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ATCC10864_001187-T1, ATCC10864_001187-T1 (mRNA) Aspergillus niger ATCC 10864

Overview
NameATCC10864_001187-T1
Unique NameATCC10864_001187-T1
TypemRNA
OrganismAspergillus niger ATCC 10864
Sequences
The following sequences are available for this feature:

mRNA from alignment at MCQH01000019:1158806..1160590-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC10864_001187-T1 ID=ATCC10864_001187-T1|Name=ATCC10864_001187-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1785bp|location=Sequence derived from alignment at MCQH01000019:1158806..1160590- (Aspergillus niger ATCC 10864)
ATGACCCCACCCCTCCTCCCAACATCCCTCATTTCAGCCATCCTCGGCAT
CACCGCCCACCTAACATACTTCATCCACGCCGACCTCGAGAAGCACGTCG
TCTTCCTGGTCAACTGCCTCATCTTCTGGCCCTCACTCGGTCTAATAGCC
CTCTTTATCCTCGGCTATAGAGATATTTCTCAATGGATCGGACCAGCAAT
ACTGAGCTTTCACTTCTCGCTGTTAGCTTCCATAGTCATCTACCGATACT
TCTTCCACGCGCTGGACGGGTTTCCAGGTCCAAAGCTGGCAAGGATTACA
GCGCTGTGGGATTTCAAGAATACGGTGCTGAATGCGAAATGGTATATCAA
GGTGAAGGAAATGCATGGGGTGTATGGGGATGTTGTCCGGATCAGTATTC
CTCCTCTCTTCCACTCTTCCCATGTGATTTGTACAGGGCCAATTGATTGA
ATAGAACCTAGGGAATTATCCATCAACGACCCATCTGCGATCAAAGATAT
CTACGGCGTGGGGACCACATGCGTCAAGGGACCGTTCTACGATCTACATT
ATCCGCATCGATCGCTGCAAATGGCGAGAGATAAGGCGTTTCATTCGAAG
AGGAGGAGATTGTGGGATCGGGGGTTTACGTCGAAAGGCAGGTTTGACAT
GCATGTTCTTTGAATCTTATATTGACTGGCTGCTGTAATGACTAGCACTC
GCTGGCTACGAACCGTATCTTCTGGAGCACTGCAAAGATATAGTCCGGGT
TATTGAATCTCGATCATCGCAAGCACAGGAGGCGACGGCACTAATTGATG
GCTTTGCGTGGGACTCGATGGGGATATTTGCGTTTGGGAAATCGTTCAAT
ATGCTGCATGGGGAACCGCCAAAGATGCTGCAGATGATGAGGATGATGGG
GCGCGGGGCGAGTGCCTTATTGAGTTCGAGCTGGCTGGTTATACTCATGA
GGGGGATGGTGGGAGTGAGGCGGTTTACGGATAGATGGTTAGAGTGGTGT
GCGCAGTGTGTGGAGGAGAGGAGCAGGGTATGTATGTTTGCAGTTACTGT
CTCTCTTCAGTTGTGGATGGTATAGGCTGATGTGTTTCAGGTCGAAACTA
ATCGCCGGGATCTCTTCAGCTACTTGATCGAAGAGTTAAGCTCTGAGGGA
GACCAGTCCATAGGTGGCGTTGACGGGGATCTTGTTCGCGATTCAGAGCT
CGCTATTACGGCTGGCAGCGACACCGCAGCCAGTACCCTCAATGCTCTGT
TCTATCTCCTGGCACGACATCCGGACAAGCTGCGCCGGCTGCAGGAGGAG
