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CBS51388_008717-T1, CBS51388_008717-T1 (mRNA) Aspergillus niger CBS 513.88

Overview
NameCBS51388_008717-T1
Unique NameCBS51388_008717-T1
TypemRNA
OrganismAspergillus niger CBS 513.88
Sequences
The following sequences are available for this feature:

mRNA from alignment at An14:467505..469505-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CBS51388_008717-T1 ID=CBS51388_008717-T1|Name=CBS51388_008717-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2001bp|location=Sequence derived from alignment at An14:467505..469505- (Aspergillus niger CBS 513.88)
ATGGCCGCAAAGGCATCCCCTACGGCCGTCTCGGCCAACTCTGGCGCGGA
GGAAGCTGGACTCTCGGATCCCGGAGATTCGCAACTACTAGGTGAGTCTG
CGACCGATTTGTTCAGGGACGAGGGTCACGGACGCCCATGCTAACAGGTG
TCAGCCAAAATGGGCTACAAACAGGAACTCCGTCGCCAGTATTCCACCGT
GCAAATATTCGCCGTCGCATTCAGTATCATGGGTTTAGTGCCGTCAATCG
CATCTACACTTTCGTTTTCCTTACCGGCCGGGCCTGCAGGGATGATCTGG
GTGGGTATATGCATATGGGCTTACAGCTCGCGTGGCACGAGCTAACATCA
TGCAGGGCTGGTTTACCGCAAGTATCTTGATCTTCTTCGTTGGATTAGCC
CTGGTATGTGGACCTTCGCCCTAGTACATGCCAAGCCATGCTAAGACAAC
AATATAGGCCGACATGGCATCGGCAATGCCTACAGCTGGTGGTCTATACT
GGTGGACGCACTACTTTGCTGGAAAGAAATATAAAAATGTGTTGAGCTTC
CTGGTTGGTTACAGCAATACGCTGGGCCTGATTGGCGGAATTTGCTCCGT
GGATTGTAAGCCTTCACTCACCCCCTGAGAGTGATTTGCTGCTAATTGCC
AGACACCCTCGCGCTTATGATTCTCGCCTGCGTCTCCATCACCCGCGACG
GTACCTATTCCGCCTCCAACGGCACCATCTACGGCGTCTATGTCGGTCTC
ATCCTAGTTCACGCCGTTGTCAGCGTCTACTCGGGACCAATCATGCCCCG
TATCCAGACGTTCTGCATCTTCATCAACATTGCCATCATCATCGCTACAG
TCATCGCTCTGCCCGTCGGCAAAGTCACCCGTGGGGAGTCCCTCAACCCG
GGCACTTGGGTCTTTGGGCACGTGGACAACGAGAGTACATGGCCAACAGG
GTGGAACTTCATCCTAGCGTTCCTCGCGCCAATCTGGTCGATCGGATTCT
TTGACTCATGCGTGCACATGAGCGAGGAAGCCCTACACGCCGCCAAGGCG
GTTCCTCTAGGAATCATCTGGTCCTCCGGATGCGCATGCGTGTTCGGGTT
CCTAGTCTTGAGCATTATAGCTGCAGTGATGAACCAGGACGTCAACGCAA
CAATCAACTCCGTGTTCGGCCAGCCCATGGCCCAGGTCTACTACGACGCA
CTAGGCAAAAAGGGCGCGCTCGGATTCATGGGTGTGCTGATCGTAATCCA
ATTCCTAATTGGCCTCAGCTTGGTATGCCCGCCCATCCCCCTTTTTCCCA
GATTCAACATCCCTCAACCCAACTTACACTAATAACACAAACAGATCACC
