CAN33_31290-T1, CAN33_31290-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_31290-T1
Unique Name	CAN33_31290-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000003.1:995908..997956-
coding sequence from alignment at NKJJ01000003.1:995908..997956-

mRNA from alignment at NKJJ01000003.1:995908..997956-

Legend: polypeptideCDSexon

Hold the cursor over a type above to highlight its positions in the sequence below.

>CAN33_31290-T1 ID=CAN33_31290-T1|Name=CAN33_31290-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2049bp|location=Sequence derived from alignment at NKJJ01000003.1:995908..997956- (Aspergillus niger FDAARGOS_311)
ATGAGTATCTTAACTGCGGTCGCGTTCACCTGCCTAATCCTCCTACCTGT
CTACCTCCTCATCAATCACCAAATCGCCTCTCTCCCCCTTCCCCCCGGAC
CCAAAGGCAAGCCCATCATCGGCAACCTATCCGACCTGCCACCCCCAGAT
ACCCCAGAATGGCAGCACTGGCTAGAACACAAAAAGCGCTACGGTAGCCA
CCTCCACCATCACAACCATCAAGAAGCCCTAACAATCAATCCCCCTCCGC
AGGCCCAATAACCTCCGTCACCATCCTCAACCAACCCATCATTATTCTTC
ACGATGCCCAAATAGCCATCGAACTCCTCGAAAAACGCTCCCTCAAGTAC
TCTTCCCGATCACAGACAGTTTTCGTCGGAGAAATGTAAGTTTTCCCCCC
ACCTATCACCCTTCTATCCACAACCATCCCTAACAAGATGAGATGATACA
GGATCGGATGGAAAGACACTCTGGGCATGCAGCCTTACAATGCGCGATTT
CGCGCATACCGTAAAGCCATGCATCAAGTCCTGGGAACAAAAGCCCTCGT
ATCGAAGTTCAATACGCTGCAGGAGCTCGAAGCGAGACGGTTATTGCGTC
GTATGTTAGAGGATCCGGGGGAGTGGGTACAGCATTTGAAGACGTATATT
CCCTCCAAGCCTTCTTTTATTAAAATATTACTTTGGAGTTTGACATTACT
GTGAAGAACTAAACGAAATAATATGATAGGGAAGCCGGCGCCATCATCCT
CAAAATCGGCTACGGGTACGACATCAACCCGCACGGGAGGGATAAATTAG
TCGATTTGGCGGATGACTCGATGGAGACTTTTTCGGCGGTGATGAATCAG
GTGTGGTTGGTGGATCTGGTGCCTGTTTGTATGATTCTCCTCTTTCCTCT
GTCCTTGGTGCCTTTGTTCTCTTCACATCGAAAAAAATGGGATTATACTG
ATATACATGGAAAGTGAAATACCTCCCCTCCTGGTTGCCCTTCTCTGCTC
AACGAAAAAGCCAGTTCTGGCGTACGCAACTCCTCACTACCATCGAGACG
CCGTACAGGATGGTGCGGGAGCAGATGGCATCTGGAATAGCACCTCCGTC
CTACTTGAGTAATCTCCTCCAGGAGGAGGATACCAAGGAGGAAAAGACCC
TCACGGCAGAAGAAGAATTCACAGCGAAGTGGACAGCGGGCTCACTATAT
ATAGCTGGCGCTGATACGGTAAGATATCCATCTCATCCCCGTCCCCATCC
CCATTCGTATATTTCTACGTTCCCCAGCAATTATCTAAAAGATGGTATAG
ACAGTATCAGCCCTCCGCACATTCATCCTCAGCATGGCCCTGAACCCCGC
CATTCAGGAAAAAGCCCAAGCCGAACTCGACACAGTCTTAGGCCCGCACA
CTCTCCCCAAACTCTCTGACCGGGATAAACTACCCTATGTGAACGCCGTC
GTGAAAGAATCTCTCCGGTGGTACCCGGTTGGTCCGATGGGAATACCGCA
TCTTTGTGTAGAGGAGGATGTGTATGATGGGTATAGGATTCCCAAGGGGG
CGATAGTGATGGGGAATATCTGGTATACTTATCTCACTTCCTTCTTTTCA
GAAGGGGAATAGAAAAGCGTGATGTGTGCTGATGTGTCTGCAGGGCAATA
ACCCACGATCCGAATATCTACCCACATCCGGAAAAGTTCGATCCTGAGCG
GTTCCTGGGTGAGAACCCCCAGCCGGATCCGTCTGGTTGGGTGTTTGGGT
TCGGGAGGAGAGTGTGTCCCGGACGGGTGTTGGCGGATGCGAGTGTTTTT
GTGACGGTCGGGATGGTGTTGAGTGCCATGAGGATTTCGTTGGAGAAGGG
GGATGGGGAGAGAGAAGAGGTGAGGTTCACGCCTGGAGTGGTCAGTCATC
CTGTTTTGGCGGGGCTGAAGGTGGAAGCGAGGAGTGCGAGGCATGAGGGG
GTTATTAGGGAGGTTAGTATATAGCATCCTTCGGTATCAGGGTATAATGA
TAATGGTTGTTGGGGTGGGGATTTGTTCGTAGTCTAAACAATAGTGTAG

