CAN33_45375-T1, CAN33_45375-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_45375-T1
Unique Name	CAN33_45375-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000022.1:1982829..1984843+
coding sequence from alignment at NKJJ01000022.1:1982829..1984843+

mRNA from alignment at NKJJ01000022.1:1982829..1984843+

Legend: polypeptideexonCDS

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

>CAN33_45375-T1 ID=CAN33_45375-T1|Name=CAN33_45375-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2015bp|location=Sequence derived from alignment at NKJJ01000022.1:1982829..1984843+ (Aspergillus niger FDAARGOS_311)
ATGTTCGCCCAAACTATTCTTCTGATCCTCCTGCCTCTGGTTGTTTCTTA
CTTCATAACCCGGATCCGCTACTCCCGCTTCAAGAAGTATGCTGACTGGC
CGCAACTACCCACCTCCCTCGTCTGGGGACACATGAAAGCGCTCCACGAG
TTTATTGTCCGAGGTGAGGAGAAAAGACACATCGGTAGGCTGAACTAAAC
CCCTCATCGTTGTATGAATAGGATGGGTATAGTTGACGATAACACCGTCG
ACCAGACATCGTGTTTGGCGAAATCCAGGAACATTTGGGGAATCCTCCTC
TCATGTTTTTCGATCTCCGGCCTGTACAGTTTCGGCTGTGTGTGGTCGGA
AGTCATGAGATCGCAGAACAAGTCTCCCGGAGTACCAAGAGTTTTCCGTA
TAGTATGCAGAAGTCGCCAACTATGGGCGCGCTGGAGCCTTTGTTGGGCC
CGTATTCCATTATCACGCAGGAGGTAAGTCCATACTCACCGGCTTGATTT
GTATATTCTCTTAAGATAACAAATGCCATTAGGGGGAACACTGGAAGGGT
CTACGCAAGCGGTTTAACCCAGGATTTGCGCCTCAGCATCTCATTACCTT
GCTGCCATGTATCTTGGACAAGGCGATACAGTTCACTGATATTCTTGACG
CGTACGCTCGTAGCGGAGAGGAACTTTCCCTCGATGAGAGATGCGTCAGC
CTTACCTTTGATATCATCGGTAGGCCACACAACTATCTCAATGTGGCACG
CTTTTGTTCTAACTACTCCCCAGGCGCAGTAACCATGGACAAAGACTTCC
ATGCCCAGCTCGACCGCAGCAAACAAGATGAACTCGTCCGCCTCTACCGT
GAGCTAACGACCTCATACCGTAGCGGTAGCGGTATACAGTGGGGCTGGCT
GGACGTCCGAGTATTGTGGCGCCGTCGAGTCCTGACCCGACGCATCGATC
ATCTGATATCTGAGCATATCAAGACAAAGTTTGACGAACTCAAGTCCAAG
TCGACGGAGAAACGCTCCCGGAGTGTTCTCTCCCTAAGTCTACAGGACAT
CGACCAACTAAATACCCGTGTCATCCAGGAGACATGCCACCAGCTCAAGA
GCTTCCTTTTCGCTGGCCACGATACCACCAGTATCGTATTGCAGTGGTCC
TTCTATGTCCTCAGCCGCACCCCACGCGTGCTGGATAAACTCCGCCGCGA
GCTAGACGACCTTTTCGGACCAGATCCGTCCCCGGCAGCCGTGCAAGAGA
AATTACTTGCCCCGGGCGGAGACGACCTCCTAAAGCGGATGTCCTACACT
TCTGCTGTGATCAAAGAAATTCTGCGGTTATACCCACCATCAGGTTCCGC
AAGGTACATGCCACCCGGCACAGGATTCACCGTGCAGTTACCAGACGGGA
AGACGCTCTGTCTAGATGGAGTGGTCGTATATAACAACTCGACACTCGTT
CATCGGGACGAGAAAGTTTACGGACCGACAAAAGATGAATTTATCCCAGA
GCGGTGGTTGGGAGACGCAGATACTGGTCTAGGATTATCCACGGATAATG
TAGAGGATAAGGGGAATGGTCCGGTCGCAACCGCTTGTATTCCCGCCAGC
GCGTGGAGGCCATTCGAGCGCGGCCCGCGCAACTGTATTGGTCAAGAGCT
AGCCAACCTGGAGGCCCGGGTAATCCTGGCGTGTACGGTCCGGCGCTTCG
ATTTCGAGAAGGTGGGGGTGGGCGCAATTGCGCGGGATGCGACTGGGGCG
CCTATCTTGGATGCCAAGGGGCAGTATGAGGTGGAGTCAGAGTTGTTTAA
TGTAAGTTCTCGTCGATTTTCTAGTCGTGGGCATCGTGGCTTACTTTGGT
TTCCAGACTATGCAGGTCACCGCGAAGCCTATTGATGGAACAGTAGTGAA
GGTTCATCTTGCTGAGAGAGCTAGCTAATTTTAAGACTGATGGGTGGTAT
TGCAGGTGGGTGCTATTAGCGATGCTCTTCTTGGCCCTCTTTTCTTGCTA
CTAATCGCTGTATAA

