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CBS51388_006264-T1, CBS51388_006264-T1 (mRNA) Aspergillus niger CBS 513.88

Overview
NameCBS51388_006264-T1
Unique NameCBS51388_006264-T1
TypemRNA
OrganismAspergillus niger CBS 513.88
Sequences
The following sequences are available for this feature:

mRNA from alignment at An09:1132811..1134769+

Legend: exonpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CBS51388_006264-T1 ID=CBS51388_006264-T1|Name=CBS51388_006264-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=1959bp|location=Sequence derived from alignment at An09:1132811..1134769+ (Aspergillus niger CBS 513.88)
ATGGTTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTC CTCGGTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGT ACTTTTTCATCCCAGGCATTGCGAACTTGGCTGGTGGTGCGTTTTCTCTC CTGCTTGCTAACTTCCTGGCTCTTGCTTCGGGCATAACACGGCGGTTGCA CTTGTGCCACTTTGTTAACCTCTTGCGACATCAGGCCTGCCAAATGCGTC ATACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTT TCCCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCT TCAACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCT GAAGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCC TCCCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCAC CCGAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGC CACCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACC CTCGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTT GTGTACATGAACGCAATCCAAACCGTGAAACCGCGGGGCCTTAACATCGT TCCAGTAGCCATAGATGCGCAGGGTATGCTTGCGCATGGTAAAGGAGGAT TGGCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCAT CTGATGTACACAATTACGTAAGTTCAAACCTCTGTAGCAACACTTTGCTG GCATGTTGGCTAATGTTGCCTTATCTGGTTGCAGTATCGGCCAAAACCCG ACGGGCGGGACCTTGTCGGTCGAGCGCAGGAGGGAGATCTACGCTCTCTG TCGACAATTCGACATCATCATCATAGAAGACGATCCGTACTGGAACTTAC AGTATCCTTCTGCAACTGCTATGGAGGCCGGATTTCGAGGATCAGATGCC GTAGATGTAATTCCACGCAACTACAACGCCCACGGCAGGTCCTCCGGGTA CGATTTTCTGGATTCCTTGGTGCCATCGTATCTCTCCGTTGATACAGACG GGCGTGTCGTGCGTCTTGACACCTTCTCGAAGACCATAGCTCCTGGTTGT CGCTTAGGATGGATTACCGCTCAGCCAGCTATAATTGAACGCCTGACTCG TCTCACCGAGACATCAACTCAGCAGCCATCAGGTTTTGTACAGGCCATGG TGGCCGAACTGATTGTGGGTCAGCAATCCGAGGATGGCCAGAATGCCACA GGTGCAAGTAAGAATAAATCTAAAAAGAGCGAACAAGCCTGGCAGATGGA CGGCTGGGTTCGCTGGTTGGAAGGCCTCCGTGCGGGATACGAACAACGCA TGACGACAATGTGTACAATTCTCGAAGAGGGCAAGTACCTCATTGACTCC GGTAGCGCATGGGACGATGCACAACCCATGGCAGAGGATGAGACCGCCTG GGAAGTCCTGGATAAGATGCAGATGTACGAGTTCTCCTGGCCCACCGGCG GTATGTTTGTGTGGGTCAAGGTTTGCATCGAGACGCACCCCTTGCTTGAG AAGTATGGCCCGGAGAAGCTGATCCAAGCTTTGTGGCTGCATTTGATGCA AAAGCCGTATTTGTGCCTTTCGGGTCCCGGAACCATGTTTGCTCCTACAA CGGAGCTTCTGGACCGGGCGCAGACATATTACAGGTTGTGCTTTGCGGCG ATGCCTGCGGAGGATGTGTTGGGCATTACTCGGAGGTTGGTAGATGGATT TCGCGCGTTTTGGCAACGGAAGAATCTCGATGGCTTGGATGATGAGGAGA TTGCTCTTAGTAGGCTGCAGGCAAAGGGTTCAGGCAACTTGTTGGGTTTG GGCTGCTAG
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Coding sequence (CDS) from alignment at An09:1132811..1134769+