ATAGACACTGCTGTTCCAGCTGATGAGGAGCTGTCTCATGCGGCGTTGGT
GAAGAAGCCGTACCTGGAGGGGTGTATAAATGAGAGTCTGCGTCTTTGTC
CGGCTGTCTTGAGTGGATTGCAGCGTGAGACAGGACCGGAAGGGCTCCGA
ACAGCGGGAGTCTATATTCCTCCAGGGATGATAGTGTCTGTGCCGACATA
TACGGTTCAACGAGGTAGATCATTAACCTTTCCTGTGAAGATAAGAGCTG
ATTTCCTTTCACGAAGACCCGCGCAACTTCCCCCGTCCAAACGAATTCAT
CCCAGAAAGGTGGTCCACCCAGCCAGAGCTAGTCATTCATAAGGAAGCAC
TGAACGCGTTCTCAAGCGGCACGTACTCCTGTGCAGGAAAGGCATTTGCG
ATGATGGAGATGCGACTGCTCGTTTCCACGATTGTAAGGCACTTCGACAT
TGAGTTTCCACCAGGGGAAGGACAAGAACCGCTAG
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Coding sequence (CDS) from alignment at MCQH01000019:1158806..1160590-

>ATCC10864_001187-T1 ID=ATCC10864_001187-T1|Name=ATCC10864_001187-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9126bp|location=Sequence derived from alignment at MCQH01000019:1158806..1160590- (Aspergillus niger ATCC 10864)
GGGAAGGACAAGAACCGCTAGACCCGCGCAACTTCCCCCGTCCAAACGAA
TTCATCCCAGAAAGGTGGTCCACCCAGCCAGAGCTAGTCATTCATAAGGA
AGCACTGAACGCGTTCTCAAGCGGCACGTACTCCTGTGCAGGAAAGGCAT
TTGCGATGATGGAGATGCGACTGCTCGTTTCCACGATTGTCGAAACTAAT
CGCCGGGATCTCTTCAGCTACTTGATCGAAGAGTTAAGCTCTGAGGGAGA
CCAGTCCATAGGTGGCGTTGACGGGGATCTTGTTCGCGATTCAGAGCTCG
CTATTACGGCTGGCAGCGACACCGCAGCCAGTACCCTCAATGCTCTGTTC
TATCTCCTGGCACGACATCCGGACAAGCTGCGCCGGCTGCAGGAGGAGAT
AGACACTGCTGTTCCAGCTGATGAGGAGCTGTCTCATGCGGCGTTGGTGA
AGAAGCCGTACCTGGAGGGGTGTATAAATGAGAGTCTGCGTCTTTGTCCG
GCTGTCTTGAGTGGATTGCAGCGTGAGACAGGACCGGAAGGGCTCCGAAC
AGCGGGAGTCTATATTCCTCCAGGGATGATAGTGTCTGTGCCGACATATA
CGGTTCAACGAGCACTCGCTGGCTACGAACCGTATCTTCTGGAGCACTGC
AAAGATATAGTCCGGGTTATTGAATCTCGATCATCGCAAGCACAGGAGGC
GACGGCACTAATTGATGGCTTTGCGTGGGACTCGATGGGGATATTTGCGT
TTGGGAAATCGTTCAATATGCTGCATGGGGAACCGCCAAAGATGCTGCAG
ATGATGAGGATGATGGGGCGCGGGGCGAGTGCCTTATTGAGTTCGAGCTG
GCTGGTTATACTCATGAGGGGGATGGTGGGAGTGAGGCGGTTTACGGATA
GATGGTTAGAGTGGTGTGCGCAGTGTGTGGAGGAGAGGAGCAGGAACCTA
GGGAATTATCCATCAACGACCCATCTGCGATCAAAGATATCTACGGCGTG
GGGACCACATGCGTCAAGGGACCGTTCTACGATCTACATTATCCGCATCG
ATCGCTGCAAATGGCGAGAGATAAGGCGTTTCATTCGAAGAGGAGGAGAT