Coding sequence (CDS) from alignment at NKJJ01000003.1:995908..997956-

>CAN33_31290-T1 ID=CAN33_31290-T1|Name=CAN33_31290-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11904bp|location=Sequence derived from alignment at NKJJ01000003.1:995908..997956- (Aspergillus niger FDAARGOS_311)
TGTAGGGCAATAACCCACGATCCGAATATCTACCCACATCCGGAAAAGTT
CGATCCTGAGCGGTTCCTGGGTGAGAACCCCCAGCCGGATCCGTCTGGTT
GGGTGTTTGGGTTCGGGAGGAGAGTGTGTCCCGGACGGGTGTTGGCGGAT
GCGAGTGTTTTTGTGACGGTCGGGATGGTGTTGAGTGCCATGAGGATTTC
GTTGGAGAAGGGGGATGGGGAGAGAGAAGAGGTGAGGTTCACGCCTGGAG
TGGTCAGTCATCCTGTTTTGGCGGGGCTGAAGGTGGAAGCGAGGAACAGT
ATCAGCCCTCCGCACATTCATCCTCAGCATGGCCCTGAACCCCGCCATTC
AGGAAAAAGCCCAAGCCGAACTCGACACAGTCTTAGGCCCGCACACTCTC
CCCAAACTCTCTGACCGGGATAAACTACCCTATGTGAACGCCGTCGTGAA
AGAATCTCTCCGGTGGTACCCGGTTGGTCCGATGGGAATACCGCATCTTT
GTGTAGAGGAGGATGTGTATGATGGGTATAGGATTCCCAAGGGGGCGATA
GTGATGGGGAATATCTGTGAAATACCTCCCCTCCTGGTTGCCCTTCTCTG
CTCAACGAAAAAGCCAGTTCTGGCGTACGCAACTCCTCACTACCATCGAG
ACGCCGTACAGGATGGTGCGGGAGCAGATGGCATCTGGAATAGCACCTCC
GTCCTACTTGAGTAATCTCCTCCAGGAGGAGGATACCAAGGAGGAAAAGA
CCCTCACGGCAGAAGAAGAATTCACAGCGAAGTGGACAGCGGGCTCACTA
TATATAGCTGGCGCTGATACGGGAAGCCGGCGCCATCATCCTCAAAATCG
GCTACGGGTACGACATCAACCCGCACGGGAGGGATAAATTAGTCGATTTG
GCGGATGACTCGATGGAGACTTTTTCGGCGGTGATGAATCAGGTGTGGTT
GGTGGATCTGGTGCCTGTTTGATCGGATGGAAAGACACTCTGGGCATGCA
GCCTTACAATGCGCGATTTCGCGCATACCGTAAAGCCATGCATCAAGTCC
TGGGAACAAAAGCCCTCGTATCGAAGTTCAATACGCTGCAGGAGCTCGAA
GCGAGACGGTTATTGCGTCGTATGTTAGAGGATCCGGGGGAGTGGGTACA
GCATTTGAAGACGCCCAATAACCTCCGTCACCATCCTCAACCAACCCATC
ATTATTCTTCACGATGCCCAAATAGCCATCGAACTCCTCGAAAAACGCTC
CCTCAAGTACTCTTCCCGATCACAGACAGTTTTCGTCGGAGAAATATGAG
TATCTTAACTGCGGTCGCGTTCACCTGCCTAATCCTCCTACCTGTCTACC
TCCTCATCAATCACCAAATCGCCTCTCTCCCCCTTCCCCCCGGACCCAAA
GGCAAGCCCATCATCGGCAACCTATCCGACCTGCCACCCCCAGATACCCC
AGAATGGCAGCACTGGCTAGAACACAAAAAGCGCTACGTGTAGGGCAATA
ACCCACGATCCGAATATCTACCCACATCCGGAAAAGTTCGATCCTGAGCG
GTTCCTGGGTGAGAACCCCCAGCCGGATCCGTCTGGTTGGGTGTTTGGGT
TCGGGAGGAGAGTGTGTCCCGGACGGGTGTTGGCGGATGCGAGTGTTTTT
GTGACGGTCGGGATGGTGTTGAGTGCCATGAGGATTTCGTTGGAGAAGGG
GGATGGGGAGAGAGAAGAGGTGAGGTTCACGCCTGGAGTGGTCAGTCATC