GCTGCCTCTCGCCAAGCCTGGGCCTTCTCCCGCGATGGTGCTCTCCCCTT
CTCGAACTACTTCCGCCACGTCAGTCATCGCATCCGCTACCAGCCCGTGC
GCGCCATCTGCGGCCTCGTAGCAGTCAGCATCGTTTTCGGCCTACTCTGC
CTCATCAACTCCGTCGCAGCGAACGCACTTTTCTCGCTCTTCGTGGCCAG
TAACTACGTCGCATGGGCAACGCCCATCCTCTGCCGCTTGATCTGGGGCA
AGGAGCGCTTCAGACCGGGCGAGTTCTATACGGGATTTATGAGCCGTCCG
ATTGCTATTGTTGCGGTGCTGTGGTTGGCCTTTGGGTTGATGCTGTCGAT
GTTCCCAACGACGGGGCCGAATCCGAGTCGTACGTATATTCCATTCCTTT
GCGTTCATGGAGATGAAGACCTGTTTATTTTGTTGAGAAATATGCTAATA
TGATTTGATGCAGCATCCGATATGAACTACACGATCGTCATTAACGGATT
CGTGTGGGTCGCTTGCATGACGTACTACTTCCTGTTTGCGCGCAAGTGGT
ACACAGGGCCGAAGATGACAGTGGACGGGGTGGAAGAGGAGAGGACGGAG
TCAGAGACGGAAGAGAAGAGGGACGAAGCGCATACTGGTGCTTCATACTA
A
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Coding sequence (CDS) from alignment at An14:467505..469505-

>CBS51388_008717-T1 ID=CBS51388_008717-T1|Name=CBS51388_008717-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=9054bp|location=Sequence derived from alignment at An14:467505..469505- (Aspergillus niger CBS 513.88)
CATCCGATATGAACTACACGATCGTCATTAACGGATTCGTGTGGGTCGCT
TGCATGACGTACTACTTCCTGTTTGCGCGCAAGTGGTACACAGGGCCGAA
GATGACAGTGGACGGGGTGGAAGAGGAGAGGACGGAGTCAGAGACGGAAG
AGAAGAGGGACGAAGCGCATACTGGTGCTTCATACTAAATCACCGCTGCC
TCTCGCCAAGCCTGGGCCTTCTCCCGCGATGGTGCTCTCCCCTTCTCGAA
CTACTTCCGCCACGTCAGTCATCGCATCCGCTACCAGCCCGTGCGCGCCA
TCTGCGGCCTCGTAGCAGTCAGCATCGTTTTCGGCCTACTCTGCCTCATC
AACTCCGTCGCAGCGAACGCACTTTTCTCGCTCTTCGTGGCCAGTAACTA
CGTCGCATGGGCAACGCCCATCCTCTGCCGCTTGATCTGGGGCAAGGAGC
GCTTCAGACCGGGCGAGTTCTATACGGGATTTATGAGCCGTCCGATTGCT
ATTGTTGCGGTGCTGTGGTTGGCCTTTGGGTTGATGCTGTCGATGTTCCC
AACGACGGGGCCGAATCCGAGTCACACCCTCGCGCTTATGATTCTCGCCT
GCGTCTCCATCACCCGCGACGGTACCTATTCCGCCTCCAACGGCACCATC
TACGGCGTCTATGTCGGTCTCATCCTAGTTCACGCCGTTGTCAGCGTCTA
CTCGGGACCAATCATGCCCCGTATCCAGACGTTCTGCATCTTCATCAACA
TTGCCATCATCATCGCTACAGTCATCGCTCTGCCCGTCGGCAAAGTCACC
CGTGGGGAGTCCCTCAACCCGGGCACTTGGGTCTTTGGGCACGTGGACAA
CGAGAGTACATGGCCAACAGGGTGGAACTTCATCCTAGCGTTCCTCGCGC
CAATCTGGTCGATCGGATTCTTTGACTCATGCGTGCACATGAGCGAGGAA
