTGCTCGTTTCCCTGGTAGTCGTCCGGTCGGAA
AGCGTACGAAATATCATCCGAGAACGGCGGATGCTCGAGCACCTCAACCA
TGCCTTTCTTTGCAACTTGAGATACAGCTTCCAAGACATTGAATATATGT
GCGTCCTGCAATAGCTTTCCCAACACGACACCCCTATCGTCCGTCCGCAG
TCACTGATAATTTGAGAAGTTACATTGTGGTGGATTTGATGAATGGCGGT
GACCTCCGGTTCCATATTTCGCGGAAATGTTTCACGGAGGAGGCTGTGAG
ATTCTGGATTGCTGAGCTGGGTTGCGCTCTGAGGTACATTCACTCGCAGG
GAATCATCCATCGTGACGTCAAGCCAGACAATATCCTGCTTGACTCGGAG
GGGCATGTTCATTTGGCCGATTTTGTAAGTCCGCCGGTCGCATGCGTTCC
GGTTCGTGAAGCTGACCTCCGTGTGACAGAACGTCGCCTCCGACTTTCGA
CCCGGAAAACCTCTCACTAGTAAATCCGGAACACTGGCGTACCTTGCTCC
GGAAGTATACGAAGGCGGCGGATACTACTGCGAAGTTGATTGGTGGTCAC
TTGGAGTTACATTTTACGAATGTATTTACAACAAGGTATGTCGCTTCGAT
CTGTTAGTCCAGTCAAGACTTTTGCTGACTCTTGTAGCGCCCATTCGAAG
GTCGGAGCCAGGACGTCCTCAGCGAAAACATCAAAAAGGCGCAACCGAAG
TACTACGTCACCAACCCCGCGGTCTCCGTTCCCTGCCTCCGAGCAATGTC
GGCGTTTATGGAAAGAGATCGGTCGAAGCGAATTGGCGCGATCAGCTTTG
AGAGCTTCACATCGCATATGTTCTTTGCCGACATCGACTTTGTCGCTCTG
GAGTCGAAGGAAATCCCGCCCGTGTTCCGTCCGTCCAGCGACAAGACCAA
CTTTGACGCCACATATGACTTGGAGGAACTACTCTTGGAGGAGGCGCCGC
TCGAGGCCAGAGCTCGCCGGCAAAAACCGAGAGCCGAGTTGCGGGAGGAT
GCGACGGCCAAGGAGATCCGCGAGGACGAACTGCACCGTCTGATTGAGAC
GATGTTTGAGCCCTTCGATTATACCAAGGTGAACTACGTTGGGTACGTTG
ATCTCCAAGCAAACGGAGATGGGGATGCCGTGCTAACCAACATCAGCAAC
GCTGCGGATGCGATTGCCGCATCAACGTAAGTTCTCCATGCCTATCTGGT
CTTGCGGCCTTTGCTGACCCTAGCTAGAAATCCAGAAGAATGCTTGCCGA
TCCACCAAACGCAGTCGTCGCATTCCCGACAAGTCTCACAGCCAGACCTC
TCCAGAAATTCGCCTCCCCTCCGAAACGATGGCTCTGTCAGTCACTTGAC
TCAGCCTGACACCCCGTCCCCTCTCAGCGAAACCCCCACCTCGCAAGCGT
CGCTACCTCCTCCACCCCCGCCGCCGGCCCCGCCTTTCCACCGTCCTTTG
CCACCTACTGCCGTGCGGCCGCGGGGCGCGACCCGGAAACAAAGTAAGGG
TGGAGGGGTACAGATGGTGTTGGAAGAAGCAGGTAGCTGGAGCGAGCTTG
CGGATCATAGCTCTACACTGCCTGCCGAAGGCTACGATACCGGGTCAGTC
AAGGGGAAGGGCTCCAATAGCGGCATGCTCGCTTTCCTCAGCAGGAAGAA
GGGGCGCGATAGGAGCCCGAAGCCCCAGGAGCCCGGCGTGCTGGGTAAAG
AAGGCGCCCGGCAGATTATCAGCTGA back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:1831284..1833309+ >CAN33_24720-T1 ID=CAN33_24720-T1|Name=CAN33_24720-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12984bp|location=Sequence derived from alignment at NKJJ01000002.1:1831284..1833309+ (Aspergillus niger FDAARGOS_311)