CTGTTTTGGCGGGGCTGAAGGTGGAAGCGAGGAACAGTATCAGCCCTCCG
CACATTCATCCTCAGCATGGCCCTGAACCCCGCCATTCAGGAAAAAGCCC
AAGCCGAACTCGACACAGTCTTAGGCCCGCACACTCTCCCCAAACTCTCT
GACCGGGATAAACTACCCTATGTGAACGCCGTCGTGAAAGAATCTCTCCG
GTGGTACCCGGTTGGTCCGATGGGAATACCGCATCTTTGTGTAGAGGAGG
ATGTGTATGATGGGTATAGGATTCCCAAGGGGGCGATAGTGATGGGGAAT
ATCTGTGAAATACCTCCCCTCCTGGTTGCCCTTCTCTGCTCAACGAAAAA
GCCAGTTCTGGCGTACGCAACTCCTCACTACCATCGAGACGCCGTACAGG
ATGGTGCGGGAGCAGATGGCATCTGGAATAGCACCTCCGTCCTACTTGAG
TAATCTCCTCCAGGAGGAGGATACCAAGGAGGAAAAGACCCTCACGGCAG
AAGAAGAATTCACAGCGAAGTGGACAGCGGGCTCACTATATATAGCTGGC
GCTGATACGGGAAGCCGGCGCCATCATCCTCAAAATCGGCTACGGGTACG
ACATCAACCCGCACGGGAGGGATAAATTAGTCGATTTGGCGGATGACTCG
ATGGAGACTTTTTCGGCGGTGATGAATCAGGTGTGGTTGGTGGATCTGGT
GCCTGTTTGATCGGATGGAAAGACACTCTGGGCATGCAGCCTTACAATGC
GCGATTTCGCGCATACCGTAAAGCCATGCATCAAGTCCTGGGAACAAAAG
CCCTCGTATCGAAGTTCAATACGCTGCAGGAGCTCGAAGCGAGACGGTTA
TTGCGTCGTATGTTAGAGGATCCGGGGGAGTGGGTACAGCATTTGAAGAC
GCCCAATAACCTCCGTCACCATCCTCAACCAACCCATCATTATTCTTCAC
GATGCCCAAATAGCCATCGAACTCCTCGAAAAACGCTCCCTCAAGTACTC
TTCCCGATCACAGACAGTTTTCGTCGGAGAAATATGAGTATCTTAACTGC
GGTCGCGTTCACCTGCCTAATCCTCCTACCTGTCTACCTCCTCATCAATC
ACCAAATCGCCTCTCTCCCCCTTCCCCCCGGACCCAAAGGCAAGCCCATC
ATCGGCAACCTATCCGACCTGCCACCCCCAGATACCCCAGAATGGCAGCA
CTGGCTAGAACACAAAAAGCGCTACGTGTAGGGCAATAACCCACGATCCG
AATATCTACCCACATCCGGAAAAGTTCGATCCTGAGCGGTTCCTGGGTGA
GAACCCCCAGCCGGATCCGTCTGGTTGGGTGTTTGGGTTCGGGAGGAGAG
TGTGTCCCGGACGGGTGTTGGCGGATGCGAGTGTTTTTGTGACGGTCGGG
ATGGTGTTGAGTGCCATGAGGATTTCGTTGGAGAAGGGGGATGGGGAGAG
AGAAGAGGTGAGGTTCACGCCTGGAGTGGTCAGTCATCCTGTTTTGGCGG
GGCTGAAGGTGGAAGCGAGGAACAGTATCAGCCCTCCGCACATTCATCCT
CAGCATGGCCCTGAACCCCGCCATTCAGGAAAAAGCCCAAGCCGAACTCG
ACACAGTCTTAGGCCCGCACACTCTCCCCAAACTCTCTGACCGGGATAAA
CTACCCTATGTGAACGCCGTCGTGAAAGAATCTCTCCGGTGGTACCCGGT
TGGTCCGATGGGAATACCGCATCTTTGTGTAGAGGAGGATGTGTATGATG
GGTATAGGATTCCCAAGGGGGCGATAGTGATGGGGAATATCTGTGAAATA
CCTCCCCTCCTGGTTGCCCTTCTCTGCTCAACGAAAAAGCCAGTTCTGGC
GTACGCAACTCCTCACTACCATCGAGACGCCGTACAGGATGGTGCGGGAG
CAGATGGCATCTGGAATAGCACCTCCGTCCTACTTGAGTAATCTCCTCCA
GGAGGAGGATACCAAGGAGGAAAAGACCCTCACGGCAGAAGAAGAATTCA
CAGCGAAGTGGACAGCGGGCTCACTATATATAGCTGGCGCTGATACGGGA