TGTGGGATCGGGGGTTTACGTCGAAAGATGACCCCACCCCTCCTCCCAAC
ATCCCTCATTTCAGCCATCCTCGGCATCACCGCCCACCTAACATACTTCA
TCCACGCCGACCTCGAGAAGCACGTCGTCTTCCTGGTCAACTGCCTCATC
TTCTGGCCCTCACTCGGTCTAATAGCCCTCTTTATCCTCGGCTATAGAGA
TATTTCTCAATGGATCGGACCAGCAATACTGAGCTTTCACTTCTCGCTGT
TAGCTTCCATAGTCATCTACCGATACTTCTTCCACGCGCTGGACGGGTTT
CCAGGTCCAAAGCTGGCAAGGATTACAGCGCTGTGGGATTTCAAGAATAC
GGTGCTGAATGCGAAATGGTATATCAAGGTGAAGGAAATGCATGGGGTGT
ATGGGGATGTTGTCCGGATCAGGGAAGGACAAGAACCGCTAGACCCGCGC
AACTTCCCCCGTCCAAACGAATTCATCCCAGAAAGGTGGTCCACCCAGCC
AGAGCTAGTCATTCATAAGGAAGCACTGAACGCGTTCTCAAGCGGCACGT
ACTCCTGTGCAGGAAAGGCATTTGCGATGATGGAGATGCGACTGCTCGTT
TCCACGATTGTCGAAACTAATCGCCGGGATCTCTTCAGCTACTTGATCGA
AGAGTTAAGCTCTGAGGGAGACCAGTCCATAGGTGGCGTTGACGGGGATC
TTGTTCGCGATTCAGAGCTCGCTATTACGGCTGGCAGCGACACCGCAGCC
AGTACCCTCAATGCTCTGTTCTATCTCCTGGCACGACATCCGGACAAGCT
GCGCCGGCTGCAGGAGGAGATAGACACTGCTGTTCCAGCTGATGAGGAGC
TGTCTCATGCGGCGTTGGTGAAGAAGCCGTACCTGGAGGGGTGTATAAAT
GAGAGTCTGCGTCTTTGTCCGGCTGTCTTGAGTGGATTGCAGCGTGAGAC
AGGACCGGAAGGGCTCCGAACAGCGGGAGTCTATATTCCTCCAGGGATGA
TAGTGTCTGTGCCGACATATACGGTTCAACGAGCACTCGCTGGCTACGAA
CCGTATCTTCTGGAGCACTGCAAAGATATAGTCCGGGTTATTGAATCTCG
ATCATCGCAAGCACAGGAGGCGACGGCACTAATTGATGGCTTTGCGTGGG
ACTCGATGGGGATATTTGCGTTTGGGAAATCGTTCAATATGCTGCATGGG
GAACCGCCAAAGATGCTGCAGATGATGAGGATGATGGGGCGCGGGGCGAG
TGCCTTATTGAGTTCGAGCTGGCTGGTTATACTCATGAGGGGGATGGTGG
GAGTGAGGCGGTTTACGGATAGATGGTTAGAGTGGTGTGCGCAGTGTGTG
GAGGAGAGGAGCAGGAACCTAGGGAATTATCCATCAACGACCCATCTGCG
ATCAAAGATATCTACGGCGTGGGGACCACATGCGTCAAGGGACCGTTCTA
CGATCTACATTATCCGCATCGATCGCTGCAAATGGCGAGAGATAAGGCGT
TTCATTCGAAGAGGAGGAGATTGTGGGATCGGGGGTTTACGTCGAAAGAT
GACCCCACCCCTCCTCCCAACATCCCTCATTTCAGCCATCCTCGGCATCA
CCGCCCACCTAACATACTTCATCCACGCCGACCTCGAGAAGCACGTCGTC
TTCCTGGTCAACTGCCTCATCTTCTGGCCCTCACTCGGTCTAATAGCCCT
CTTTATCCTCGGCTATAGAGATATTTCTCAATGGATCGGACCAGCAATAC
TGAGCTTTCACTTCTCGCTGTTAGCTTCCATAGTCATCTACCGATACTTC
TTCCACGCGCTGGACGGGTTTCCAGGTCCAAAGCTGGCAAGGATTACAGC
GCTGTGGGATTTCAAGAATACGGTGCTGAATGCGAAATGGTATATCAAGG
TGAAGGAAATGCATGGGGTGTATGGGGATGTTGTCCGGATCAGGGAAGGA