Coding sequence (CDS) from alignment at NKJJ01000022.1:1982829..1984843+

>CAN33_45375-T1 ID=CAN33_45375-T1|Name=CAN33_45375-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10332bp|location=Sequence derived from alignment at NKJJ01000022.1:1982829..1984843+ (Aspergillus niger FDAARGOS_311)
ATGTTCGCCCAAACTATTCTTCTGATCCTCCTGCCTCTGGTTGTTTCTTA
CTTCATAACCCGGATCCGCTACTCCCGCTTCAAGAAGTATGCTGACTGGC
CGCAACTACCCACCTCCCTCGTCTGGGGACACATGAAAGCGCTCCACGAG
TTTATTGTCCGAGGTGAGGAGAAAAGACACATCGACATCGTGTTTGGCGA
AATCCAGGAACATTTGGGGAATCCTCCTCTCATGTTTTTCGATCTCCGGC
CTGTACAGTTTCGGCTGTGTGTGGTCGGAAGTCATGAGATCGCAGAACAA
GTCTCCCGGAGTACCAAGAGTTTTCCGTATAGTATGCAGAAGTCGCCAAC
TATGGGCGCGCTGGAGCCTTTGTTGGGCCCGTATTCCATTATCACGCAGG
AGGGGGAACACTGGAAGGGTCTACGCAAGCGGTTTAACCCAGGATTTGCG
CCTCAGCATCTCATTACCTTGCTGCCATGTATCTTGGACAAGGCGATACA
GTTCACTGATATTCTTGACGCGTACGCTCGTAGCGGAGAGGAACTTTCCC
TCGATGAGAGATGCGTCAGCCTTACCTTTGATATCATCGGCGCAGTAACC
ATGGACAAAGACTTCCATGCCCAGCTCGACCGCAGCAAACAAGATGAACT
CGTCCGCCTCTACCGTGAGCTAACGACCTCATACCGTAGCGGTAGCGGTA
TACAGTGGGGCTGGCTGGACGTCCGAGTATTGTGGCGCCGTCGAGTCCTG
ACCCGACGCATCGATCATCTGATATCTGAGCATATCAAGACAAAGTTTGA
CGAACTCAAGTCCAAGTCGACGGAGAAACGCTCCCGGAGTGTTCTCTCCC
TAAGTCTACAGGACATCGACCAACTAAATACCCGTGTCATCCAGGAGACA
TGCCACCAGCTCAAGAGCTTCCTTTTCGCTGGCCACGATACCACCAGTAT
CGTATTGCAGTGGTCCTTCTATGTCCTCAGCCGCACCCCACGCGTGCTGG
ATAAACTCCGCCGCGAGCTAGACGACCTTTTCGGACCAGATCCGTCCCCG
GCAGCCGTGCAAGAGAAATTACTTGCCCCGGGCGGAGACGACCTCCTAAA
GCGGATGTCCTACACTTCTGCTGTGATCAAAGAAATTCTGCGGTTATACC
CACCATCAGGTTCCGCAAGGTACATGCCACCCGGCACAGGATTCACCGTG
CAGTTACCAGACGGGAAGACGCTCTGTCTAGATGGAGTGGTCGTATATAA
CAACTCGACACTCGTTCATCGGGACGAGAAAGTTTACGGACCGACAAAAG
ATGAATTTATCCCAGAGCGGTGGTTGGGAGACGCAGATACTGGTCTAGGA
TTATCCACGGATAATGTAGAGGATAAGGGGAATGGTCCGGTCGCAACCGC
TTGTATTCCCGCCAGCGCGTGGAGGCCATTCGAGCGCGGCCCGCGCAACT
GTATTGGTCAAGAGCTAGCCAACCTGGAGGCCCGGGTAATCCTGGCGTGT
ACGGTCCGGCGCTTCGATTTCGAGAAGGTGGGGGTGGGCGCAATTGCGCG
GGATGCGACTGGGGCGCCTATCTTGGATGCCAAGGGGCAGTATGAGGTGG
AGTCAGAGTTGTTTAATACTATGCAGGTCACCGCGAAGCCTATTGATGGA
ACAGTAGTGAAGGTGGGTGCTATTAGCGATGCTCTTCTTGGCCCTCTTTT
CTTGCTACTAATCGCTGTATAAATGTTCGCCCAAACTATTCTTCTGATCC
TCCTGCCTCTGGTTGTTTCTTACTTCATAACCCGGATCCGCTACTCCCGC
TTCAAGAAGTATGCTGACTGGCCGCAACTACCCACCTCCCTCGTCTGGGG