AGCCGGCGCCATCATCCTCAAAATCGGCTACGGGTACGACATCAACCCGC
ACGGGAGGGATAAATTAGTCGATTTGGCGGATGACTCGATGGAGACTTTT
TCGGCGGTGATGAATCAGGTGTGGTTGGTGGATCTGGTGCCTGTTTGATC
GGATGGAAAGACACTCTGGGCATGCAGCCTTACAATGCGCGATTTCGCGC
ATACCGTAAAGCCATGCATCAAGTCCTGGGAACAAAAGCCCTCGTATCGA
AGTTCAATACGCTGCAGGAGCTCGAAGCGAGACGGTTATTGCGTCGTATG
TTAGAGGATCCGGGGGAGTGGGTACAGCATTTGAAGACGCCCAATAACCT
CCGTCACCATCCTCAACCAACCCATCATTATTCTTCACGATGCCCAAATA
GCCATCGAACTCCTCGAAAAACGCTCCCTCAAGTACTCTTCCCGATCACA
GACAGTTTTCGTCGGAGAAATATGAGTATCTTAACTGCGGTCGCGTTCAC
CTGCCTAATCCTCCTACCTGTCTACCTCCTCATCAATCACCAAATCGCCT
CTCTCCCCCTTCCCCCCGGACCCAAAGGCAAGCCCATCATCGGCAACCTA
TCCGACCTGCCACCCCCAGATACCCCAGAATGGCAGCACTGGCTAGAACA
CAAAAAGCGCTACGTGTAGGGCAATAACCCACGATCCGAATATCTACCCA
CATCCGGAAAAGTTCGATCCTGAGCGGTTCCTGGGTGAGAACCCCCAGCC
GGATCCGTCTGGTTGGGTGTTTGGGTTCGGGAGGAGAGTGTGTCCCGGAC
GGGTGTTGGCGGATGCGAGTGTTTTTGTGACGGTCGGGATGGTGTTGAGT
GCCATGAGGATTTCGTTGGAGAAGGGGGATGGGGAGAGAGAAGAGGTGAG
GTTCACGCCTGGAGTGGTCAGTCATCCTGTTTTGGCGGGGCTGAAGGTGG
AAGCGAGGAACAGTATCAGCCCTCCGCACATTCATCCTCAGCATGGCCCT
GAACCCCGCCATTCAGGAAAAAGCCCAAGCCGAACTCGACACAGTCTTAG
GCCCGCACACTCTCCCCAAACTCTCTGACCGGGATAAACTACCCTATGTG
AACGCCGTCGTGAAAGAATCTCTCCGGTGGTACCCGGTTGGTCCGATGGG
AATACCGCATCTTTGTGTAGAGGAGGATGTGTATGATGGGTATAGGATTC
CCAAGGGGGCGATAGTGATGGGGAATATCTGTGAAATACCTCCCCTCCTG
GTTGCCCTTCTCTGCTCAACGAAAAAGCCAGTTCTGGCGTACGCAACTCC
TCACTACCATCGAGACGCCGTACAGGATGGTGCGGGAGCAGATGGCATCT
GGAATAGCACCTCCGTCCTACTTGAGTAATCTCCTCCAGGAGGAGGATAC
CAAGGAGGAAAAGACCCTCACGGCAGAAGAAGAATTCACAGCGAAGTGGA
CAGCGGGCTCACTATATATAGCTGGCGCTGATACGGGAAGCCGGCGCCAT
CATCCTCAAAATCGGCTACGGGTACGACATCAACCCGCACGGGAGGGATA
AATTAGTCGATTTGGCGGATGACTCGATGGAGACTTTTTCGGCGGTGATG
AATCAGGTGTGGTTGGTGGATCTGGTGCCTGTTTGATCGGATGGAAAGAC
ACTCTGGGCATGCAGCCTTACAATGCGCGATTTCGCGCATACCGTAAAGC
CATGCATCAAGTCCTGGGAACAAAAGCCCTCGTATCGAAGTTCAATACGC
TGCAGGAGCTCGAAGCGAGACGGTTATTGCGTCGTATGTTAGAGGATCCG
GGGGAGTGGGTACAGCATTTGAAGACGCCCAATAACCTCCGTCACCATCC
TCAACCAACCCATCATTATTCTTCACGATGCCCAAATAGCCATCGAACTC
CTCGAAAAACGCTCCCTCAAGTACTCTTCCCGATCACAGACAGTTTTCGT
CGGAGAAATATGAGTATCTTAACTGCGGTCGCGTTCACCTGCCTAATCCT