CAAGAACCGCTAGACCCGCGCAACTTCCCCCGTCCAAACGAATTCATCCC
AGAAAGGTGGTCCACCCAGCCAGAGCTAGTCATTCATAAGGAAGCACTGA
ACGCGTTCTCAAGCGGCACGTACTCCTGTGCAGGAAAGGCATTTGCGATG
ATGGAGATGCGACTGCTCGTTTCCACGATTGTCGAAACTAATCGCCGGGA
TCTCTTCAGCTACTTGATCGAAGAGTTAAGCTCTGAGGGAGACCAGTCCA
TAGGTGGCGTTGACGGGGATCTTGTTCGCGATTCAGAGCTCGCTATTACG
GCTGGCAGCGACACCGCAGCCAGTACCCTCAATGCTCTGTTCTATCTCCT
GGCACGACATCCGGACAAGCTGCGCCGGCTGCAGGAGGAGATAGACACTG
CTGTTCCAGCTGATGAGGAGCTGTCTCATGCGGCGTTGGTGAAGAAGCCG
TACCTGGAGGGGTGTATAAATGAGAGTCTGCGTCTTTGTCCGGCTGTCTT
GAGTGGATTGCAGCGTGAGACAGGACCGGAAGGGCTCCGAACAGCGGGAG
TCTATATTCCTCCAGGGATGATAGTGTCTGTGCCGACATATACGGTTCAA
CGAGCACTCGCTGGCTACGAACCGTATCTTCTGGAGCACTGCAAAGATAT
AGTCCGGGTTATTGAATCTCGATCATCGCAAGCACAGGAGGCGACGGCAC
TAATTGATGGCTTTGCGTGGGACTCGATGGGGATATTTGCGTTTGGGAAA
TCGTTCAATATGCTGCATGGGGAACCGCCAAAGATGCTGCAGATGATGAG
GATGATGGGGCGCGGGGCGAGTGCCTTATTGAGTTCGAGCTGGCTGGTTA
TACTCATGAGGGGGATGGTGGGAGTGAGGCGGTTTACGGATAGATGGTTA
GAGTGGTGTGCGCAGTGTGTGGAGGAGAGGAGCAGGAACCTAGGGAATTA
TCCATCAACGACCCATCTGCGATCAAAGATATCTACGGCGTGGGGACCAC
ATGCGTCAAGGGACCGTTCTACGATCTACATTATCCGCATCGATCGCTGC
AAATGGCGAGAGATAAGGCGTTTCATTCGAAGAGGAGGAGATTGTGGGAT
CGGGGGTTTACGTCGAAAGATGACCCCACCCCTCCTCCCAACATCCCTCA
TTTCAGCCATCCTCGGCATCACCGCCCACCTAACATACTTCATCCACGCC
GACCTCGAGAAGCACGTCGTCTTCCTGGTCAACTGCCTCATCTTCTGGCC
CTCACTCGGTCTAATAGCCCTCTTTATCCTCGGCTATAGAGATATTTCTC
AATGGATCGGACCAGCAATACTGAGCTTTCACTTCTCGCTGTTAGCTTCC
ATAGTCATCTACCGATACTTCTTCCACGCGCTGGACGGGTTTCCAGGTCC
AAAGCTGGCAAGGATTACAGCGCTGTGGGATTTCAAGAATACGGTGCTGA
ATGCGAAATGGTATATCAAGGTGAAGGAAATGCATGGGGTGTATGGGGAT
GTTGTCCGGATCAGGGAAGGACAAGAACCGCTAGACCCGCGCAACTTCCC
CCGTCCAAACGAATTCATCCCAGAAAGGTGGTCCACCCAGCCAGAGCTAG
TCATTCATAAGGAAGCACTGAACGCGTTCTCAAGCGGCACGTACTCCTGT
GCAGGAAAGGCATTTGCGATGATGGAGATGCGACTGCTCGTTTCCACGAT
TGTCGAAACTAATCGCCGGGATCTCTTCAGCTACTTGATCGAAGAGTTAA
GCTCTGAGGGAGACCAGTCCATAGGTGGCGTTGACGGGGATCTTGTTCGC
GATTCAGAGCTCGCTATTACGGCTGGCAGCGACACCGCAGCCAGTACCCT
CAATGCTCTGTTCTATCTCCTGGCACGACATCCGGACAAGCTGCGCCGGC
TGCAGGAGGAGATAGACACTGCTGTTCCAGCTGATGAGGAGCTGTCTCAT