ATGGGAAACTCGCAAGGGAAACAGGTGGCCTCCACCGATGAATTGAACTT
GAATCAGTTTCGTCTGTTGCGAGTGGTTGGAAAAGGTGCTTTCGGCAAGG
TTCGTATCGTGGAGAAGAAAGACACCGGATTGACGTTCGCGCTGAAATAC
ATTCGGAAAGAAGAAGTCGTCCGGTCGGAAAGCGTACGAAATATCATCCG
AGAACGGCGGATGCTCGAGCACCTCAACCATGCCTTTCTTTGCAACTTGA
GATACAGCTTCCAAGACATTGAATATATTTACATTGTGGTGGATTTGATG
AATGGCGGTGACCTCCGGTTCCATATTTCGCGGAAATGTTTCACGGAGGA
GGCTGTGAGATTCTGGATTGCTGAGCTGGGTTGCGCTCTGAGGTACATTC
ACTCGCAGGGAATCATCCATCGTGACGTCAAGCCAGACAATATCCTGCTT
GACTCGGAGGGGCATGTTCATTTGGCCGATTTTAACGTCGCCTCCGACTT
TCGACCCGGAAAACCTCTCACTAGTAAATCCGGAACACTGGCGTACCTTG
CTCCGGAAGTATACGAAGGCGGCGGATACTACTGCGAAGTTGATTGGTGG
TCACTTGGAGTTACATTTTACGAATGTATTTACAACAAGCGCCCATTCGA
AGGTCGGAGCCAGGACGTCCTCAGCGAAAACATCAAAAAGGCGCAACCGA
AGTACTACGTCACCAACCCCGCGGTCTCCGTTCCCTGCCTCCGAGCAATG
TCGGCGTTTATGGAAAGAGATCGGTCGAAGCGAATTGGCGCGATCAGCTT
TGAGAGCTTCACATCGCATATGTTCTTTGCCGACATCGACTTTGTCGCTC
TGGAGTCGAAGGAAATCCCGCCCGTGTTCCGTCCGTCCAGCGACAAGACC
AACTTTGACGCCACATATGACTTGGAGGAACTACTCTTGGAGGAGGCGCC
GCTCGAGGCCAGAGCTCGCCGGCAAAAACCGAGAGCCGAGTTGCGGGAGG
ATGCGACGGCCAAGGAGATCCGCGAGGACGAACTGCACCGTCTGATTGAG
ACGATGTTTGAGCCCTTCGATTATACCAAGGTGAACTACGTTGGCAACGC
TGCGGATGCGATTGCCGCATCAACAAATCCAGAAGAATGCTTGCCGATCC
ACCAAACGCAGTCGTCGCATTCCCGACAAGTCTCACAGCCAGACCTCTCC
AGAAATTCGCCTCCCCTCCGAAACGATGGCTCTGTCAGTCACTTGACTCA
GCCTGACACCCCGTCCCCTCTCAGCGAAACCCCCACCTCGCAAGCGTCGC
TACCTCCTCCACCCCCGCCGCCGGCCCCGCCTTTCCACCGTCCTTTGCCA
CCTACTGCCGTGCGGCCGCGGGGCGCGACCCGGAAACAAAGTAAGGGTGG
AGGGGTACAGATGGTGTTGGAAGAAGCAGGTAGCTGGAGCGAGCTTGCGG
ATCATAGCTCTACACTGCCTGCCGAAGGCTACGATACCGGGTCAGTCAAG
GGGAAGGGCTCCAATAGCGGCATGCTCGCTTTCCTCAGCAGGAAGAAGGG
GCGCGATAGGAGCCCGAAGCCCCAGGAGCCCGGCGTGCTGGGTAAAGAAG
GCGCCCGGCAGATTATCAGCTGAATGGGAAACTCGCAAGGGAAACAGGTG
GCCTCCACCGATGAATTGAACTTGAATCAGTTTCGTCTGTTGCGAGTGGT
TGGAAAAGGTGCTTTCGGCAAGGTTCGTATCGTGGAGAAGAAAGACACCG
GATTGACGTTCGCGCTGAAATACATTCGGAAAGAAGAAGTCGTCCGGTCG
GAAAGCGTACGAAATATCATCCGAGAACGGCGGATGCTCGAGCACCTCAA