CCTACCTGTCTACCTCCTCATCAATCACCAAATCGCCTCTCTCCCCCTTC
CCCCCGGACCCAAAGGCAAGCCCATCATCGGCAACCTATCCGACCTGCCA
CCCCCAGATACCCCAGAATGGCAGCACTGGCTAGAACACAAAAAGCGCTA
CGTGTAGGGCAATAACCCACGATCCGAATATCTACCCACATCCGGAAAAG
TTCGATCCTGAGCGGTTCCTGGGTGAGAACCCCCAGCCGGATCCGTCTGG
TTGGGTGTTTGGGTTCGGGAGGAGAGTGTGTCCCGGACGGGTGTTGGCGG
ATGCGAGTGTTTTTGTGACGGTCGGGATGGTGTTGAGTGCCATGAGGATT
TCGTTGGAGAAGGGGGATGGGGAGAGAGAAGAGGTGAGGTTCACGCCTGG
AGTGGTCAGTCATCCTGTTTTGGCGGGGCTGAAGGTGGAAGCGAGGAACA
GTATCAGCCCTCCGCACATTCATCCTCAGCATGGCCCTGAACCCCGCCAT
TCAGGAAAAAGCCCAAGCCGAACTCGACACAGTCTTAGGCCCGCACACTC
TCCCCAAACTCTCTGACCGGGATAAACTACCCTATGTGAACGCCGTCGTG
AAAGAATCTCTCCGGTGGTACCCGGTTGGTCCGATGGGAATACCGCATCT
TTGTGTAGAGGAGGATGTGTATGATGGGTATAGGATTCCCAAGGGGGCGA
TAGTGATGGGGAATATCTGTGAAATACCTCCCCTCCTGGTTGCCCTTCTC
TGCTCAACGAAAAAGCCAGTTCTGGCGTACGCAACTCCTCACTACCATCG
AGACGCCGTACAGGATGGTGCGGGAGCAGATGGCATCTGGAATAGCACCT
CCGTCCTACTTGAGTAATCTCCTCCAGGAGGAGGATACCAAGGAGGAAAA
GACCCTCACGGCAGAAGAAGAATTCACAGCGAAGTGGACAGCGGGCTCAC
TATATATAGCTGGCGCTGATACGGGAAGCCGGCGCCATCATCCTCAAAAT
CGGCTACGGGTACGACATCAACCCGCACGGGAGGGATAAATTAGTCGATT
TGGCGGATGACTCGATGGAGACTTTTTCGGCGGTGATGAATCAGGTGTGG
TTGGTGGATCTGGTGCCTGTTTGATCGGATGGAAAGACACTCTGGGCATG
CAGCCTTACAATGCGCGATTTCGCGCATACCGTAAAGCCATGCATCAAGT
CCTGGGAACAAAAGCCCTCGTATCGAAGTTCAATACGCTGCAGGAGCTCG
AAGCGAGACGGTTATTGCGTCGTATGTTAGAGGATCCGGGGGAGTGGGTA
CAGCATTTGAAGACGCCCAATAACCTCCGTCACCATCCTCAACCAACCCA
TCATTATTCTTCACGATGCCCAAATAGCCATCGAACTCCTCGAAAAACGC
TCCCTCAAGTACTCTTCCCGATCACAGACAGTTTTCGTCGGAGAAATATG
AGTATCTTAACTGCGGTCGCGTTCACCTGCCTAATCCTCCTACCTGTCTA
CCTCCTCATCAATCACCAAATCGCCTCTCTCCCCCTTCCCCCCGGACCCA
AAGGCAAGCCCATCATCGGCAACCTATCCGACCTGCCACCCCCAGATACC
CCAGAATGGCAGCACTGGCTAGAACACAAAAAGCGCTACGTGTAGGGCAA
TAACCCACGATCCGAATATCTACCCACATCCGGAAAAGTTCGATCCTGAG
CGGTTCCTGGGTGAGAACCCCCAGCCGGATCCGTCTGGTTGGGTGTTTGG
GTTCGGGAGGAGAGTGTGTCCCGGACGGGTGTTGGCGGATGCGAGTGTTT
TTGTGACGGTCGGGATGGTGTTGAGTGCCATGAGGATTTCGTTGGAGAAG
GGGGATGGGGAGAGAGAAGAGGTGAGGTTCACGCCTGGAGTGGTCAGTCA
TCCTGTTTTGGCGGGGCTGAAGGTGGAAGCGAGGAACAGTATCAGCCCTC
CGCACATTCATCCTCAGCATGGCCCTGAACCCCGCCATTCAGGAAAAAGC
CCAAGCCGAACTCGACACAGTCTTAGGCCCGCACACTCTCCCCAAACTCT