GCGGCGTTGGTGAAGAAGCCGTACCTGGAGGGGTGTATAAATGAGAGTCT
GCGTCTTTGTCCGGCTGTCTTGAGTGGATTGCAGCGTGAGACAGGACCGG
AAGGGCTCCGAACAGCGGGAGTCTATATTCCTCCAGGGATGATAGTGTCT
GTGCCGACATATACGGTTCAACGAGCACTCGCTGGCTACGAACCGTATCT
TCTGGAGCACTGCAAAGATATAGTCCGGGTTATTGAATCTCGATCATCGC
AAGCACAGGAGGCGACGGCACTAATTGATGGCTTTGCGTGGGACTCGATG
GGGATATTTGCGTTTGGGAAATCGTTCAATATGCTGCATGGGGAACCGCC
AAAGATGCTGCAGATGATGAGGATGATGGGGCGCGGGGCGAGTGCCTTAT
TGAGTTCGAGCTGGCTGGTTATACTCATGAGGGGGATGGTGGGAGTGAGG
CGGTTTACGGATAGATGGTTAGAGTGGTGTGCGCAGTGTGTGGAGGAGAG
GAGCAGGAACCTAGGGAATTATCCATCAACGACCCATCTGCGATCAAAGA
TATCTACGGCGTGGGGACCACATGCGTCAAGGGACCGTTCTACGATCTAC
ATTATCCGCATCGATCGCTGCAAATGGCGAGAGATAAGGCGTTTCATTCG
AAGAGGAGGAGATTGTGGGATCGGGGGTTTACGTCGAAAGATGACCCCAC
CCCTCCTCCCAACATCCCTCATTTCAGCCATCCTCGGCATCACCGCCCAC
CTAACATACTTCATCCACGCCGACCTCGAGAAGCACGTCGTCTTCCTGGT
CAACTGCCTCATCTTCTGGCCCTCACTCGGTCTAATAGCCCTCTTTATCC
TCGGCTATAGAGATATTTCTCAATGGATCGGACCAGCAATACTGAGCTTT
CACTTCTCGCTGTTAGCTTCCATAGTCATCTACCGATACTTCTTCCACGC
GCTGGACGGGTTTCCAGGTCCAAAGCTGGCAAGGATTACAGCGCTGTGGG
ATTTCAAGAATACGGTGCTGAATGCGAAATGGTATATCAAGGTGAAGGAA
ATGCATGGGGTGTATGGGGATGTTGTCCGGATCAGGGAAGGACAAGAACC
GCTAGACCCGCGCAACTTCCCCCGTCCAAACGAATTCATCCCAGAAAGGT
GGTCCACCCAGCCAGAGCTAGTCATTCATAAGGAAGCACTGAACGCGTTC
TCAAGCGGCACGTACTCCTGTGCAGGAAAGGCATTTGCGATGATGGAGAT
GCGACTGCTCGTTTCCACGATTGTCGAAACTAATCGCCGGGATCTCTTCA
GCTACTTGATCGAAGAGTTAAGCTCTGAGGGAGACCAGTCCATAGGTGGC
GTTGACGGGGATCTTGTTCGCGATTCAGAGCTCGCTATTACGGCTGGCAG
CGACACCGCAGCCAGTACCCTCAATGCTCTGTTCTATCTCCTGGCACGAC
ATCCGGACAAGCTGCGCCGGCTGCAGGAGGAGATAGACACTGCTGTTCCA
GCTGATGAGGAGCTGTCTCATGCGGCGTTGGTGAAGAAGCCGTACCTGGA
GGGGTGTATAAATGAGAGTCTGCGTCTTTGTCCGGCTGTCTTGAGTGGAT
TGCAGCGTGAGACAGGACCGGAAGGGCTCCGAACAGCGGGAGTCTATATT
CCTCCAGGGATGATAGTGTCTGTGCCGACATATACGGTTCAACGAGCACT
CGCTGGCTACGAACCGTATCTTCTGGAGCACTGCAAAGATATAGTCCGGG
TTATTGAATCTCGATCATCGCAAGCACAGGAGGCGACGGCACTAATTGAT
GGCTTTGCGTGGGACTCGATGGGGATATTTGCGTTTGGGAAATCGTTCAA
TATGCTGCATGGGGAACCGCCAAAGATGCTGCAGATGATGAGGATGATGG
