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CAN33_7165-T1, CAN33_7165-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_7165-T1
Unique NameCAN33_7165-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:2182818..2184801-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_7165-T1 ID=CAN33_7165-T1|Name=CAN33_7165-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1984bp|location=Sequence derived from alignment at NKJJ01000019.1:2182818..2184801- (Aspergillus niger FDAARGOS_311)
ATGGAGACCATCTCGGAACGACTTCCTGTCTACTTCCACTGGGCACCACT
ATTCATCCTCGCTCTACTTTTCTTCAACTACATCATAGGAGTTACCAAAG
CCATCAAGTCCCCTCTTTCACGAATCCCCGGGCCATGGTATGCTCCCTTG
ACAACATTACACTTAAACTATGCGTTCGCAAAAGGAACGATATGGAAAGC
TGTGGAGAGATCCCACGCAAAATACGGTCCTATTTTCCGCCTCGGGCCGC
GACAAGTGTGGATATCAGATAAAGAAGCCATCAAGGCCATCCTTATGACA
GTTGATCTGCCAAAGGTCACAATGTATGCAGAAATATCCAGAGATCGAAG
CAGCCCTGGGTTGTTTGGGGAGATGTAAGCGCCCTACTGTATGGGTATGG
AGGAAAGCAGTTGGCAAGAATGAGTTACTGATCTCATCTTAGTCGACCAG
ATCCACATAAGCGACTTAAGAAGTTTTTATCTCCAGCATTCACAATCGCA
TATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTTAT
CAATCGATACGTGGATTTGTTATCATCTCCGACGTCAAGGGGACAAAAGG
AGCTGGTAGTTACGGACCTTATGCAAGACCTTCATAGCCTGGCACTTGAC
ATGTAAGTGTACCATGGCAAACTGGAACCCAACAAGGATATTCTGTGTTT
GTTGACATTATCGATAATAAGCATGGGAGAATGTTCCTTTGGCAACGGAT
TCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAACTTGATGAAGGC
ATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGATGACTCGCAGATA
TCAGGTAATATACAATATTTCTGCTTAGTGAACCAAGTGAGCAACATGAT
AACGCAGAATTAGTTTGTTTATATCAAGCGCCTTCTAAGAAGGCTTGGTC
TGAACATCGAATTTGACTGGCCACGAGAGATGATTGCTGTACTTACATCC
CGTGAATAATCCCCAAGGATGAGCAAATTAACTGACAATCAAATAGGCCA
TTTCCGCCGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCC
GATCTTCTCCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGT
CAAAATGGGGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAG
CCGGGTCCGAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATC
CTACGCAATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCT
TCGACCAAGTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTG
AGTACGAGTACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCA
ATAGCATCTGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAAT
GGGATACTATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGC
TTCATCGAGATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAG
AGGTGGCTGGATCCTCGGCCTTCTGATGTGCCTGCACCTGAGTAGGTCGA
TACTATTGTCGTTGGGCGATAAGGTGGGGTGCTAACAGTCCGTTTTTAGC
ATGCACGCTTACTATCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAA
GAAGTACGTTTCTATCCTTTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTCGCCCCTCTTGCCTCTCTTTAAGACTGATTGTTTAAATCCAATAG
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGA
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Coding sequence (CDS) from alignment at NKJJ01000019.1:2182818..2184801-

>CAN33_7165-T1 ID=CAN33_7165-T1|Name=CAN33_7165-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9000bp|location=Sequence derived from alignment at NKJJ01000019.1:2182818..2184801- (Aspergillus niger FDAARGOS_311)
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGATCTCTATATGACATGCACGCTTACTAT
CCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCC
GTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCT
CCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGG
GGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCC
GAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAA
TCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAA
GTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAG
TACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATC
TGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACT
ATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGA
GATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCT
GGATCCTCGGCCTTCTGATGTGCCTGCACCTGACATGGGAGAATGTTCCT
TTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAA
CTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGAT
GACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTT
TTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTT
CTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCAT
CTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAA
GACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTT
CCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTT
CAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAA
TCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCG
TTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATA
CGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAG
AAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATG
TATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0020037heme binding
GO:0016705oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:0005506iron ion binding
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_7165CAN33_7165Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_7165-T1CAN33_7165-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_7165-T1.cdsCAN33_7165-T1.cdsAspergillus niger FDAARGOS_311CDS


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

Feature NameUnique NameSpeciesType
CAN33_7165-T1.exon6CAN33_7165-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_7165-T1.exon5CAN33_7165-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_7165-T1.exon4CAN33_7165-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_7165-T1.exon3CAN33_7165-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_7165-T1.exon2CAN33_7165-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_7165-T1.exon1CAN33_7165-T1.exon1Aspergillus niger FDAARGOS_311exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR017972
DBxrefInterPro:IPR036396
DBxrefInterPro:IPR002401
DBxrefInterPro:IPR001128
DBxrefPFAM:PF00067
ProductCytochrome P450 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
NKJJ01000019.1supercontigNKJJ01000019.1:2182818..2184801 -
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