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CAN33_29150-T1, CAN33_29150-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_29150-T1
Unique NameCAN33_29150-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000008.1:592759..594374+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_29150-T1 ID=CAN33_29150-T1|Name=CAN33_29150-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1616bp|location=Sequence derived from alignment at NKJJ01000008.1:592759..594374+ (Aspergillus niger FDAARGOS_311)
ATGGCCGTCACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGAT
ACCCCGGCAAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGT
TGTTCTTGTCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAA
GAGCTGTCAGAAGCATGGATCTCTAGGTGCATATCGCCCCCTAATGTGGG
CATCACCTTTCTCTAACCTAGCCACCGCCATGACAGGGAATGCTACTTTG
ATGAAAGAGGCCGAAGGCGACTACAAAAGACGGACTTCGCTTATTTCTGT
TCCATCGCAGCTCCAGATGCTGAGCCCGAAGAGTTGCGGACAGTTATTGA
CTGGGGAAACTGGGTGCGTTTCATAACCACGACCGACCGCATAAAGTTCC
ACTGACTAGATCTAACCATTATTTCCCAAGCAGGTGTTCCCTTTTGATGA
CCGTAAGCACCATCTCTCTTGGAAGGCTTCTGTGTGATGACTGAGCTTCG
ATTCTAGTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGTGCCCA
AATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGGGCAGA
GGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAGTATGG
CACCGAATCACTCAGGTACGTTGATCATTATACTGTACTGGGAGTGCATA
TTGACGTCTGACGGTATTGCAGGCTCAACCTATCGGTATGTAGCGCTGGG
ATTCCTCTACACACTTTAGGGTATCTGCTAACGTCGTTTAAGGGATTCGT
CGCAGGTTTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCA
AGTACGCTCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCT
GTCTGCGTAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAG
TATGTTATGACGTCTGCTTGCCTGTGAATGACACTAACTTGAGGGATATT
GCAGATATGCCCACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAG
AGCATCCAAGAGATCGAGAGGATTGGTACTGACCTCGTGTTACTGTAGGC
TGCCCCAACACATCACCCAACATCTGAATTCACTAACGTATCCTAGGCAA
AACGACCTACTATCATACTGCAAAGAAGAGGTTAGTTGTCTACATTGAAA
TACCAGCTCTGACCCGCATGACTTACAAAAGAATACAGAAAGAAGGTGTG
AGCCATAACTTAGTGGCCATCTGCCGTCACAATGGCATGCCAGCGCAGGT
AGCGTTTAATCATGTCGGCGAAATGCTCATTGAGCGCTACCGAGACTGGT
ACCTTGCTTTGGCAGCACTGCCAACCTGGGGGGAACGGGTCGATGCAGAT
GTTCAAGAATACATCCGAGGCGTGCAGAATGTCGTTCGCGCTAATCTTCA
CTGGAGGTAGGTGTTGACTAGCGATCTTTGTTACCCAAAATACTCACGAT
GATGCCATAGCTTCCGGTCCGGGCGATACTTTGGGAAAGCAAACGACCAA
GTGCGGAAGACCGGAATGGTGACTGTGCGGGGCAACAACGCCGACTTCAA
GCTGTCTATGGCGTAG
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Coding sequence (CDS) from alignment at NKJJ01000008.1:592759..594374+

>CAN33_29150-T1 ID=CAN33_29150-T1|Name=CAN33_29150-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10980bp|location=Sequence derived from alignment at NKJJ01000008.1:592759..594374+ (Aspergillus niger FDAARGOS_311)
ATGGCCGTCACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGAT
ACCCCGGCAAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGT
TGTTCTTGTCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAA
GAGCTGTCAGAAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGG
CCGAAGGCGACTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAG
CTCCAGATGCTGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAAC
TGGGTGTTCCCTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGA
CCCAGAACGTGCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCG
ACGAAGCTGGGCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTG
CACAACTCAGTATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCG
TCGCAGGTTTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTC
AAGTACGCTCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTC
TGTCTGCGTAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGA
ATATGCCCACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCA
TCCAAGAGATCGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGAC
CTACTATCATACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGT
GGCCATCTGCCGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATG
TCGGCGAAATGCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCA
GCACTGCCAACCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACAT
CCGAGGCGTGCAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGT
CCGGGCGATACTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATG
GTGACTGTGCGGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGAT
GGCCGTCACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATAC
CCCGGCAAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTG
TTCTTGTCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGA
GCTGTCAGAAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCC
GAAGGCGACTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCT
CCAGATGCTGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTG
GGTGTTCCCTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACC
CAGAACGTGCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGAC
GAAGCTGGGCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCA
CAACTCAGTATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTC
GCAGGTTTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAA
GTACGCTCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTG
TCTGCGTAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAAT
ATGCCCACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATC
CAAGAGATCGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCT
ACTATCATACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGG
CCATCTGCCGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTC
GGCGAAATGCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGC
ACTGCCAACCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCC
GAGGCGTGCAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCC
GGGCGATACTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGT
GACTGTGCGGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGG
CCGTCACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCC
CGGCAAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTT
CTTGTCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGC
TGTCAGAAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGA
AGGCGACTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCC
AGATGCTGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGG
TGTTCCCTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCA
GAACGTGCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGA
AGCTGGGCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACA
ACTCAGTATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGC
AGGTTTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGT
ACGCTCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTC
TGCGTAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATAT
GCCCACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCA
AGAGATCGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTAC
TATCATACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCC
ATCTGCCGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGG
CGAAATGCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCAC
TGCCAACCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGA
GGCGTGCAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGG
GCGATACTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGA
CTGTGCGGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCC
GTCACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCG
GCAAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCT
TGTCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTG
TCAGAAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAG
GCGACTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAG
ATGCTGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTG
TTCCCTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGA
ACGTGCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAG
CTGGGCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAAC
TCAGTATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAG
GTTTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTAC
GCTCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTG
CGTAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGC
CCACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAG
AGATCGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTA
TCATACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCAT
CTGCCGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCG
AAATGCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTG
CCAACCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGG
CGTGCAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGC
GATACTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACT
GTGCGGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGT
CACAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGC
AAGATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTG
TCGGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTC
AGAAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGC
GACTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGAT
GCTGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTT
CCCTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAAC
GTGCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCT
GGGCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTC
AGTATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGT
TTGCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGC
TCATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCG
TAGGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCC
ACAAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAG
ATCGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATC
ATACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCT
GCCGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAA
ATGCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCC
AACCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCG
TGCAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGA
TACTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGT
GCGGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGTCA
CAAGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGCAA
GATACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTGTC
GGGCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTCAG
AAGCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGCGA
CTACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGATGC
TGAGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTTCC
CTTTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGT
GCCCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGG
GCAGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAG
TATGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGTTT
GCACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGCTC
ATGCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCGTA
GGCAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCCAC
AAACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAGAT
CGAGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATCAT
ACTGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCTGC
CGTCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAAAT
GCTCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCCAA
CCTGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCGTG
CAGAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGATA
CTTTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGTGC
GGGGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGTCACA
AGAGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGCAAGA
TACTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTGTCGG
GCGAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTCAGAA
GCATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGCGACT
ACAAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGATGCTG
AGCCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTTCCCT
TTTGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGTGC
CCAAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGGGC
AGAGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAGTA
TGGCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGTTTGC
ACGTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGCTCAT
GCTCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCGTAGG
CAGTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCCACAA
ACTAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAGATCG
AGAGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATCATAC
TGCAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCTGCCG
TCACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAAATGC
TCATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCCAACC
TGGGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCGTGCA
GAATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGATACT
TTGGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGTGCGG
GGCAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGTCACAAG
AGTCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGCAAGATA
CTTCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTGTCGGGC
GAACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTCAGAAGC
ATGGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGCGACTAC
AAAAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGATGCTGAG
CCCGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTTCCCTTT
TGATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGTGCCC
AAATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGGGCAG
AGGCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAGTATG
GCACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGTTTGCAC
GTGCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGCTCATGC
TCCAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCGTAGGCA
GTCTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCCACAAAC
TAGATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAGATCGAG
AGGATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATCATACTG
CAAAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCTGCCGTC
ACAATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAAATGCTC
ATTGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCCAACCTG
GGGGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCGTGCAGA
ATGTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGATACTTT
GGGAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGTGCGGGG
CAACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGTCACAAGAG
TCCAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGCAAGATACT
TCTCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTGTCGGGCGA
ACCTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTCAGAAGCAT
GGATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGCGACTACAA
AAGACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGATGCTGAGCC
CGAAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTTCCCTTTTG
ATGACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGTGCCCAA
ATACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGGGCAGAG
GCCAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAGTATGGC
ACCGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGTTTGCACGT
GCCATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGCTCATGCTC
CAAGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCGTAGGCAGT
CTGCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCCACAAACTA
GATATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAGATCGAGAG
GATTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATCATACTGCA
AAGAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCTGCCGTCAC
AATGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAAATGCTCAT
TGAGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCCAACCTGGG
GGGAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCGTGCAGAAT
GTCGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGATACTTTGG
GAAAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGTGCGGGGCA
ACAACGCCGACTTCAAGCTGTCTATGGCGTAGATGGCCGTCACAAGAGTC
CAGCAGAGTATATCTTCGCCAACAGTCAAGATACCCCGGCAAGATACTTC
TCTCACCATCCGCCTCCCTGAAATGTTCGTGTTGTTCTTGTCGGGCGAAC
CTATAGTAAATCGGCACTATAAGTCTGTGAAAGAGCTGTCAGAAGCATGG
ATCTCTAGGGAATGCTACTTTGATGAAAGAGGCCGAAGGCGACTACAAAA
GACGGACTTCGCTTATTTCTGTTCCATCGCAGCTCCAGATGCTGAGCCCG
AAGAGTTGCGGACAGTTATTGACTGGGGAAACTGGGTGTTCCCTTTTGAT
GACCTCTTCGATAATGGAAGCCTCAAGGACGACCCAGAACGTGCCCAAAT
ACTTGTTGAGGATTTGCGAGCAGGCATGGCCGACGAAGCTGGGCAGAGGC
CAGTACTCTCAGATTACCCAATAGTACAGGTGCACAACTCAGTATGGCAC
CGAATCACTCAGGCTCAACCTATCGGGATTCGTCGCAGGTTTGCACGTGC
CATGAATGACTACTGCACCGGATGCTTGGCTCAAGTACGCTCATGCTCCA
AGGGAGAGTTGCCCTCGCTTGAAGAAATGCTCTGTCTGCGTAGGCAGTCT
GCAGGTGTTTCGCCGCTCTTTGCCTTAGTAGAATATGCCCACAAACTAGA
TATCCCAGATCATGTGTTTGAATGCAAGAGCATCCAAGAGATCGAGAGGA
TTGGTACTGACCTCGTGTTACTGCAAAACGACCTACTATCATACTGCAAA
GAAGAGAAAGAAGGTGTGAGCCATAACTTAGTGGCCATCTGCCGTCACAA
TGGCATGCCAGCGCAGGTAGCGTTTAATCATGTCGGCGAAATGCTCATTG
AGCGCTACCGAGACTGGTACCTTGCTTTGGCAGCACTGCCAACCTGGGGG
GAACGGGTCGATGCAGATGTTCAAGAATACATCCGAGGCGTGCAGAATGT
CGTTCGCGCTAATCTTCACTGGAGCTTCCGGTCCGGGCGATACTTTGGGA
AAGCAAACGACCAAGTGCGGAAGACCGGAATGGTGACTGTGCGGGGCAAC
AACGCCGACTTCAAGCTGTCTATGGCGTAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0000287magnesium ion binding
GO:0016829lyase activity
GO:0010333terpene synthase activity
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
CAN33_29150CAN33_29150Aspergillus niger FDAARGOS_311gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
CAN33_29150-T1CAN33_29150-T1-proteinAspergillus niger FDAARGOS_311polypeptide


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CAN33_29150-T1.exon1CAN33_29150-T1.exon1Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon2CAN33_29150-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon3CAN33_29150-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon4CAN33_29150-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon5CAN33_29150-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon6CAN33_29150-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon7CAN33_29150-T1.exon7Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon8CAN33_29150-T1.exon8Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon9CAN33_29150-T1.exon9Aspergillus niger FDAARGOS_311exon
CAN33_29150-T1.exon10CAN33_29150-T1.exon10Aspergillus niger FDAARGOS_311exon


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CAN33_29150-T1.cdsCAN33_29150-T1.cdsAspergillus niger FDAARGOS_311CDS


Properties
Property NameValue
NoteantiSMASH:Cluster_10000081.6
NoteEggNog:ENOG41
NoteSMCOG1052:Terpene synthase/cyclase metal-binding domain protein
DBxrefInterPro:IPR034686
DBxrefInterPro:IPR008949
DBxrefInterPro:IPR005630
ProductTerpene synthase family metal binding domain family protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger FDAARGOS_311 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
NKJJ01000008.1supercontigNKJJ01000008.1:592759..594374 +
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