GGCGCGGGGCGAGTGCCTTATTGAGTTCGAGCTGGCTGGTTATACTCATG
AGGGGGATGGTGGGAGTGAGGCGGTTTACGGATAGATGGTTAGAGTGGTG
TGCGCAGTGTGTGGAGGAGAGGAGCAGGAACCTAGGGAATTATCCATCAA
CGACCCATCTGCGATCAAAGATATCTACGGCGTGGGGACCACATGCGTCA
AGGGACCGTTCTACGATCTACATTATCCGCATCGATCGCTGCAAATGGCG
AGAGATAAGGCGTTTCATTCGAAGAGGAGGAGATTGTGGGATCGGGGGTT
TACGTCGAAAGATGACCCCACCCCTCCTCCCAACATCCCTCATTTCAGCC
ATCCTCGGCATCACCGCCCACCTAACATACTTCATCCACGCCGACCTCGA
GAAGCACGTCGTCTTCCTGGTCAACTGCCTCATCTTCTGGCCCTCACTCG
GTCTAATAGCCCTCTTTATCCTCGGCTATAGAGATATTTCTCAATGGATC
GGACCAGCAATACTGAGCTTTCACTTCTCGCTGTTAGCTTCCATAGTCAT
CTACCGATACTTCTTCCACGCGCTGGACGGGTTTCCAGGTCCAAAGCTGG
CAAGGATTACAGCGCTGTGGGATTTCAAGAATACGGTGCTGAATGCGAAA
TGGTATATCAAGGTGAAGGAAATGCATGGGGTGTATGGGGATGTTGTCCG
GATCAGGGAAGGACAAGAACCGCTAGACCCGCGCAACTTCCCCCGTCCAA
ACGAATTCATCCCAGAAAGGTGGTCCACCCAGCCAGAGCTAGTCATTCAT
AAGGAAGCACTGAACGCGTTCTCAAGCGGCACGTACTCCTGTGCAGGAAA
GGCATTTGCGATGATGGAGATGCGACTGCTCGTTTCCACGATTGTCGAAA
CTAATCGCCGGGATCTCTTCAGCTACTTGATCGAAGAGTTAAGCTCTGAG
GGAGACCAGTCCATAGGTGGCGTTGACGGGGATCTTGTTCGCGATTCAGA
GCTCGCTATTACGGCTGGCAGCGACACCGCAGCCAGTACCCTCAATGCTC
TGTTCTATCTCCTGGCACGACATCCGGACAAGCTGCGCCGGCTGCAGGAG
GAGATAGACACTGCTGTTCCAGCTGATGAGGAGCTGTCTCATGCGGCGTT
GGTGAAGAAGCCGTACCTGGAGGGGTGTATAAATGAGAGTCTGCGTCTTT
GTCCGGCTGTCTTGAGTGGATTGCAGCGTGAGACAGGACCGGAAGGGCTC
CGAACAGCGGGAGTCTATATTCCTCCAGGGATGATAGTGTCTGTGCCGAC
ATATACGGTTCAACGAGCACTCGCTGGCTACGAACCGTATCTTCTGGAGC
ACTGCAAAGATATAGTCCGGGTTATTGAATCTCGATCATCGCAAGCACAG
GAGGCGACGGCACTAATTGATGGCTTTGCGTGGGACTCGATGGGGATATT
TGCGTTTGGGAAATCGTTCAATATGCTGCATGGGGAACCGCCAAAGATGC
TGCAGATGATGAGGATGATGGGGCGCGGGGCGAGTGCCTTATTGAGTTCG
AGCTGGCTGGTTATACTCATGAGGGGGATGGTGGGAGTGAGGCGGTTTAC
GGATAGATGGTTAGAGTGGTGTGCGCAGTGTGTGGAGGAGAGGAGCAGGA
ACCTAGGGAATTATCCATCAACGACCCATCTGCGATCAAAGATATCTACG
GCGTGGGGACCACATGCGTCAAGGGACCGTTCTACGATCTACATTATCCG
CATCGATCGCTGCAAATGGCGAGAGATAAGGCGTTTCATTCGAAGAGGAG
GAGATTGTGGGATCGGGGGTTTACGTCGAAAGATGACCCCACCCCTCCTC
CCAACATCCCTCATTTCAGCCATCCTCGGCATCACCGCCCACCTAACATA
CTTCATCCACGCCGACCTCGAGAAGCACGTCGTCTTCCTGGTCAACTGCC