ACACATGAAAGCGCTCCACGAGTTTATTGTCCGAGGTGAGGAGAAAAGAC
ACATCGACATCGTGTTTGGCGAAATCCAGGAACATTTGGGGAATCCTCCT
CTCATGTTTTTCGATCTCCGGCCTGTACAGTTTCGGCTGTGTGTGGTCGG
AAGTCATGAGATCGCAGAACAAGTCTCCCGGAGTACCAAGAGTTTTCCGT
ATAGTATGCAGAAGTCGCCAACTATGGGCGCGCTGGAGCCTTTGTTGGGC
CCGTATTCCATTATCACGCAGGAGGGGGAACACTGGAAGGGTCTACGCAA
GCGGTTTAACCCAGGATTTGCGCCTCAGCATCTCATTACCTTGCTGCCAT
GTATCTTGGACAAGGCGATACAGTTCACTGATATTCTTGACGCGTACGCT
CGTAGCGGAGAGGAACTTTCCCTCGATGAGAGATGCGTCAGCCTTACCTT
TGATATCATCGGCGCAGTAACCATGGACAAAGACTTCCATGCCCAGCTCG
ACCGCAGCAAACAAGATGAACTCGTCCGCCTCTACCGTGAGCTAACGACC
TCATACCGTAGCGGTAGCGGTATACAGTGGGGCTGGCTGGACGTCCGAGT
ATTGTGGCGCCGTCGAGTCCTGACCCGACGCATCGATCATCTGATATCTG
AGCATATCAAGACAAAGTTTGACGAACTCAAGTCCAAGTCGACGGAGAAA
CGCTCCCGGAGTGTTCTCTCCCTAAGTCTACAGGACATCGACCAACTAAA
TACCCGTGTCATCCAGGAGACATGCCACCAGCTCAAGAGCTTCCTTTTCG
CTGGCCACGATACCACCAGTATCGTATTGCAGTGGTCCTTCTATGTCCTC
AGCCGCACCCCACGCGTGCTGGATAAACTCCGCCGCGAGCTAGACGACCT
TTTCGGACCAGATCCGTCCCCGGCAGCCGTGCAAGAGAAATTACTTGCCC
CGGGCGGAGACGACCTCCTAAAGCGGATGTCCTACACTTCTGCTGTGATC
AAAGAAATTCTGCGGTTATACCCACCATCAGGTTCCGCAAGGTACATGCC
ACCCGGCACAGGATTCACCGTGCAGTTACCAGACGGGAAGACGCTCTGTC
TAGATGGAGTGGTCGTATATAACAACTCGACACTCGTTCATCGGGACGAG
AAAGTTTACGGACCGACAAAAGATGAATTTATCCCAGAGCGGTGGTTGGG
AGACGCAGATACTGGTCTAGGATTATCCACGGATAATGTAGAGGATAAGG
GGAATGGTCCGGTCGCAACCGCTTGTATTCCCGCCAGCGCGTGGAGGCCA
TTCGAGCGCGGCCCGCGCAACTGTATTGGTCAAGAGCTAGCCAACCTGGA
GGCCCGGGTAATCCTGGCGTGTACGGTCCGGCGCTTCGATTTCGAGAAGG
TGGGGGTGGGCGCAATTGCGCGGGATGCGACTGGGGCGCCTATCTTGGAT
GCCAAGGGGCAGTATGAGGTGGAGTCAGAGTTGTTTAATACTATGCAGGT
CACCGCGAAGCCTATTGATGGAACAGTAGTGAAGGTGGGTGCTATTAGCG
ATGCTCTTCTTGGCCCTCTTTTCTTGCTACTAATCGCTGTATAAATGTTC
GCCCAAACTATTCTTCTGATCCTCCTGCCTCTGGTTGTTTCTTACTTCAT
AACCCGGATCCGCTACTCCCGCTTCAAGAAGTATGCTGACTGGCCGCAAC
TACCCACCTCCCTCGTCTGGGGACACATGAAAGCGCTCCACGAGTTTATT
GTCCGAGGTGAGGAGAAAAGACACATCGACATCGTGTTTGGCGAAATCCA
GGAACATTTGGGGAATCCTCCTCTCATGTTTTTCGATCTCCGGCCTGTAC
AGTTTCGGCTGTGTGTGGTCGGAAGTCATGAGATCGCAGAACAAGTCTCC
CGGAGTACCAAGAGTTTTCCGTATAGTATGCAGAAGTCGCCAACTATGGG
CGCGCTGGAGCCTTTGTTGGGCCCGTATTCCATTATCACGCAGGAGGGGG
AACACTGGAAGGGTCTACGCAAGCGGTTTAACCCAGGATTTGCGCCTCAG
CATCTCATTACCTTGCTGCCATGTATCTTGGACAAGGCGATACAGTTCAC