CCATGCCTTTCTTTGCAACTTGAGATACAGCTTCCAAGACATTGAATATA
TTTACATTGTGGTGGATTTGATGAATGGCGGTGACCTCCGGTTCCATATT
TCGCGGAAATGTTTCACGGAGGAGGCTGTGAGATTCTGGATTGCTGAGCT
GGGTTGCGCTCTGAGGTACATTCACTCGCAGGGAATCATCCATCGTGACG
TCAAGCCAGACAATATCCTGCTTGACTCGGAGGGGCATGTTCATTTGGCC
GATTTTAACGTCGCCTCCGACTTTCGACCCGGAAAACCTCTCACTAGTAA
ATCCGGAACACTGGCGTACCTTGCTCCGGAAGTATACGAAGGCGGCGGAT
ACTACTGCGAAGTTGATTGGTGGTCACTTGGAGTTACATTTTACGAATGT
ATTTACAACAAGCGCCCATTCGAAGGTCGGAGCCAGGACGTCCTCAGCGA
AAACATCAAAAAGGCGCAACCGAAGTACTACGTCACCAACCCCGCGGTCT
CCGTTCCCTGCCTCCGAGCAATGTCGGCGTTTATGGAAAGAGATCGGTCG
AAGCGAATTGGCGCGATCAGCTTTGAGAGCTTCACATCGCATATGTTCTT
TGCCGACATCGACTTTGTCGCTCTGGAGTCGAAGGAAATCCCGCCCGTGT
TCCGTCCGTCCAGCGACAAGACCAACTTTGACGCCACATATGACTTGGAG
GAACTACTCTTGGAGGAGGCGCCGCTCGAGGCCAGAGCTCGCCGGCAAAA
ACCGAGAGCCGAGTTGCGGGAGGATGCGACGGCCAAGGAGATCCGCGAGG
ACGAACTGCACCGTCTGATTGAGACGATGTTTGAGCCCTTCGATTATACC
AAGGTGAACTACGTTGGCAACGCTGCGGATGCGATTGCCGCATCAACAAA
TCCAGAAGAATGCTTGCCGATCCACCAAACGCAGTCGTCGCATTCCCGAC
AAGTCTCACAGCCAGACCTCTCCAGAAATTCGCCTCCCCTCCGAAACGAT
GGCTCTGTCAGTCACTTGACTCAGCCTGACACCCCGTCCCCTCTCAGCGA
AACCCCCACCTCGCAAGCGTCGCTACCTCCTCCACCCCCGCCGCCGGCCC
CGCCTTTCCACCGTCCTTTGCCACCTACTGCCGTGCGGCCGCGGGGCGCG
ACCCGGAAACAAAGTAAGGGTGGAGGGGTACAGATGGTGTTGGAAGAAGC
AGGTAGCTGGAGCGAGCTTGCGGATCATAGCTCTACACTGCCTGCCGAAG
GCTACGATACCGGGTCAGTCAAGGGGAAGGGCTCCAATAGCGGCATGCTC
GCTTTCCTCAGCAGGAAGAAGGGGCGCGATAGGAGCCCGAAGCCCCAGGA
GCCCGGCGTGCTGGGTAAAGAAGGCGCCCGGCAGATTATCAGCTGAATGG
GAAACTCGCAAGGGAAACAGGTGGCCTCCACCGATGAATTGAACTTGAAT
CAGTTTCGTCTGTTGCGAGTGGTTGGAAAAGGTGCTTTCGGCAAGGTTCG
TATCGTGGAGAAGAAAGACACCGGATTGACGTTCGCGCTGAAATACATTC
GGAAAGAAGAAGTCGTCCGGTCGGAAAGCGTACGAAATATCATCCGAGAA
CGGCGGATGCTCGAGCACCTCAACCATGCCTTTCTTTGCAACTTGAGATA
CAGCTTCCAAGACATTGAATATATTTACATTGTGGTGGATTTGATGAATG
GCGGTGACCTCCGGTTCCATATTTCGCGGAAATGTTTCACGGAGGAGGCT
GTGAGATTCTGGATTGCTGAGCTGGGTTGCGCTCTGAGGTACATTCACTC
GCAGGGAATCATCCATCGTGACGTCAAGCCAGACAATATCCTGCTTGACT
CGGAGGGGCATGTTCATTTGGCCGATTTTAACGTCGCCTCCGACTTTCGA
CCCGGAAAACCTCTCACTAGTAAATCCGGAACACTGGCGTACCTTGCTCC