TCATCTTCTGGCCCTCACTCGGTCTAATAGCCCTCTTTATCCTCGGCTAT
AGAGATATTTCTCAATGGATCGGACCAGCAATACTGAGCTTTCACTTCTC
GCTGTTAGCTTCCATAGTCATCTACCGATACTTCTTCCACGCGCTGGACG
GGTTTCCAGGTCCAAAGCTGGCAAGGATTACAGCGCTGTGGGATTTCAAG
AATACGGTGCTGAATGCGAAATGGTATATCAAGGTGAAGGAAATGCATGG
GGTGTATGGGGATGTTGTCCGGATCA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0005506iron ion binding
GO:0020037heme binding
GO:0004497monooxygenase activity
GO:0016705oxidoreductase 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 NameUnique NameSpeciesType
ATCC10864_001187ATCC10864_001187Aspergillus niger ATCC 10864gene


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

Feature NameUnique NameSpeciesType
ATCC10864_001187-T1ATCC10864_001187-T1-proteinAspergillus niger ATCC 10864polypeptide


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

Feature NameUnique NameSpeciesType
ATCC10864_001187-T1.cdsATCC10864_001187-T1.cdsAspergillus niger ATCC 10864CDS


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

Feature NameUnique NameSpeciesType
ATCC10864_001187-T1.exon6ATCC10864_001187-T1.exon6Aspergillus niger ATCC 10864exon
ATCC10864_001187-T1.exon5ATCC10864_001187-T1.exon5Aspergillus niger ATCC 10864exon
ATCC10864_001187-T1.exon4ATCC10864_001187-T1.exon4Aspergillus niger ATCC 10864exon
ATCC10864_001187-T1.exon3ATCC10864_001187-T1.exon3Aspergillus niger ATCC 10864exon
ATCC10864_001187-T1.exon2ATCC10864_001187-T1.exon2Aspergillus niger ATCC 10864exon
ATCC10864_001187-T1.exon1ATCC10864_001187-T1.exon1Aspergillus niger ATCC 10864exon


Cross References
External references for this mRNA
DatabaseAccession
InterProIPR001128
InterProIPR002403
PFAMPF00067
InterProIPR036396
Properties
Property NameValue
NoteantiSMASH:Cluster_1000019.5
NoteSMCOG1034:cytochrome P450
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 10864 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
MCQH01000019supercontigMCQH01000019:1158806..1160590 -
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