CTGACCGGGATAAACTACCCTATGTGAACGCCGTCGTGAAAGAATCTCTC
CGGTGGTACCCGGTTGGTCCGATGGGAATACCGCATCTTTGTGTAGAGGA
GGATGTGTATGATGGGTATAGGATTCCCAAGGGGGCGATAGTGATGGGGA
ATATCTGTGAAATACCTCCCCTCCTGGTTGCCCTTCTCTGCTCAACGAAA
AAGCCAGTTCTGGCGTACGCAACTCCTCACTACCATCGAGACGCCGTACA
GGATGGTGCGGGAGCAGATGGCATCTGGAATAGCACCTCCGTCCTACTTG
AGTAATCTCCTCCAGGAGGAGGATACCAAGGAGGAAAAGACCCTCACGGC
AGAAGAAGAATTCACAGCGAAGTGGACAGCGGGCTCACTATATATAGCTG
GCGCTGATACGGGAAGCCGGCGCCATCATCCTCAAAATCGGCTACGGGTA
CGACATCAACCCGCACGGGAGGGATAAATTAGTCGATTTGGCGGATGACT
CGATGGAGACTTTTTCGGCGGTGATGAATCAGGTGTGGTTGGTGGATCTG
GTGCCTGTTTGATCGGATGGAAAGACACTCTGGGCATGCAGCCTTACAAT
GCGCGATTTCGCGCATACCGTAAAGCCATGCATCAAGTCCTGGGAACAAA
AGCCCTCGTATCGAAGTTCAATACGCTGCAGGAGCTCGAAGCGAGACGGT
TATTGCGTCGTATGTTAGAGGATCCGGGGGAGTGGGTACAGCATTTGAAG
ACGCCCAATAACCTCCGTCACCATCCTCAACCAACCCATCATTATTCTTC
ACGATGCCCAAATAGCCATCGAACTCCTCGAAAAACGCTCCCTCAAGTAC
TCTTCCCGATCACAGACAGTTTTCGTCGGAGAAATATGAGTATCTTAACT
GCGGTCGCGTTCACCTGCCTAATCCTCCTACCTGTCTACCTCCTCATCAA
TCACCAAATCGCCTCTCTCCCCCTTCCCCCCGGACCCAAAGGCAAGCCCA
TCATCGGCAACCTATCCGACCTGCCACCCCCAGATACCCCAGAATGGCAG
CACTGGCTAGAACACAAAAAGCGCTACGTGTAGGGCAATAACCCACGATC
CGAATATCTACCCACATCCGGAAAAGTTCGATCCTGAGCGGTTCCTGGGT
GAGAACCCCCAGCCGGATCCGTCTGGTTGGGTGTTTGGGTTCGGGAGGAG
AGTGTGTCCCGGACGGGTGTTGGCGGATGCGAGTGTTTTTGTGACGGTCG
GGATGGTGTTGAGTGCCATGAGGATTTCGTTGGAGAAGGGGGATGGGGAG
AGAGAAGAGGTGAGGTTCACGCCTGGAGTGGTCAGTCATCCTGTTTTGGC
GGGGCTGAAGGTGGAAGCGAGGAACAGTATCAGCCCTCCGCACATTCATC
CTCAGCATGGCCCTGAACCCCGCCATTCAGGAAAAAGCCCAAGCCGAACT
CGACACAGTCTTAGGCCCGCACACTCTCCCCAAACTCTCTGACCGGGATA
AACTACCCTATGTGAACGCCGTCGTGAAAGAATCTCTCCGGTGGTACCCG
GTTGGTCCGATGGGAATACCGCATCTTTGTGTAGAGGAGGATGTGTATGA
TGGGTATAGGATTCCCAAGGGGGCGATAGTGATGGGGAATATCTGTGAAA
TACCTCCCCTCCTGGTTGCCCTTCTCTGCTCAACGAAAAAGCCAGTTCTG
GCGTACGCAACTCCTCACTACCATCGAGACGCCGTACAGGATGGTGCGGG
AGCAGATGGCATCTGGAATAGCACCTCCGTCCTACTTGAGTAATCTCCTC
CAGGAGGAGGATACCAAGGAGGAAAAGACCCTCACGGCAGAAGAAGAATT
CACAGCGAAGTGGACAGCGGGCTCACTATATATAGCTGGCGCTGATACGG
GAAGCCGGCGCCATCATCCTCAAAATCGGCTACGGGTACGACATCAACCC
GCACGGGAGGGATAAATTAGTCGATTTGGCGGATGACTCGATGGAGACTT