TGATATTCTTGACGCGTACGCTCGTAGCGGAGAGGAACTTTCCCTCGATG
AGAGATGCGTCAGCCTTACCTTTGATATCATCGGCGCAGTAACCATGGAC
AAAGACTTCCATGCCCAGCTCGACCGCAGCAAACAAGATGAACTCGTCCG
CCTCTACCGTGAGCTAACGACCTCATACCGTAGCGGTAGCGGTATACAGT
GGGGCTGGCTGGACGTCCGAGTATTGTGGCGCCGTCGAGTCCTGACCCGA
CGCATCGATCATCTGATATCTGAGCATATCAAGACAAAGTTTGACGAACT
CAAGTCCAAGTCGACGGAGAAACGCTCCCGGAGTGTTCTCTCCCTAAGTC
TACAGGACATCGACCAACTAAATACCCGTGTCATCCAGGAGACATGCCAC
CAGCTCAAGAGCTTCCTTTTCGCTGGCCACGATACCACCAGTATCGTATT
GCAGTGGTCCTTCTATGTCCTCAGCCGCACCCCACGCGTGCTGGATAAAC
TCCGCCGCGAGCTAGACGACCTTTTCGGACCAGATCCGTCCCCGGCAGCC
GTGCAAGAGAAATTACTTGCCCCGGGCGGAGACGACCTCCTAAAGCGGAT
GTCCTACACTTCTGCTGTGATCAAAGAAATTCTGCGGTTATACCCACCAT
CAGGTTCCGCAAGGTACATGCCACCCGGCACAGGATTCACCGTGCAGTTA
CCAGACGGGAAGACGCTCTGTCTAGATGGAGTGGTCGTATATAACAACTC
GACACTCGTTCATCGGGACGAGAAAGTTTACGGACCGACAAAAGATGAAT
TTATCCCAGAGCGGTGGTTGGGAGACGCAGATACTGGTCTAGGATTATCC
ACGGATAATGTAGAGGATAAGGGGAATGGTCCGGTCGCAACCGCTTGTAT
TCCCGCCAGCGCGTGGAGGCCATTCGAGCGCGGCCCGCGCAACTGTATTG
GTCAAGAGCTAGCCAACCTGGAGGCCCGGGTAATCCTGGCGTGTACGGTC
CGGCGCTTCGATTTCGAGAAGGTGGGGGTGGGCGCAATTGCGCGGGATGC
GACTGGGGCGCCTATCTTGGATGCCAAGGGGCAGTATGAGGTGGAGTCAG
AGTTGTTTAATACTATGCAGGTCACCGCGAAGCCTATTGATGGAACAGTA
GTGAAGGTGGGTGCTATTAGCGATGCTCTTCTTGGCCCTCTTTTCTTGCT
ACTAATCGCTGTATAAATGTTCGCCCAAACTATTCTTCTGATCCTCCTGC
CTCTGGTTGTTTCTTACTTCATAACCCGGATCCGCTACTCCCGCTTCAAG
AAGTATGCTGACTGGCCGCAACTACCCACCTCCCTCGTCTGGGGACACAT
GAAAGCGCTCCACGAGTTTATTGTCCGAGGTGAGGAGAAAAGACACATCG
ACATCGTGTTTGGCGAAATCCAGGAACATTTGGGGAATCCTCCTCTCATG
TTTTTCGATCTCCGGCCTGTACAGTTTCGGCTGTGTGTGGTCGGAAGTCA
TGAGATCGCAGAACAAGTCTCCCGGAGTACCAAGAGTTTTCCGTATAGTA
TGCAGAAGTCGCCAACTATGGGCGCGCTGGAGCCTTTGTTGGGCCCGTAT
TCCATTATCACGCAGGAGGGGGAACACTGGAAGGGTCTACGCAAGCGGTT
TAACCCAGGATTTGCGCCTCAGCATCTCATTACCTTGCTGCCATGTATCT
TGGACAAGGCGATACAGTTCACTGATATTCTTGACGCGTACGCTCGTAGC
GGAGAGGAACTTTCCCTCGATGAGAGATGCGTCAGCCTTACCTTTGATAT
CATCGGCGCAGTAACCATGGACAAAGACTTCCATGCCCAGCTCGACCGCA
GCAAACAAGATGAACTCGTCCGCCTCTACCGTGAGCTAACGACCTCATAC
CGTAGCGGTAGCGGTATACAGTGGGGCTGGCTGGACGTCCGAGTATTGTG
GCGCCGTCGAGTCCTGACCCGACGCATCGATCATCTGATATCTGAGCATA
TCAAGACAAAGTTTGACGAACTCAAGTCCAAGTCGACGGAGAAACGCTCC
CGGAGTGTTCTCTCCCTAAGTCTACAGGACATCGACCAACTAAATACCCG
TGTCATCCAGGAGACATGCCACCAGCTCAAGAGCTTCCTTTTCGCTGGCC