GCCCTACACGCCGCCAAGGCGGTTCCTCTAGGAATCATCTGGTCCTCCGG
ATGCGCATGCGTGTTCGGGTTCCTAGTCTTGAGCATTATAGCTGCAGTGA
TGAACCAGGACGTCAACGCAACAATCAACTCCGTGTTCGGCCAGCCCATG
GCCCAGGTCTACTACGACGCACTAGGCAAAAAGGGCGCGCTCGGATTCAT
GGGTGTGCTGATCGTAATCCAATTCCTAATTGGCCTCAGCTTGGCCGACA
TGGCATCGGCAATGCCTACAGCTGGTGGTCTATACTGGTGGACGCACTAC
TTTGCTGGAAAGAAATATAAAAATGTGTTGAGCTTCCTGGTTGGTTACAG
CAATACGCTGGGCCTGATTGGCGGAATTTGCTCCGTGGATTCTCGCGTGG
CACGAGCTAACATCATGCAGGGCTGGTTTACCGCAAGTATCTTGATCTTC
TTCGTTGGATTAGCCCTGATGGCCGCAAAGGCATCCCCTACGGCCGTCTC
GGCCAACTCTGGCGCGGAGGAAGCTGGACTCTCGGATCCCGGAGATTCGC
AACTACTAGCATCCGATATGAACTACACGATCGTCATTAACGGATTCGTG
TGGGTCGCTTGCATGACGTACTACTTCCTGTTTGCGCGCAAGTGGTACAC
AGGGCCGAAGATGACAGTGGACGGGGTGGAAGAGGAGAGGACGGAGTCAG
AGACGGAAGAGAAGAGGGACGAAGCGCATACTGGTGCTTCATACTAAATC
ACCGCTGCCTCTCGCCAAGCCTGGGCCTTCTCCCGCGATGGTGCTCTCCC
CTTCTCGAACTACTTCCGCCACGTCAGTCATCGCATCCGCTACCAGCCCG
TGCGCGCCATCTGCGGCCTCGTAGCAGTCAGCATCGTTTTCGGCCTACTC
TGCCTCATCAACTCCGTCGCAGCGAACGCACTTTTCTCGCTCTTCGTGGC
CAGTAACTACGTCGCATGGGCAACGCCCATCCTCTGCCGCTTGATCTGGG
GCAAGGAGCGCTTCAGACCGGGCGAGTTCTATACGGGATTTATGAGCCGT
CCGATTGCTATTGTTGCGGTGCTGTGGTTGGCCTTTGGGTTGATGCTGTC
GATGTTCCCAACGACGGGGCCGAATCCGAGTCACACCCTCGCGCTTATGA
TTCTCGCCTGCGTCTCCATCACCCGCGACGGTACCTATTCCGCCTCCAAC
GGCACCATCTACGGCGTCTATGTCGGTCTCATCCTAGTTCACGCCGTTGT
CAGCGTCTACTCGGGACCAATCATGCCCCGTATCCAGACGTTCTGCATCT
TCATCAACATTGCCATCATCATCGCTACAGTCATCGCTCTGCCCGTCGGC
AAAGTCACCCGTGGGGAGTCCCTCAACCCGGGCACTTGGGTCTTTGGGCA
CGTGGACAACGAGAGTACATGGCCAACAGGGTGGAACTTCATCCTAGCGT
TCCTCGCGCCAATCTGGTCGATCGGATTCTTTGACTCATGCGTGCACATG
AGCGAGGAAGCCCTACACGCCGCCAAGGCGGTTCCTCTAGGAATCATCTG
GTCCTCCGGATGCGCATGCGTGTTCGGGTTCCTAGTCTTGAGCATTATAG
CTGCAGTGATGAACCAGGACGTCAACGCAACAATCAACTCCGTGTTCGGC
CAGCCCATGGCCCAGGTCTACTACGACGCACTAGGCAAAAAGGGCGCGCT
CGGATTCATGGGTGTGCTGATCGTAATCCAATTCCTAATTGGCCTCAGCT
TGGCCGACATGGCATCGGCAATGCCTACAGCTGGTGGTCTATACTGGTGG
ACGCACTACTTTGCTGGAAAGAAATATAAAAATGTGTTGAGCTTCCTGGT
TGGTTACAGCAATACGCTGGGCCTGATTGGCGGAATTTGCTCCGTGGATT
CTCGCGTGGCACGAGCTAACATCATGCAGGGCTGGTTTACCGCAAGTATC