TTTCGGCGGTGATGAATCAGGTGTGGTTGGTGGATCTGGTGCCTGTTTGA
TCGGATGGAAAGACACTCTGGGCATGCAGCCTTACAATGCGCGATTTCGC
GCATACCGTAAAGCCATGCATCAAGTCCTGGGAACAAAAGCCCTCGTATC
GAAGTTCAATACGCTGCAGGAGCTCGAAGCGAGACGGTTATTGCGTCGTA
TGTTAGAGGATCCGGGGGAGTGGGTACAGCATTTGAAGACGCCCAATAAC
CTCCGTCACCATCCTCAACCAACCCATCATTATTCTTCACGATGCCCAAA
TAGCCATCGAACTCCTCGAAAAACGCTCCCTCAAGTACTCTTCCCGATCA
CAGACAGTTTTCGTCGGAGAAATATGAGTATCTTAACTGCGGTCGCGTTC
ACCTGCCTAATCCTCCTACCTGTCTACCTCCTCATCAATCACCAAATCGC
CTCTCTCCCCCTTCCCCCCGGACCCAAAGGCAAGCCCATCATCGGCAACC
TATCCGACCTGCCACCCCCAGATACCCCAGAATGGCAGCACTGGCTAGAA
CACAAAAAGCGCTACGTGTAGGGCAATAACCCACGATCCGAATATCTACC
CACATCCGGAAAAGTTCGATCCTGAGCGGTTCCTGGGTGAGAACCCCCAG
CCGGATCCGTCTGGTTGGGTGTTTGGGTTCGGGAGGAGAGTGTGTCCCGG
ACGGGTGTTGGCGGATGCGAGTGTTTTTGTGACGGTCGGGATGGTGTTGA
GTGCCATGAGGATTTCGTTGGAGAAGGGGGATGGGGAGAGAGAAGAGGTG
AGGTTCACGCCTGGAGTGGTCAGTCATCCTGTTTTGGCGGGGCTGAAGGT
GGAAGCGAGGAACAGTATCAGCCCTCCGCACATTCATCCTCAGCATGGCC
CTGAACCCCGCCATTCAGGAAAAAGCCCAAGCCGAACTCGACACAGTCTT
AGGCCCGCACACTCTCCCCAAACTCTCTGACCGGGATAAACTACCCTATG
TGAACGCCGTCGTGAAAGAATCTCTCCGGTGGTACCCGGTTGGTCCGATG
GGAATACCGCATCTTTGTGTAGAGGAGGATGTGTATGATGGGTATAGGAT
TCCCAAGGGGGCGATAGTGATGGGGAATATCTGTGAAATACCTCCCCTCC
TGGTTGCCCTTCTCTGCTCAACGAAAAAGCCAGTTCTGGCGTACGCAACT
CCTCACTACCATCGAGACGCCGTACAGGATGGTGCGGGAGCAGATGGCAT
CTGGAATAGCACCTCCGTCCTACTTGAGTAATCTCCTCCAGGAGGAGGAT
ACCAAGGAGGAAAAGACCCTCACGGCAGAAGAAGAATTCACAGCGAAGTG
GACAGCGGGCTCACTATATATAGCTGGCGCTGATACGGGAAGCCGGCGCC
ATCATCCTCAAAATCGGCTACGGGTACGACATCAACCCGCACGGGAGGGA
TAAATTAGTCGATTTGGCGGATGACTCGATGGAGACTTTTTCGGCGGTGA
TGAATCAGGTGTGGTTGGTGGATCTGGTGCCTGTTTGATCGGATGGAAAG
ACACTCTGGGCATGCAGCCTTACAATGCGCGATTTCGCGCATACCGTAAA
GCCATGCATCAAGTCCTGGGAACAAAAGCCCTCGTATCGAAGTTCAATAC
GCTGCAGGAGCTCGAAGCGAGACGGTTATTGCGTCGTATGTTAGAGGATC
CGGGGGAGTGGGTACAGCATTTGAAGACGCCCAATAACCTCCGTCACCAT
CCTCAACCAACCCATCATTATTCTTCACGATGCCCAAATAGCCATCGAAC
TCCTCGAAAAACGCTCCCTCAAGTACTCTTCCCGATCACAGACAGTTTTC
GTCGGAGAAATATGAGTATCTTAACTGCGGTCGCGTTCACCTGCCTAATC
CTCCTACCTGTCTACCTCCTCATCAATCACCAAATCGCCTCTCTCCCCCT
TCCCCCCGGACCCAAAGGCAAGCCCATCATCGGCAACCTATCCGACCTGC
CACCCCCAGATACCCCAGAATGGCAGCACTGGCTAGAACACAAAAAGCGC
TACG