>CBS51388_006264-T1 ID=CBS51388_006264-T1|Name=CBS51388_006264-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=5382bp|location=Sequence derived from alignment at An09:1132811..1134769+ (Aspergillus niger CBS 513.88)
ATGGTTTACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTC
CTCGGTCACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGT
ACTTTTTCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCG
TCATACTTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCG
TTTCCCCGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCC
CTTCAACGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTC
CTGAAGAAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGG
CCTCCCCGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCC
ACCCGAATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGT
GCCACCGACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGA
CCCTCGTCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAAT
TTGTGTACATGAACGCAATCCAAACCGTGAAACCGCGGGGCCTTAACATC
GTTCCAGTAGCCATAGATGCGCAGGGTATGCTTGCGCATGGTAAAGGAGG
ATTGGCCGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGC
ATCTGATGTACACAATTACTATCGGCCAAAACCCGACGGGCGGGACCTTG
TCGGTCGAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTCGACAT
CATCATCATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAA
CTGCTATGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCA
CGCAACTACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTC
CTTGGTGCCATCGTATCTCTCCGTTGATACAGACGGGCGTGTCGTGCGTC
TTGACACCTTCTCGAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATT
ACCGCTCAGCCAGCTATAATTGAACGCCTGACTCGTCTCACCGAGACATC
AACTCAGCAGCCATCAGGTTTTGTACAGGCCATGGTGGCCGAACTGATTG
TGGGTCAGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAAGAAT
AAATCTAAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTG
GTTGGAAGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTA
CAATTCTCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGAC
GATGCACAACCCATGGCAGAGGATGAGACCGCCTGGGAAGTCCTGGATAA
GATGCAGATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGG
TCAAGGTTTGCATCGAGACGCACCCCTTGCTTGAGAAGTATGGCCCGGAG
AAGCTGATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTG
CCTTTCGGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACC
GGGCGCAGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGAT
GTGTTGGGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCA
ACGGAAGAATCTCGATGGCTTGGATGATGAGGAGATTGCTCTTAGTAGGC
TGCAGGCAAAGGGTTCAGGCAACTTGTTGGGTTTGGGCTGCTAGATGGTT
TACTCAACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTCCTCGGT
CACGAAGAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGTACTTTT
TCATCCCAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCGTCATAC
TTCCCCTATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTTTCCC
CGCCACCTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCTTCAA
CGGAGCGCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCTGAAG
AAAATTGATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCCTCCC
CGTTATGGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCACCCGA
ATGTCCCCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGCCACC
GACGGGTTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACCCTCG
TCGGGATTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTTGTGT
ACATGAACGCAATCCAAACCGTGAAACCGCGGGGCCTTAACATCGTTCCA
GTAGCCATAGATGCGCAGGGTATGCTTGCGCATGGTAAAGGAGGATTGGC
CGACGTGCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCATCTGA
TGTACACAATTACTATCGGCCAAAACCCGACGGGCGGGACCTTGTCGGTC
GAGCGCAGGAGGGAGATCTACGCTCTCTGTCGACAATTCGACATCATCAT
CATAGAAGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAACTGCTA
TGGAGGCCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCACGCAAC
TACAACGCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTCCTTGGT
GCCATCGTATCTCTCCGTTGATACAGACGGGCGTGTCGTGCGTCTTGACA
CCTTCTCGAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATTACCGCT
CAGCCAGCTATAATTGAACGCCTGACTCGTCTCACCGAGACATCAACTCA
GCAGCCATCAGGTTTTGTACAGGCCATGGTGGCCGAACTGATTGTGGGTC
AGCAATCCGAGGATGGCCAGAATGCCACAGGTGCAAGTAAGAATAAATCT
AAAAAGAGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTGGTTGGA
AGGCCTCCGTGCGGGATACGAACAACGCATGACGACAATGTGTACAATTC
TCGAAGAGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGACGATGCA
CAACCCATGGCAGAGGATGAGACCGCCTGGGAAGTCCTGGATAAGATGCA
GATGTACGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGGTCAAGG
TTTGCATCGAGACGCACCCCTTGCTTGAGAAGTATGGCCCGGAGAAGCTG
ATCCAAGCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTGCCTTTC
GGGTCCCGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACCGGGCGC
AGACATATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGATGTGTTG
GGCATTACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCAACGGAA
GAATCTCGATGGCTTGGATGATGAGGAGATTGCTCTTAGTAGGCTGCAGG
CAAAGGGTTCAGGCAACTTGTTGGGTTTGGGCTGCTAGATGGTTTACTCA
ACGCTGTCTCCTCCCCTGGACCTGTCACATCACTTCTCCTCGGTCACGAA
GAGACGGGAGGCGAGCGAAACAAAGAGCCTGTATAAGTACTTTTTCATCC
CAGGCATTGCGAACTTGGCTGGTGGCCTGCCAAATGCGTCATACTTCCCC
TATGATACCCTCGAAGCTACCGTTGCTCATCCTCAGCGTTTCCCCGCCAC
CTCCGACAATGACCAGATCAAGCCCCCCAGTGGCTCCCCTTCAACGGAGC
GCAGAATCGTCCCGAAAGAAAGCCCGACTACCAATCTCCTGAAGAAAATT
GATCTTACCACAGCCCTCCAGTATGGAACAGCTGAAGGCCTCCCCGTTAT
GGCCGATTTCGTCCGGCAGTTCACTCGCAATCACCTCCACCCGAATGTCC
CCTATGCCGGCGGCCCTGGCACCCTTCTCACGTGCGGTGCCACCGACGGG
TTTTCCAAGGCCATTGAAACCTTTACTAACCCGTGGGACCCTCGTCGGGA
TTGGATCAGTCAACGTGAGGGCATACTATGCGAGGAATTTGTGTACATGA
ACGCAATCCAAACCGTGAAACCGCGGGGCCTTAACATCGTTCCAGTAGCC
ATAGATGCGCAGGGTATGCTTGCGCATGGTAAAGGAGGATTGGCCGACGT
GCTTGAGAACTGGGATTTCAAGAAGGGCCGTCTCCCGCATCTGATGTACA
CAATTACTATCGGCCAAAACCCGACGGGCGGGACCTTGTCGGTCGAGCGC
AGGAGGGAGATCTACGCTCTCTGTCGACAATTCGACATCATCATCATAGA
AGACGATCCGTACTGGAACTTACAGTATCCTTCTGCAACTGCTATGGAGG
CCGGATTTCGAGGATCAGATGCCGTAGATGTAATTCCACGCAACTACAAC
GCCCACGGCAGGTCCTCCGGGTACGATTTTCTGGATTCCTTGGTGCCATC
GTATCTCTCCGTTGATACAGACGGGCGTGTCGTGCGTCTTGACACCTTCT
CGAAGACCATAGCTCCTGGTTGTCGCTTAGGATGGATTACCGCTCAGCCA
GCTATAATTGAACGCCTGACTCGTCTCACCGAGACATCAACTCAGCAGCC
ATCAGGTTTTGTACAGGCCATGGTGGCCGAACTGATTGTGGGTCAGCAAT
CCGAGGATGGCCAGAATGCCACAGGTGCAAGTAAGAATAAATCTAAAAAG
AGCGAACAAGCCTGGCAGATGGACGGCTGGGTTCGCTGGTTGGAAGGCCT
CCGTGCGGGATACGAACAACGCATGACGACAATGTGTACAATTCTCGAAG
AGGGCAAGTACCTCATTGACTCCGGTAGCGCATGGGACGATGCACAACCC
ATGGCAGAGGATGAGACCGCCTGGGAAGTCCTGGATAAGATGCAGATGTA
CGAGTTCTCCTGGCCCACCGGCGGTATGTTTGTGTGGGTCAAGGTTTGCA
TCGAGACGCACCCCTTGCTTGAGAAGTATGGCCCGGAGAAGCTGATCCAA
GCTTTGTGGCTGCATTTGATGCAAAAGCCGTATTTGTGCCTTTCGGGTCC
CGGAACCATGTTTGCTCCTACAACGGAGCTTCTGGACCGGGCGCAGACAT
ATTACAGGTTGTGCTTTGCGGCGATGCCTGCGGAGGATGTGTTGGGCATT
ACTCGGAGGTTGGTAGATGGATTTCGCGCGTTTTGGCAACGGAAGAATCT
CGATGGCTTGGATGATGAGGAGATTGCTCTTAGTAGGCTGCAGGCAAAGG
GTTCAGGCAACTTGTTGGGTTTGGGCTGCTAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0003824catalytic activity
GO:0030170pyridoxal phosphate binding
Vocabulary: Biological Process
TermDefinition
GO:0009058biosynthetic process
Relationships