TTGATCTTCTTCGTTGGATTAGCCCTGATGGCCGCAAAGGCATCCCCTAC
GGCCGTCTCGGCCAACTCTGGCGCGGAGGAAGCTGGACTCTCGGATCCCG
GAGATTCGCAACTACTAGCATCCGATATGAACTACACGATCGTCATTAAC
GGATTCGTGTGGGTCGCTTGCATGACGTACTACTTCCTGTTTGCGCGCAA
GTGGTACACAGGGCCGAAGATGACAGTGGACGGGGTGGAAGAGGAGAGGA
CGGAGTCAGAGACGGAAGAGAAGAGGGACGAAGCGCATACTGGTGCTTCA
TACTAAATCACCGCTGCCTCTCGCCAAGCCTGGGCCTTCTCCCGCGATGG
TGCTCTCCCCTTCTCGAACTACTTCCGCCACGTCAGTCATCGCATCCGCT
ACCAGCCCGTGCGCGCCATCTGCGGCCTCGTAGCAGTCAGCATCGTTTTC
GGCCTACTCTGCCTCATCAACTCCGTCGCAGCGAACGCACTTTTCTCGCT
CTTCGTGGCCAGTAACTACGTCGCATGGGCAACGCCCATCCTCTGCCGCT
TGATCTGGGGCAAGGAGCGCTTCAGACCGGGCGAGTTCTATACGGGATTT
ATGAGCCGTCCGATTGCTATTGTTGCGGTGCTGTGGTTGGCCTTTGGGTT
GATGCTGTCGATGTTCCCAACGACGGGGCCGAATCCGAGTCACACCCTCG
CGCTTATGATTCTCGCCTGCGTCTCCATCACCCGCGACGGTACCTATTCC
GCCTCCAACGGCACCATCTACGGCGTCTATGTCGGTCTCATCCTAGTTCA
CGCCGTTGTCAGCGTCTACTCGGGACCAATCATGCCCCGTATCCAGACGT
TCTGCATCTTCATCAACATTGCCATCATCATCGCTACAGTCATCGCTCTG
CCCGTCGGCAAAGTCACCCGTGGGGAGTCCCTCAACCCGGGCACTTGGGT
CTTTGGGCACGTGGACAACGAGAGTACATGGCCAACAGGGTGGAACTTCA
TCCTAGCGTTCCTCGCGCCAATCTGGTCGATCGGATTCTTTGACTCATGC
GTGCACATGAGCGAGGAAGCCCTACACGCCGCCAAGGCGGTTCCTCTAGG
AATCATCTGGTCCTCCGGATGCGCATGCGTGTTCGGGTTCCTAGTCTTGA
GCATTATAGCTGCAGTGATGAACCAGGACGTCAACGCAACAATCAACTCC
GTGTTCGGCCAGCCCATGGCCCAGGTCTACTACGACGCACTAGGCAAAAA
GGGCGCGCTCGGATTCATGGGTGTGCTGATCGTAATCCAATTCCTAATTG
GCCTCAGCTTGGCCGACATGGCATCGGCAATGCCTACAGCTGGTGGTCTA
TACTGGTGGACGCACTACTTTGCTGGAAAGAAATATAAAAATGTGTTGAG
CTTCCTGGTTGGTTACAGCAATACGCTGGGCCTGATTGGCGGAATTTGCT
CCGTGGATTCTCGCGTGGCACGAGCTAACATCATGCAGGGCTGGTTTACC
GCAAGTATCTTGATCTTCTTCGTTGGATTAGCCCTGATGGCCGCAAAGGC
ATCCCCTACGGCCGTCTCGGCCAACTCTGGCGCGGAGGAAGCTGGACTCT
CGGATCCCGGAGATTCGCAACTACTAGCATCCGATATGAACTACACGATC
GTCATTAACGGATTCGTGTGGGTCGCTTGCATGACGTACTACTTCCTGTT
TGCGCGCAAGTGGTACACAGGGCCGAAGATGACAGTGGACGGGGTGGAAG
AGGAGAGGACGGAGTCAGAGACGGAAGAGAAGAGGGACGAAGCGCATACT
GGTGCTTCATACTAAATCACCGCTGCCTCTCGCCAAGCCTGGGCCTTCTC
CCGCGATGGTGCTCTCCCCTTCTCGAACTACTTCCGCCACGTCAGTCATC
GCATCCGCTACCAGCCCGTGCGCGCCATCTGCGGCCTCGTAGCAGTCAGC