ACGATACCACCAGTATCGTATTGCAGTGGTCCTTCTATGTCCTCAGCCGC
ACCCCACGCGTGCTGGATAAACTCCGCCGCGAGCTAGACGACCTTTTCGG
ACCAGATCCGTCCCCGGCAGCCGTGCAAGAGAAATTACTTGCCCCGGGCG
GAGACGACCTCCTAAAGCGGATGTCCTACACTTCTGCTGTGATCAAAGAA
ATTCTGCGGTTATACCCACCATCAGGTTCCGCAAGGTACATGCCACCCGG
CACAGGATTCACCGTGCAGTTACCAGACGGGAAGACGCTCTGTCTAGATG
GAGTGGTCGTATATAACAACTCGACACTCGTTCATCGGGACGAGAAAGTT
TACGGACCGACAAAAGATGAATTTATCCCAGAGCGGTGGTTGGGAGACGC
AGATACTGGTCTAGGATTATCCACGGATAATGTAGAGGATAAGGGGAATG
GTCCGGTCGCAACCGCTTGTATTCCCGCCAGCGCGTGGAGGCCATTCGAG
CGCGGCCCGCGCAACTGTATTGGTCAAGAGCTAGCCAACCTGGAGGCCCG
GGTAATCCTGGCGTGTACGGTCCGGCGCTTCGATTTCGAGAAGGTGGGGG
TGGGCGCAATTGCGCGGGATGCGACTGGGGCGCCTATCTTGGATGCCAAG
GGGCAGTATGAGGTGGAGTCAGAGTTGTTTAATACTATGCAGGTCACCGC
GAAGCCTATTGATGGAACAGTAGTGAAGGTGGGTGCTATTAGCGATGCTC
TTCTTGGCCCTCTTTTCTTGCTACTAATCGCTGTATAAATGTTCGCCCAA
ACTATTCTTCTGATCCTCCTGCCTCTGGTTGTTTCTTACTTCATAACCCG
GATCCGCTACTCCCGCTTCAAGAAGTATGCTGACTGGCCGCAACTACCCA
CCTCCCTCGTCTGGGGACACATGAAAGCGCTCCACGAGTTTATTGTCCGA
GGTGAGGAGAAAAGACACATCGACATCGTGTTTGGCGAAATCCAGGAACA
TTTGGGGAATCCTCCTCTCATGTTTTTCGATCTCCGGCCTGTACAGTTTC
GGCTGTGTGTGGTCGGAAGTCATGAGATCGCAGAACAAGTCTCCCGGAGT
ACCAAGAGTTTTCCGTATAGTATGCAGAAGTCGCCAACTATGGGCGCGCT
GGAGCCTTTGTTGGGCCCGTATTCCATTATCACGCAGGAGGGGGAACACT
GGAAGGGTCTACGCAAGCGGTTTAACCCAGGATTTGCGCCTCAGCATCTC
ATTACCTTGCTGCCATGTATCTTGGACAAGGCGATACAGTTCACTGATAT
TCTTGACGCGTACGCTCGTAGCGGAGAGGAACTTTCCCTCGATGAGAGAT
GCGTCAGCCTTACCTTTGATATCATCGGCGCAGTAACCATGGACAAAGAC
TTCCATGCCCAGCTCGACCGCAGCAAACAAGATGAACTCGTCCGCCTCTA
CCGTGAGCTAACGACCTCATACCGTAGCGGTAGCGGTATACAGTGGGGCT
GGCTGGACGTCCGAGTATTGTGGCGCCGTCGAGTCCTGACCCGACGCATC
GATCATCTGATATCTGAGCATATCAAGACAAAGTTTGACGAACTCAAGTC
CAAGTCGACGGAGAAACGCTCCCGGAGTGTTCTCTCCCTAAGTCTACAGG
ACATCGACCAACTAAATACCCGTGTCATCCAGGAGACATGCCACCAGCTC
AAGAGCTTCCTTTTCGCTGGCCACGATACCACCAGTATCGTATTGCAGTG
GTCCTTCTATGTCCTCAGCCGCACCCCACGCGTGCTGGATAAACTCCGCC
GCGAGCTAGACGACCTTTTCGGACCAGATCCGTCCCCGGCAGCCGTGCAA
GAGAAATTACTTGCCCCGGGCGGAGACGACCTCCTAAAGCGGATGTCCTA
CACTTCTGCTGTGATCAAAGAAATTCTGCGGTTATACCCACCATCAGGTT
CCGCAAGGTACATGCCACCCGGCACAGGATTCACCGTGCAGTTACCAGAC
GGGAAGACGCTCTGTCTAGATGGAGTGGTCGTATATAACAACTCGACACT
CGTTCATCGGGACGAGAAAGTTTACGGACCGACAAAAGATGAATTTATCC