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0055114	oxidation-reduction process

Vocabulary: **Molecular Function**
Term	Definition
GO:0016705	oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:0020037	heme binding
GO:0005506	iron ion binding

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_31290	CAN33_31290	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_31290-T1	CAN33_31290-T1-protein	Aspergillus niger FDAARGOS_311	polypeptide

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


Feature Name	Unique Name	Species	Type
CAN33_31290-T1.cds	CAN33_31290-T1.cds	Aspergillus niger FDAARGOS_311	CDS

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


Feature Name	Unique Name	Species	Type
CAN33_31290-T1.exon8	CAN33_31290-T1.exon8	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon7	CAN33_31290-T1.exon7	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon6	CAN33_31290-T1.exon6	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon5	CAN33_31290-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon4	CAN33_31290-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon3	CAN33_31290-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon2	CAN33_31290-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_31290-T1.exon1	CAN33_31290-T1.exon1	Aspergillus niger FDAARGOS_311	exon

Properties


Property Name	Value
Note	SECRETED:SignalP(1-27)
DBxref	InterPro:IPR017972
DBxref	InterPro:IPR036396
DBxref	InterPro:IPR002401
DBxref	InterPro:IPR001128
DBxref	PFAM:PF00067
Product	Cytochrome P450 family protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger FDAARGOS_311 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
NKJJ01000003.1	supercontig	NKJJ01000003.1:995908..997956 -

Main menu

You are here

CAN33_31290-T1, CAN33_31290-T1 (mRNA) Aspergillus niger FDAARGOS_311

Main menu

User login

You are here

CAN33_31290-T1, CAN33_31290-T1 (mRNA) Aspergillus niger FDAARGOS_311