ATCGTTTTCGGCCTACTCTGCCTCATCAACTCCGTCGCAGCGAACGCACT
TTTCTCGCTCTTCGTGGCCAGTAACTACGTCGCATGGGCAACGCCCATCC
TCTGCCGCTTGATCTGGGGCAAGGAGCGCTTCAGACCGGGCGAGTTCTAT
ACGGGATTTATGAGCCGTCCGATTGCTATTGTTGCGGTGCTGTGGTTGGC
CTTTGGGTTGATGCTGTCGATGTTCCCAACGACGGGGCCGAATCCGAGTC
ACACCCTCGCGCTTATGATTCTCGCCTGCGTCTCCATCACCCGCGACGGT
ACCTATTCCGCCTCCAACGGCACCATCTACGGCGTCTATGTCGGTCTCAT
CCTAGTTCACGCCGTTGTCAGCGTCTACTCGGGACCAATCATGCCCCGTA
TCCAGACGTTCTGCATCTTCATCAACATTGCCATCATCATCGCTACAGTC
ATCGCTCTGCCCGTCGGCAAAGTCACCCGTGGGGAGTCCCTCAACCCGGG
CACTTGGGTCTTTGGGCACGTGGACAACGAGAGTACATGGCCAACAGGGT
GGAACTTCATCCTAGCGTTCCTCGCGCCAATCTGGTCGATCGGATTCTTT
GACTCATGCGTGCACATGAGCGAGGAAGCCCTACACGCCGCCAAGGCGGT
TCCTCTAGGAATCATCTGGTCCTCCGGATGCGCATGCGTGTTCGGGTTCC
TAGTCTTGAGCATTATAGCTGCAGTGATGAACCAGGACGTCAACGCAACA
ATCAACTCCGTGTTCGGCCAGCCCATGGCCCAGGTCTACTACGACGCACT
AGGCAAAAAGGGCGCGCTCGGATTCATGGGTGTGCTGATCGTAATCCAAT
TCCTAATTGGCCTCAGCTTGGCCGACATGGCATCGGCAATGCCTACAGCT
GGTGGTCTATACTGGTGGACGCACTACTTTGCTGGAAAGAAATATAAAAA
TGTGTTGAGCTTCCTGGTTGGTTACAGCAATACGCTGGGCCTGATTGGCG
GAATTTGCTCCGTGGATTCTCGCGTGGCACGAGCTAACATCATGCAGGGC
TGGTTTACCGCAAGTATCTTGATCTTCTTCGTTGGATTAGCCCTGATGGC
CGCAAAGGCATCCCCTACGGCCGTCTCGGCCAACTCTGGCGCGGAGGAAG
CTGGACTCTCGGATCCCGGAGATTCGCAACTACTAGCATCCGATATGAAC
TACACGATCGTCATTAACGGATTCGTGTGGGTCGCTTGCATGACGTACTA
CTTCCTGTTTGCGCGCAAGTGGTACACAGGGCCGAAGATGACAGTGGACG
GGGTGGAAGAGGAGAGGACGGAGTCAGAGACGGAAGAGAAGAGGGACGAA
GCGCATACTGGTGCTTCATACTAAATCACCGCTGCCTCTCGCCAAGCCTG
GGCCTTCTCCCGCGATGGTGCTCTCCCCTTCTCGAACTACTTCCGCCACG
TCAGTCATCGCATCCGCTACCAGCCCGTGCGCGCCATCTGCGGCCTCGTA
GCAGTCAGCATCGTTTTCGGCCTACTCTGCCTCATCAACTCCGTCGCAGC
GAACGCACTTTTCTCGCTCTTCGTGGCCAGTAACTACGTCGCATGGGCAA
CGCCCATCCTCTGCCGCTTGATCTGGGGCAAGGAGCGCTTCAGACCGGGC
GAGTTCTATACGGGATTTATGAGCCGTCCGATTGCTATTGTTGCGGTGCT
GTGGTTGGCCTTTGGGTTGATGCTGTCGATGTTCCCAACGACGGGGCCGA
ATCCGAGTCACACCCTCGCGCTTATGATTCTCGCCTGCGTCTCCATCACC
CGCGACGGTACCTATTCCGCCTCCAACGGCACCATCTACGGCGTCTATGT
CGGTCTCATCCTAGTTCACGCCGTTGTCAGCGTCTACTCGGGACCAATCA
TGCCCCGTATCCAGACGTTCTGCATCTTCATCAACATTGCCATCATCATC