CAGAGCGGTGGTTGGGAGACGCAGATACTGGTCTAGGATTATCCACGGAT
AATGTAGAGGATAAGGGGAATGGTCCGGTCGCAACCGCTTGTATTCCCGC
CAGCGCGTGGAGGCCATTCGAGCGCGGCCCGCGCAACTGTATTGGTCAAG
AGCTAGCCAACCTGGAGGCCCGGGTAATCCTGGCGTGTACGGTCCGGCGC
TTCGATTTCGAGAAGGTGGGGGTGGGCGCAATTGCGCGGGATGCGACTGG
GGCGCCTATCTTGGATGCCAAGGGGCAGTATGAGGTGGAGTCAGAGTTGT
TTAATACTATGCAGGTCACCGCGAAGCCTATTGATGGAACAGTAGTGAAG
GTGGGTGCTATTAGCGATGCTCTTCTTGGCCCTCTTTTCTTGCTACTAAT
CGCTGTATAAATGTTCGCCCAAACTATTCTTCTGATCCTCCTGCCTCTGG
TTGTTTCTTACTTCATAACCCGGATCCGCTACTCCCGCTTCAAGAAGTAT
GCTGACTGGCCGCAACTACCCACCTCCCTCGTCTGGGGACACATGAAAGC
GCTCCACGAGTTTATTGTCCGAGGTGAGGAGAAAAGACACATCGACATCG
TGTTTGGCGAAATCCAGGAACATTTGGGGAATCCTCCTCTCATGTTTTTC
GATCTCCGGCCTGTACAGTTTCGGCTGTGTGTGGTCGGAAGTCATGAGAT
CGCAGAACAAGTCTCCCGGAGTACCAAGAGTTTTCCGTATAGTATGCAGA
AGTCGCCAACTATGGGCGCGCTGGAGCCTTTGTTGGGCCCGTATTCCATT
ATCACGCAGGAGGGGGAACACTGGAAGGGTCTACGCAAGCGGTTTAACCC
AGGATTTGCGCCTCAGCATCTCATTACCTTGCTGCCATGTATCTTGGACA
AGGCGATACAGTTCACTGATATTCTTGACGCGTACGCTCGTAGCGGAGAG
GAACTTTCCCTCGATGAGAGATGCGTCAGCCTTACCTTTGATATCATCGG
CGCAGTAACCATGGACAAAGACTTCCATGCCCAGCTCGACCGCAGCAAAC
AAGATGAACTCGTCCGCCTCTACCGTGAGCTAACGACCTCATACCGTAGC
GGTAGCGGTATACAGTGGGGCTGGCTGGACGTCCGAGTATTGTGGCGCCG
TCGAGTCCTGACCCGACGCATCGATCATCTGATATCTGAGCATATCAAGA
CAAAGTTTGACGAACTCAAGTCCAAGTCGACGGAGAAACGCTCCCGGAGT
GTTCTCTCCCTAAGTCTACAGGACATCGACCAACTAAATACCCGTGTCAT
CCAGGAGACATGCCACCAGCTCAAGAGCTTCCTTTTCGCTGGCCACGATA
CCACCAGTATCGTATTGCAGTGGTCCTTCTATGTCCTCAGCCGCACCCCA
CGCGTGCTGGATAAACTCCGCCGCGAGCTAGACGACCTTTTCGGACCAGA
TCCGTCCCCGGCAGCCGTGCAAGAGAAATTACTTGCCCCGGGCGGAGACG
ACCTCCTAAAGCGGATGTCCTACACTTCTGCTGTGATCAAAGAAATTCTG
CGGTTATACCCACCATCAGGTTCCGCAAGGTACATGCCACCCGGCACAGG
ATTCACCGTGCAGTTACCAGACGGGAAGACGCTCTGTCTAGATGGAGTGG
TCGTATATAACAACTCGACACTCGTTCATCGGGACGAGAAAGTTTACGGA
CCGACAAAAGATGAATTTATCCCAGAGCGGTGGTTGGGAGACGCAGATAC
TGGTCTAGGATTATCCACGGATAATGTAGAGGATAAGGGGAATGGTCCGG
TCGCAACCGCTTGTATTCCCGCCAGCGCGTGGAGGCCATTCGAGCGCGGC
CCGCGCAACTGTATTGGTCAAGAGCTAGCCAACCTGGAGGCCCGGGTAAT
CCTGGCGTGTACGGTCCGGCGCTTCGATTTCGAGAAGGTGGGGGTGGGCG
CAATTGCGCGGGATGCGACTGGGGCGCCTATCTTGGATGCCAAGGGGCAG
TATGAGGTGGAGTCAGAGTTGTTTAATACTATGCAGGTCACCGCGAAGCC
TATTGATGGAACAGTAGTGAAGGTGGGTGCTATTAGCGATGCTCTTCTTG
GCCCTCTTTTCTTGCTACTAATCGCTGTATAA