GGAAGTATACGAAGGCGGCGGATACTACTGCGAAGTTGATTGGTGGTCAC
TTGGAGTTACATTTTACGAATGTATTTACAACAAGCGCCCATTCGAAGGT
CGGAGCCAGGACGTCCTCAGCGAAAACATCAAAAAGGCGCAACCGAAGTA
CTACGTCACCAACCCCGCGGTCTCCGTTCCCTGCCTCCGAGCAATGTCGG
CGTTTATGGAAAGAGATCGGTCGAAGCGAATTGGCGCGATCAGCTTTGAG
AGCTTCACATCGCATATGTTCTTTGCCGACATCGACTTTGTCGCTCTGGA
GTCGAAGGAAATCCCGCCCGTGTTCCGTCCGTCCAGCGACAAGACCAACT
TTGACGCCACATATGACTTGGAGGAACTACTCTTGGAGGAGGCGCCGCTC
GAGGCCAGAGCTCGCCGGCAAAAACCGAGAGCCGAGTTGCGGGAGGATGC
GACGGCCAAGGAGATCCGCGAGGACGAACTGCACCGTCTGATTGAGACGA
TGTTTGAGCCCTTCGATTATACCAAGGTGAACTACGTTGGCAACGCTGCG
GATGCGATTGCCGCATCAACAAATCCAGAAGAATGCTTGCCGATCCACCA
AACGCAGTCGTCGCATTCCCGACAAGTCTCACAGCCAGACCTCTCCAGAA
ATTCGCCTCCCCTCCGAAACGATGGCTCTGTCAGTCACTTGACTCAGCCT
GACACCCCGTCCCCTCTCAGCGAAACCCCCACCTCGCAAGCGTCGCTACC
TCCTCCACCCCCGCCGCCGGCCCCGCCTTTCCACCGTCCTTTGCCACCTA
CTGCCGTGCGGCCGCGGGGCGCGACCCGGAAACAAAGTAAGGGTGGAGGG
GTACAGATGGTGTTGGAAGAAGCAGGTAGCTGGAGCGAGCTTGCGGATCA
TAGCTCTACACTGCCTGCCGAAGGCTACGATACCGGGTCAGTCAAGGGGA
AGGGCTCCAATAGCGGCATGCTCGCTTTCCTCAGCAGGAAGAAGGGGCGC
GATAGGAGCCCGAAGCCCCAGGAGCCCGGCGTGCTGGGTAAAGAAGGCGC
CCGGCAGATTATCAGCTGAATGGGAAACTCGCAAGGGAAACAGGTGGCCT
CCACCGATGAATTGAACTTGAATCAGTTTCGTCTGTTGCGAGTGGTTGGA
AAAGGTGCTTTCGGCAAGGTTCGTATCGTGGAGAAGAAAGACACCGGATT
GACGTTCGCGCTGAAATACATTCGGAAAGAAGAAGTCGTCCGGTCGGAAA
GCGTACGAAATATCATCCGAGAACGGCGGATGCTCGAGCACCTCAACCAT
GCCTTTCTTTGCAACTTGAGATACAGCTTCCAAGACATTGAATATATTTA
CATTGTGGTGGATTTGATGAATGGCGGTGACCTCCGGTTCCATATTTCGC
GGAAATGTTTCACGGAGGAGGCTGTGAGATTCTGGATTGCTGAGCTGGGT
TGCGCTCTGAGGTACATTCACTCGCAGGGAATCATCCATCGTGACGTCAA
GCCAGACAATATCCTGCTTGACTCGGAGGGGCATGTTCATTTGGCCGATT
TTAACGTCGCCTCCGACTTTCGACCCGGAAAACCTCTCACTAGTAAATCC
GGAACACTGGCGTACCTTGCTCCGGAAGTATACGAAGGCGGCGGATACTA
CTGCGAAGTTGATTGGTGGTCACTTGGAGTTACATTTTACGAATGTATTT
ACAACAAGCGCCCATTCGAAGGTCGGAGCCAGGACGTCCTCAGCGAAAAC
ATCAAAAAGGCGCAACCGAAGTACTACGTCACCAACCCCGCGGTCTCCGT
TCCCTGCCTCCGAGCAATGTCGGCGTTTATGGAAAGAGATCGGTCGAAGC
GAATTGGCGCGATCAGCTTTGAGAGCTTCACATCGCATATGTTCTTTGCC
GACATCGACTTTGTCGCTCTGGAGTCGAAGGAAATCCCGCCCGTGTTCCG