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

Feature NameUnique NameSpeciesType
CBS51388_006264CBS51388_006264Aspergillus niger CBS 513.88gene


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

Feature NameUnique NameSpeciesType
CBS51388_006264-T1.exon1CBS51388_006264-T1.exon1Aspergillus niger CBS 513.88exon
CBS51388_006264-T1.exon2CBS51388_006264-T1.exon2Aspergillus niger CBS 513.88exon
CBS51388_006264-T1.exon3CBS51388_006264-T1.exon3Aspergillus niger CBS 513.88exon


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

Feature NameUnique NameSpeciesType
CBS51388_006264-T1.cdsCBS51388_006264-T1.cdsAspergillus niger CBS 513.88CDS


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

Feature NameUnique NameSpeciesType
CBS51388_006264-T1CBS51388_006264-T1-proteinAspergillus niger CBS 513.88polypeptide


Properties
Property NameValue
NoteantiSMASH:Cluster_9.7
NoteSMCOG1019:aminotransferase
DBxrefInterPro:IPR015424
DBxrefInterPro:IPR015421
DBxrefInterPro:IPR004839
DBxrefPFAM:PF00155
Productputative secondary metabolism biosynthetic enzyme
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger CBS 513.88 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
An09supercontigAn09:1132811..1134769 +