Annotated Terms

The following terms have been associated with this mRNA:

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

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

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_45375	CAN33_45375	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_45375-T1	CAN33_45375-T1-protein	Aspergillus niger FDAARGOS_311	polypeptide

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


Feature Name	Unique Name	Species	Type
CAN33_45375-T1.exon1	CAN33_45375-T1.exon1	Aspergillus niger FDAARGOS_311	exon
CAN33_45375-T1.exon2	CAN33_45375-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_45375-T1.exon3	CAN33_45375-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_45375-T1.exon4	CAN33_45375-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_45375-T1.exon5	CAN33_45375-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_45375-T1.exon6	CAN33_45375-T1.exon6	Aspergillus niger FDAARGOS_311	exon

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


Feature Name	Unique Name	Species	Type
CAN33_45375-T1.cds	CAN33_45375-T1.cds	Aspergillus niger FDAARGOS_311	CDS

Properties


Property Name	Value
Note	EggNog:ENOG41
DBxref	InterPro:IPR036396
DBxref	InterPro:IPR001128
DBxref	InterPro:IPR002401
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
NKJJ01000022.1	supercontig	NKJJ01000022.1:1982829..1984843 +

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CAN33_45375-T1, CAN33_45375-T1 (mRNA) Aspergillus niger FDAARGOS_311