TCCGTCCAGCGACAAGACCAACTTTGACGCCACATATGACTTGGAGGAAC
TACTCTTGGAGGAGGCGCCGCTCGAGGCCAGAGCTCGCCGGCAAAAACCG
AGAGCCGAGTTGCGGGAGGATGCGACGGCCAAGGAGATCCGCGAGGACGA
ACTGCACCGTCTGATTGAGACGATGTTTGAGCCCTTCGATTATACCAAGG
TGAACTACGTTGGCAACGCTGCGGATGCGATTGCCGCATCAACAAATCCA
GAAGAATGCTTGCCGATCCACCAAACGCAGTCGTCGCATTCCCGACAAGT
CTCACAGCCAGACCTCTCCAGAAATTCGCCTCCCCTCCGAAACGATGGCT
CTGTCAGTCACTTGACTCAGCCTGACACCCCGTCCCCTCTCAGCGAAACC
CCCACCTCGCAAGCGTCGCTACCTCCTCCACCCCCGCCGCCGGCCCCGCC
TTTCCACCGTCCTTTGCCACCTACTGCCGTGCGGCCGCGGGGCGCGACCC
GGAAACAAAGTAAGGGTGGAGGGGTACAGATGGTGTTGGAAGAAGCAGGT
AGCTGGAGCGAGCTTGCGGATCATAGCTCTACACTGCCTGCCGAAGGCTA
CGATACCGGGTCAGTCAAGGGGAAGGGCTCCAATAGCGGCATGCTCGCTT
TCCTCAGCAGGAAGAAGGGGCGCGATAGGAGCCCGAAGCCCCAGGAGCCC
GGCGTGCTGGGTAAAGAAGGCGCCCGGCAGATTATCAGCTGAATGGGAAA
CTCGCAAGGGAAACAGGTGGCCTCCACCGATGAATTGAACTTGAATCAGT
TTCGTCTGTTGCGAGTGGTTGGAAAAGGTGCTTTCGGCAAGGTTCGTATC
GTGGAGAAGAAAGACACCGGATTGACGTTCGCGCTGAAATACATTCGGAA
AGAAGAAGTCGTCCGGTCGGAAAGCGTACGAAATATCATCCGAGAACGGC
GGATGCTCGAGCACCTCAACCATGCCTTTCTTTGCAACTTGAGATACAGC
TTCCAAGACATTGAATATATTTACATTGTGGTGGATTTGATGAATGGCGG
TGACCTCCGGTTCCATATTTCGCGGAAATGTTTCACGGAGGAGGCTGTGA
GATTCTGGATTGCTGAGCTGGGTTGCGCTCTGAGGTACATTCACTCGCAG
GGAATCATCCATCGTGACGTCAAGCCAGACAATATCCTGCTTGACTCGGA
GGGGCATGTTCATTTGGCCGATTTTAACGTCGCCTCCGACTTTCGACCCG
GAAAACCTCTCACTAGTAAATCCGGAACACTGGCGTACCTTGCTCCGGAA
GTATACGAAGGCGGCGGATACTACTGCGAAGTTGATTGGTGGTCACTTGG
AGTTACATTTTACGAATGTATTTACAACAAGCGCCCATTCGAAGGTCGGA
GCCAGGACGTCCTCAGCGAAAACATCAAAAAGGCGCAACCGAAGTACTAC
GTCACCAACCCCGCGGTCTCCGTTCCCTGCCTCCGAGCAATGTCGGCGTT
TATGGAAAGAGATCGGTCGAAGCGAATTGGCGCGATCAGCTTTGAGAGCT
TCACATCGCATATGTTCTTTGCCGACATCGACTTTGTCGCTCTGGAGTCG
AAGGAAATCCCGCCCGTGTTCCGTCCGTCCAGCGACAAGACCAACTTTGA
CGCCACATATGACTTGGAGGAACTACTCTTGGAGGAGGCGCCGCTCGAGG
CCAGAGCTCGCCGGCAAAAACCGAGAGCCGAGTTGCGGGAGGATGCGACG
GCCAAGGAGATCCGCGAGGACGAACTGCACCGTCTGATTGAGACGATGTT
TGAGCCCTTCGATTATACCAAGGTGAACTACGTTGGCAACGCTGCGGATG
CGATTGCCGCATCAACAAATCCAGAAGAATGCTTGCCGATCCACCAAACG
CAGTCGTCGCATTCCCGACAAGTCTCACAGCCAGACCTCTCCAGAAATTC
GCCTCCCCTCCGAAACGATGGCTCTGTCAGTCACTTGACTCAGCCTGACA
