CAN33_7555-T1, CAN33_7555-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_7555-T1
Unique Name	CAN33_7555-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:2464193..2466107-
coding sequence from alignment at NKJJ01000019.1:2464193..2466107-

mRNA from alignment at NKJJ01000019.1:2464193..2466107-

Legend: polypeptideCDSexon

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

>CAN33_7555-T1 ID=CAN33_7555-T1|Name=CAN33_7555-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1915bp|location=Sequence derived from alignment at NKJJ01000019.1:2464193..2466107- (Aspergillus niger FDAARGOS_311)
ATGGCAGTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCAT
TTCCACCGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTG
TCGTGGGATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGA
GGCATTCCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATG
GAAGCGCTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGGTGA
GTGCCGCCTTACATGTTAACAGCTGCTGTTTTGCTGCTCACCATAATTCA
CCCGGATTAGTACACAAAAGCAGGGAAACCTTATGCGATCCGGATGCAGA
ATGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGGAGG
TCTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGGTAAC
ACCCGTCATAACTTTACACCATGCACAAGTCAGCGGCCTTATCGCTAAGA
GACGCACAGTTTGCGGATATGAACATGTACTGCGACGTCACGGACAGGAC
ACCCATTGAAGCTGTTCATAGTTGCAACAACGCTGAATCATTAAGTACGA
AGTCACACGGGAAACGAGTGATGTAACAAGCTAATCCTTTGTGATATTGC
GCAGACATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATC
TCAGATTTTCGAGCAGCCTACAGGAAAAGGTGAGCAGGAGAAGAACAACG
GTCGAAAGCCAAAGTTCCCTTGCTTACAACACCAGCAGACTGGAAGGAAT
TGAACACACTGCAGACAATCCTCTCCTTATGCTCAACGGTTACTATGGCC
TTGCTCCTCGGACCAGATACAGCCCCTGACCCGGTGCTCCACCACCATTC
GACGTCTTTTGGCGAAGCAATTATGAGCAGTTGTTATCGACGAACGGGAT
ATCCGCGCATCCTGCGGCCATTCGTGTGGCGCTTTTCGTCCGAATGCCGA
AATCTGAGGAAACACTTATCTCTCGTGAGAGAGAGACTTGTTCCTGAGGT
TGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGATAAAACCAAGGACGTAC
GCCCATCTTCATTGTTGGACGCACTGATCGCGGCGGCCTTCGACAACGGC
AGCTTAAGCCCAGATGACCAAGGCAGAAATGATGCAGCACAGGTACAGTT
GCTGGCAGATGATCTCATTTTCTACCATTTCGAACTCTGTAAACCGACCG
CATTCAACATCATCTTCCAGCTGTATGCCATCATGGACCACCCAGAGTAC
AAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCCTTGAAGCTCACCAATGG
TGACTGGACCGTTGAAACTCTGAAGCACGCTCCCAAGTTAGAAAGCTTTA
CAAAGGAGACCTTTCGACTGTACGATATCTCCGGTTGTCAGTTCTCCCTC
TCTGTCCCAAGACAAAAATAAAATACCCCCAATTGACATGAAATAGTTGT
CAGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCCTGT
CTCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCATTTG
GATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTTCTA
CGACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGCTCA
CGTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTTCTC
GCTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTACGA
CGTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTGGTC
CGGTCTATATGCCTAATCCATCAGTGATGATGAGAATCCGGCCAAGAAGT
GACGGGAAGTAGTGA