CCCCGTCCCCTCTCAGCGAAACCCCCACCTCGCAAGCGTCGCTACCTCCT
CCACCCCCGCCGCCGGCCCCGCCTTTCCACCGTCCTTTGCCACCTACTGC
CGTGCGGCCGCGGGGCGCGACCCGGAAACAAAGTAAGGGTGGAGGGGTAC
AGATGGTGTTGGAAGAAGCAGGTAGCTGGAGCGAGCTTGCGGATCATAGC
TCTACACTGCCTGCCGAAGGCTACGATACCGGGTCAGTCAAGGGGAAGGG
CTCCAATAGCGGCATGCTCGCTTTCCTCAGCAGGAAGAAGGGGCGCGATA
GGAGCCCGAAGCCCCAGGAGCCCGGCGTGCTGGGTAAAGAAGGCGCCCGG
CAGATTATCAGCTGAATGGGAAACTCGCAAGGGAAACAGGTGGCCTCCAC
CGATGAATTGAACTTGAATCAGTTTCGTCTGTTGCGAGTGGTTGGAAAAG
GTGCTTTCGGCAAGGTTCGTATCGTGGAGAAGAAAGACACCGGATTGACG
TTCGCGCTGAAATACATTCGGAAAGAAGAAGTCGTCCGGTCGGAAAGCGT
ACGAAATATCATCCGAGAACGGCGGATGCTCGAGCACCTCAACCATGCCT
TTCTTTGCAACTTGAGATACAGCTTCCAAGACATTGAATATATTTACATT
GTGGTGGATTTGATGAATGGCGGTGACCTCCGGTTCCATATTTCGCGGAA
ATGTTTCACGGAGGAGGCTGTGAGATTCTGGATTGCTGAGCTGGGTTGCG
CTCTGAGGTACATTCACTCGCAGGGAATCATCCATCGTGACGTCAAGCCA
GACAATATCCTGCTTGACTCGGAGGGGCATGTTCATTTGGCCGATTTTAA
CGTCGCCTCCGACTTTCGACCCGGAAAACCTCTCACTAGTAAATCCGGAA
CACTGGCGTACCTTGCTCCGGAAGTATACGAAGGCGGCGGATACTACTGC
GAAGTTGATTGGTGGTCACTTGGAGTTACATTTTACGAATGTATTTACAA
CAAGCGCCCATTCGAAGGTCGGAGCCAGGACGTCCTCAGCGAAAACATCA
AAAAGGCGCAACCGAAGTACTACGTCACCAACCCCGCGGTCTCCGTTCCC
TGCCTCCGAGCAATGTCGGCGTTTATGGAAAGAGATCGGTCGAAGCGAAT
TGGCGCGATCAGCTTTGAGAGCTTCACATCGCATATGTTCTTTGCCGACA
TCGACTTTGTCGCTCTGGAGTCGAAGGAAATCCCGCCCGTGTTCCGTCCG
TCCAGCGACAAGACCAACTTTGACGCCACATATGACTTGGAGGAACTACT
CTTGGAGGAGGCGCCGCTCGAGGCCAGAGCTCGCCGGCAAAAACCGAGAG
CCGAGTTGCGGGAGGATGCGACGGCCAAGGAGATCCGCGAGGACGAACTG
CACCGTCTGATTGAGACGATGTTTGAGCCCTTCGATTATACCAAGGTGAA
CTACGTTGGCAACGCTGCGGATGCGATTGCCGCATCAACAAATCCAGAAG
AATGCTTGCCGATCCACCAAACGCAGTCGTCGCATTCCCGACAAGTCTCA
CAGCCAGACCTCTCCAGAAATTCGCCTCCCCTCCGAAACGATGGCTCTGT
CAGTCACTTGACTCAGCCTGACACCCCGTCCCCTCTCAGCGAAACCCCCA
CCTCGCAAGCGTCGCTACCTCCTCCACCCCCGCCGCCGGCCCCGCCTTTC
CACCGTCCTTTGCCACCTACTGCCGTGCGGCCGCGGGGCGCGACCCGGAA
ACAAAGTAAGGGTGGAGGGGTACAGATGGTGTTGGAAGAAGCAGGTAGCT
GGAGCGAGCTTGCGGATCATAGCTCTACACTGCCTGCCGAAGGCTACGAT
ACCGGGTCAGTCAAGGGGAAGGGCTCCAATAGCGGCATGCTCGCTTTCCT
CAGCAGGAAGAAGGGGCGCGATAGGAGCCCGAAGCCCCAGGAGCCCGGCG
TGCTGGGTAAAGAAGGCGCCCGGCAGATTATCAGCTGAATGGGAAACTCG
CAAGGGAAACAGGTGGCCTCCACCGATGAATTGAACTTGAATCAGTTTCG
TCTGTTGCGAGTGGTTGGAAAAGGTGCTTTCGGCAAGGTTCGTATCGTGG
AGAAGAAAGACACCGGATTGACGTTCGCGCTGAAATACATTCGGAAAGAA
GAAGTCGTCCGGTCGGAAAGCGTACGAAATATCATCCGAGAACGGCGGAT
GCTCGAGCACCTCAACCATGCCTTTCTTTGCAACTTGAGATACAGCTTCC
AAGACATTGAATATATTTACATTGTGGTGGATTTGATGAATGGCGGTGAC
CTCCGGTTCCATATTTCGCGGAAATGTTTCACGGAGGAGGCTGTGAGATT
CTGGATTGCTGAGCTGGGTTGCGCTCTGAGGTACATTCACTCGCAGGGAA
TCATCCATCGTGACGTCAAGCCAGACAATATCCTGCTTGACTCGGAGGGG
CATGTTCATTTGGCCGATTTTAACGTCGCCTCCGACTTTCGACCCGGAAA
ACCTCTCACTAGTAAATCCGGAACACTGGCGTACCTTGCTCCGGAAGTAT
ACGAAGGCGGCGGATACTACTGCGAAGTTGATTGGTGGTCACTTGGAGTT
ACATTTTACGAATGTATTTACAACAAGCGCCCATTCGAAGGTCGGAGCCA
GGACGTCCTCAGCGAAAACATCAAAAAGGCGCAACCGAAGTACTACGTCA
CCAACCCCGCGGTCTCCGTTCCCTGCCTCCGAGCAATGTCGGCGTTTATG
GAAAGAGATCGGTCGAAGCGAATTGGCGCGATCAGCTTTGAGAGCTTCAC
ATCGCATATGTTCTTTGCCGACATCGACTTTGTCGCTCTGGAGTCGAAGG
AAATCCCGCCCGTGTTCCGTCCGTCCAGCGACAAGACCAACTTTGACGCC
ACATATGACTTGGAGGAACTACTCTTGGAGGAGGCGCCGCTCGAGGCCAG
AGCTCGCCGGCAAAAACCGAGAGCCGAGTTGCGGGAGGATGCGACGGCCA
AGGAGATCCGCGAGGACGAACTGCACCGTCTGATTGAGACGATGTTTGAG
CCCTTCGATTATACCAAGGTGAACTACGTTGGCAACGCTGCGGATGCGAT
TGCCGCATCAACAAATCCAGAAGAATGCTTGCCGATCCACCAAACGCAGT
CGTCGCATTCCCGACAAGTCTCACAGCCAGACCTCTCCAGAAATTCGCCT
CCCCTCCGAAACGATGGCTCTGTCAGTCACTTGACTCAGCCTGACACCCC
GTCCCCTCTCAGCGAAACCCCCACCTCGCAAGCGTCGCTACCTCCTCCAC
CCCCGCCGCCGGCCCCGCCTTTCCACCGTCCTTTGCCACCTACTGCCGTG
CGGCCGCGGGGCGCGACCCGGAAACAAAGTAAGGGTGGAGGGGTACAGAT
GGTGTTGGAAGAAGCAGGTAGCTGGAGCGAGCTTGCGGATCATAGCTCTA
CACTGCCTGCCGAAGGCTACGATACCGGGTCAGTCAAGGGGAAGGGCTCC
AATAGCGGCATGCTCGCTTTCCTCAGCAGGAAGAAGGGGCGCGATAGGAG
CCCGAAGCCCCAGGAGCCCGGCGTGCTGGGTAAAGAAGGCGCCCGGCAGA
TTATCAGCTGAATGGGAAACTCGCAAGGGAAACAGGTGGCCTCCACCGAT
GAATTGAACTTGAATCAGTTTCGTCTGTTGCGAGTGGTTGGAAAAGGTGC
TTTCGGCAAGGTTCGTATCGTGGAGAAGAAAGACACCGGATTGACGTTCG
CGCTGAAATACATTCGGAAAGAAGAAGTCGTCCGGTCGGAAAGCGTACGA
AATATCATCCGAGAACGGCGGATGCTCGAGCACCTCAACCATGCCTTTCT
TTGCAACTTGAGATACAGCTTCCAAGACATTGAATATATTTACATTGTGG