Coding sequence (CDS) from alignment at NKJJ01000019.1:2464193..2466107-

>CAN33_7555-T1 ID=CAN33_7555-T1|Name=CAN33_7555-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10836bp|location=Sequence derived from alignment at NKJJ01000019.1:2464193..2466107- (Aspergillus niger FDAARGOS_311)
TGATTGTCAGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATC
GGCCTGTCTCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGT
CCATTTGGATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACC
GCTTCTACGACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACC
TCGCTCACGTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCG
GGTTCTCGCTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGC
AGTACGACGTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACC
AGTGGTCCGACTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTA
TGCTCAACGGTTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGA
CCCGGTGCTCCACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCA
GTTGTTATCGACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGG
CGCTTTTCGTCCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAG
AGAGAGACTTGTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGG
CGGATAAAACCAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATC
GCGGCGGCCTTCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAA
TGATGCAGCACAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATT
TCGAACTCTGTAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCC
ATCATGGACCACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCA
AGCCTTGAAGCTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACG
CTCCCAAGTTAGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATC
TCCGGTTACATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTT
ATCTCAGATTTTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATG
TACTGCGACGTCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAA
CAACGCTGAATCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGG
ATGCAGAATGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGA
ATGGAGGTCTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAG
AGATGGCAGTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGC
ATTTCCACCGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGC
TGTCGTGGGATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGA
GAGGCATTCCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGA
TGGAAGCGCTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTG
ATTGTCAGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGG
CCTGTCTCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCC
ATTTGGATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGC
TTCTACGACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTC
GCTCACGTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGG
TTCTCGCTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAG
TACGACGTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAG
TGGTCCGACTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATG
CTCAACGGTTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACC
CGGTGCTCCACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGT
TGTTATCGACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCG
CTTTTCGTCCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAG
AGAGACTTGTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCG
GATAAAACCAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGC
GGCGGCCTTCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATG
ATGCAGCACAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTC
GAACTCTGTAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCAT
CATGGACCACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAG
CCTTGAAGCTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCT
CCCAAGTTAGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTC
CGGTTACATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTAT
CTCAGATTTTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTA
CTGCGACGTCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACA
ACGCTGAATCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGAT
GCAGAATGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAAT
GGAGGTCTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAG
ATGGCAGTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCAT
TTCCACCGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTG
TCGTGGGATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGA
GGCATTCCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATG
GAAGCGCTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTGAT
TGTCAGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCC
TGTCTCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCAT
TTGGATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTT
CTACGACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGC
TCACGTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTT
CTCGCTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTA
CGACGTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTG
GTCCGACTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATGCT
CAACGGTTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACCCG
GTGCTCCACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGTTG
TTATCGACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCGCT
TTTCGTCCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAGAG
AGACTTGTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGA
TAAAACCAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGCGG
CGGCCTTCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATGAT
GCAGCACAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTCGA
ACTCTGTAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCATCA
TGGACCACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCC
TTGAAGCTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCTCC
CAAGTTAGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTCCG
GTTACATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATCT
CAGATTTTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTACT
GCGACGTCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACAAC
GCTGAATCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGATGC
AGAATGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGG
AGGTCTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGAT
GGCAGTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCATTT
CCACCGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTGTC
GTGGGATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGAGG
CATTCCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATGGA
AGCGCTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTGATTG
TCAGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCCTG
TCTCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCATTT
GGATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTTCT
ACGACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGCTC
ACGTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTTCT
CGCTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTACG
ACGTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTGGT
CCGACTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATGCTCA
ACGGTTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACCCGGT
GCTCCACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGTTGTT
ATCGACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCGCTTT
TCGTCCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAGAGAG
ACTTGTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGATA
AAACCAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGCGGCG
GCCTTCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATGATGC
AGCACAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTCGAAC
TCTGTAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCATCATG
GACCACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCCTT
GAAGCTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCTCCCA
AGTTAGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTCCGGT
TACATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATCTCA
GATTTTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTACTGC
GACGTCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACAACGC
TGAATCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGATGCAG
AATGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGGAG
GTCTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGATGG
CAGTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCATTTCC
ACCGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTGTCGT
GGGATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGAGGCA
TTCCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATGGAAG
CGCTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTGATTGTC
AGCTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCCTGTC
TCTTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCATTTGG
ATCCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTTCTAC
GACTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGCTCAC
GTTCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTTCTCG
CTACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTACGAC
GTAGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTGGTCC
GACTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATGCTCAAC
GGTTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACCCGGTGC
TCCACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGTTGTTAT
CGACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCGCTTTTC
GTCCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAGAGAGAC
TTGTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGATAAA
ACCAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGCGGCGGC
CTTCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATGATGCAG
CACAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTCGAACTC
TGTAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCATCATGGA
CCACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCCTTGA
AGCTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCTCCCAAG
TTAGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTCCGGTTA
CATCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATCTCAGA
TTTTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTACTGCGA
CGTCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACAACGCTG
AATCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGATGCAGAA
TGATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGGAGGT
CTCTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGATGGCA
GTTCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCATTTCCAC
CGGCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTGTCGTGG
GATCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGAGGCATT
CCGATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATGGAAGCG
CTTCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTGATTGTCAG
CTTTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCCTGTCTC
TTCGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCATTTGGAT
CCCGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTTCTACGA
CTCCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGCTCACGT
TCTTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTTCTCGCT
ACTCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTACGACGT
AGAACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTGGTCCGA
CTGGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATGCTCAACGG
TTACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACCCGGTGCTC
CACCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGTTGTTATCG
ACGAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCGCTTTTCGT
CCGAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAGAGAGACTT
GTTCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGATAAAAC
CAAGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGCGGCGGCCT
TCGACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATGATGCAGCA
CAGGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTCGAACTCTG
TAAACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCATCATGGACC
ACCCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCCTTGAAG
CTCACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCTCCCAAGTT
AGAAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTCCGGTTACA
TCCTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATCTCAGATT
TTCGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTACTGCGACG
TCACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACAACGCTGAA
TCATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGATGCAGAATG
ATAATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGGAGGTCT
CTACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGATGGCAGT
TCATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCATTTCCACCG
GCCCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTGTCGTGGGA
TCCGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGAGGCATTCC
GATTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATGGAAGCGCT
TCGATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAGTGATTGTCAGCT
TTCGCCGTGTCATGAAACCTCTTACTCTAAACTCCATCGGCCTGTCTCTT
CGTCCCGGTACAATCTTATTGTCTCCATGTCGGAATGTCCATTTGGATCC
CGAGATCTATGAAGACCCGACAACTTTCAATGGCTACCGCTTCTACGACT
CCAGCCGCGAGGTCTGCTCTCCACGCGTGGCAACCACCTCGCTCACGTTC
TTGACATTTTCTCATGGAGCGGGCAGCTGTCCCGCGCGGGTTCTCGCTAC
TCAAATTTGTCGGACGATCTTCATCAAGTTCCTGTTGCAGTACGACGTAG
AACCTGTGCAGAAGGAGATACTACCCTATGGATTCACCAGTGGTCCGACT
GGAAGGAATTGAACACACTGCAGACAATCCTCTCCTTATGCTCAACGGTT
ACTATGGCCTTGCTCCTCGGACCAGATACAGCCCCTGACCCGGTGCTCCA
CCACCATTCGACGTCTTTTGGCGAAGCAATTATGAGCAGTTGTTATCGAC
GAACGGGATATCCGCGCATCCTGCGGCCATTCGTGTGGCGCTTTTCGTCC
GAATGCCGAAATCTGAGGAAACACTTATCTCTCGTGAGAGAGAGACTTGT
TCCTGAGGTTGCGCGCCGTGTCGCAGCTGCACGAGCGGCGGATAAAACCA
AGGACGTACGCCCATCTTCATTGTTGGACGCACTGATCGCGGCGGCCTTC
GACAACGGCAGCTTAAGCCCAGATGACCAAGGCAGAAATGATGCAGCACA
GGTACAGTTGCTGGCAGATGATCTCATTTTCTACCATTTCGAACTCTGTA
AACCGACCGCATTCAACATCATCTTCCAGCTGTATGCCATCATGGACCAC
CCAGAGTACAAGGCTCCTCTCCGAGAGGAGGCACTCCAAGCCTTGAAGCT
CACCAATGGTGACTGGACCGTTGAAACTCTGAAGCACGCTCCCAAGTTAG
AAAGCTTTACAAAGGAGACCTTTCGACTGTACGATATCTCCGGTTACATC
CTCAATAAGCTTCTCGCCCGGGAAACCGATACAGCCTTATCTCAGATTTT
CGAGCAGCCTACAGGAAAAGTTTGCGGATATGAACATGTACTGCGACGTC
ACGGACAGGACACCCATTGAAGCTGTTCATAGTTGCAACAACGCTGAATC
ATTAATACACAAAAGCAGGGAAACCTTATGCGATCCGGATGCAGAATGAT
AATTATGGCATTGTGCTTCCCTTAAACTCAGCAAAGGAATGGAGGTCTCT
ACCACACGACCAGCTGAGCTTTCTTCAAGCCTTGGCAGAGATGGCAGTTC
ATGTACCATTCAGCATCCACCACGTCGTGGATATCGGCATTTCCACCGGC
CCGGTAGTCATTGTCCTCGTTCTCCTATTCGGGTTGGCTGTCGTGGGATC
CGACAGCCTTGATGGATGGTGGCAGAAAAGAGCCTTGAGAGGCATTCCGA
TTGTAGACGAGGGTAGCTACATGCGGCCAAAGCTACGATGGAAGCGCTTC
GATGCGGAGAAAGAGTATGCGAGAGCATATCAGCAG

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:0020037	heme binding
GO:0004497	monooxygenase activity
GO:0005506	iron ion binding
GO:0016705	oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_7555	CAN33_7555	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_7555-T1	CAN33_7555-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_7555-T1.cds	CAN33_7555-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_7555-T1.exon7	CAN33_7555-T1.exon7	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon6	CAN33_7555-T1.exon6	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon5	CAN33_7555-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon4	CAN33_7555-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon3	CAN33_7555-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon2	CAN33_7555-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_7555-T1.exon1	CAN33_7555-T1.exon1	Aspergillus niger FDAARGOS_311	exon

Properties


Property Name	Value
Note	antiSMASH:Cluster_10000191.8
Note	SMCOG1034:cytochrome P450
DBxref	InterPro:IPR036396
DBxref	InterPro:IPR001128
DBxref	InterPro:IPR002403
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
NKJJ01000019.1	supercontig	NKJJ01000019.1:2464193..2466107 -

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CAN33_7555-T1, CAN33_7555-T1 (mRNA) Aspergillus niger FDAARGOS_311