TGGATTTGATGAATGGCGGTGACCTCCGGTTCCATATTTCGCGGAAATGT
TTCACGGAGGAGGCTGTGAGATTCTGGATTGCTGAGCTGGGTTGCGCTCT
GAGGTACATTCACTCGCAGGGAATCATCCATCGTGACGTCAAGCCAGACA
ATATCCTGCTTGACTCGGAGGGGCATGTTCATTTGGCCGATTTTAACGTC
GCCTCCGACTTTCGACCCGGAAAACCTCTCACTAGTAAATCCGGAACACT
GGCGTACCTTGCTCCGGAAGTATACGAAGGCGGCGGATACTACTGCGAAG
TTGATTGGTGGTCACTTGGAGTTACATTTTACGAATGTATTTACAACAAG
CGCCCATTCGAAGGTCGGAGCCAGGACGTCCTCAGCGAAAACATCAAAAA
GGCGCAACCGAAGTACTACGTCACCAACCCCGCGGTCTCCGTTCCCTGCC
TCCGAGCAATGTCGGCGTTTATGGAAAGAGATCGGTCGAAGCGAATTGGC
GCGATCAGCTTTGAGAGCTTCACATCGCATATGTTCTTTGCCGACATCGA
CTTTGTCGCTCTGGAGTCGAAGGAAATCCCGCCCGTGTTCCGTCCGTCCA
GCGACAAGACCAACTTTGACGCCACATATGACTTGGAGGAACTACTCTTG
GAGGAGGCGCCGCTCGAGGCCAGAGCTCGCCGGCAAAAACCGAGAGCCGA
GTTGCGGGAGGATGCGACGGCCAAGGAGATCCGCGAGGACGAACTGCACC
GTCTGATTGAGACGATGTTTGAGCCCTTCGATTATACCAAGGTGAACTAC
GTTGGCAACGCTGCGGATGCGATTGCCGCATCAACAAATCCAGAAGAATG
CTTGCCGATCCACCAAACGCAGTCGTCGCATTCCCGACAAGTCTCACAGC
CAGACCTCTCCAGAAATTCGCCTCCCCTCCGAAACGATGGCTCTGTCAGT
CACTTGACTCAGCCTGACACCCCGTCCCCTCTCAGCGAAACCCCCACCTC
GCAAGCGTCGCTACCTCCTCCACCCCCGCCGCCGGCCCCGCCTTTCCACC
GTCCTTTGCCACCTACTGCCGTGCGGCCGCGGGGCGCGACCCGGAAACAA
AGTAAGGGTGGAGGGGTACAGATGGTGTTGGAAGAAGCAGGTAGCTGGAG
CGAGCTTGCGGATCATAGCTCTACACTGCCTGCCGAAGGCTACGATACCG
GGTCAGTCAAGGGGAAGGGCTCCAATAGCGGCATGCTCGCTTTCCTCAGC
AGGAAGAAGGGGCGCGATAGGAGCCCGAAGCCCCAGGAGCCCGGCGTGCT
GGGTAAAGAAGGCGCCCGGCAGATTATCAGCTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006468 | protein phosphorylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
| GO:0004672 | protein kinase activity |
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 | antiSMASH:Cluster_10000021.14 |
| Note | SMCOG1030:serine/threonine protein kinase |
| DBxref | InterPro:IPR011009 |
| DBxref | InterPro:IPR008271 |
| DBxref | InterPro:IPR017441 |
| DBxref | InterPro:IPR000719 |
| DBxref | PFAM:PF07714 |
| DBxref | PFAM:PF00069 |
| Product | Protein kinase domain 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 | NKJJ01000002.1:1831284..1833309 + |
|