GCTACAGTCATCGCTCTGCCCGTCGGCAAAGTCACCCGTGGGGAGTCCCT
CAACCCGGGCACTTGGGTCTTTGGGCACGTGGACAACGAGAGTACATGGC
CAACAGGGTGGAACTTCATCCTAGCGTTCCTCGCGCCAATCTGGTCGATC
GGATTCTTTGACTCATGCGTGCACATGAGCGAGGAAGCCCTACACGCCGC
CAAGGCGGTTCCTCTAGGAATCATCTGGTCCTCCGGATGCGCATGCGTGT
TCGGGTTCCTAGTCTTGAGCATTATAGCTGCAGTGATGAACCAGGACGTC
AACGCAACAATCAACTCCGTGTTCGGCCAGCCCATGGCCCAGGTCTACTA
CGACGCACTAGGCAAAAAGGGCGCGCTCGGATTCATGGGTGTGCTGATCG
TAATCCAATTCCTAATTGGCCTCAGCTTGGCCGACATGGCATCGGCAATG
CCTACAGCTGGTGGTCTATACTGGTGGACGCACTACTTTGCTGGAAAGAA
ATATAAAAATGTGTTGAGCTTCCTGGTTGGTTACAGCAATACGCTGGGCC
TGATTGGCGGAATTTGCTCCGTGGATTCTCGCGTGGCACGAGCTAACATC
ATGCAGGGCTGGTTTACCGCAAGTATCTTGATCTTCTTCGTTGGATTAGC
CCTGATGGCCGCAAAGGCATCCCCTACGGCCGTCTCGGCCAACTCTGGCG
CGGAGGAAGCTGGACTCTCGGATCCCGGAGATTCGCAACTACTAGCATCC
GATATGAACTACACGATCGTCATTAACGGATTCGTGTGGGTCGCTTGCAT
GACGTACTACTTCCTGTTTGCGCGCAAGTGGTACACAGGGCCGAAGATGA
CAGTGGACGGGGTGGAAGAGGAGAGGACGGAGTCAGAGACGGAAGAGAAG
AGGGACGAAGCGCATACTGGTGCTTCATACTAAATCACCGCTGCCTCTCG
CCAAGCCTGGGCCTTCTCCCGCGATGGTGCTCTCCCCTTCTCGAACTACT
TCCGCCACGTCAGTCATCGCATCCGCTACCAGCCCGTGCGCGCCATCTGC
GGCCTCGTAGCAGTCAGCATCGTTTTCGGCCTACTCTGCCTCATCAACTC
CGTCGCAGCGAACGCACTTTTCTCGCTCTTCGTGGCCAGTAACTACGTCG
CATGGGCAACGCCCATCCTCTGCCGCTTGATCTGGGGCAAGGAGCGCTTC
AGACCGGGCGAGTTCTATACGGGATTTATGAGCCGTCCGATTGCTATTGT
TGCGGTGCTGTGGTTGGCCTTTGGGTTGATGCTGTCGATGTTCCCAACGA
CGGGGCCGAATCCGAGTCACACCCTCGCGCTTATGATTCTCGCCTGCGTC
TCCATCACCCGCGACGGTACCTATTCCGCCTCCAACGGCACCATCTACGG
CGTCTATGTCGGTCTCATCCTAGTTCACGCCGTTGTCAGCGTCTACTCGG
GACCAATCATGCCCCGTATCCAGACGTTCTGCATCTTCATCAACATTGCC
ATCATCATCGCTACAGTCATCGCTCTGCCCGTCGGCAAAGTCACCCGTGG
GGAGTCCCTCAACCCGGGCACTTGGGTCTTTGGGCACGTGGACAACGAGA
GTACATGGCCAACAGGGTGGAACTTCATCCTAGCGTTCCTCGCGCCAATC
TGGTCGATCGGATTCTTTGACTCATGCGTGCACATGAGCGAGGAAGCCCT
ACACGCCGCCAAGGCGGTTCCTCTAGGAATCATCTGGTCCTCCGGATGCG
CATGCGTGTTCGGGTTCCTAGTCTTGAGCATTATAGCTGCAGTGATGAAC
CAGGACGTCAACGCAACAATCAACTCCGTGTTCGGCCAGCCCATGGCCCA
GGTCTACTACGACGCACTAGGCAAAAAGGGCGCGCTCGGATTCATGGGTG
TGCTGATCGTAATCCAATTCCTAATTGGCCTCAGCTTGGCCGACATGGCA
TCGGCAATGCCTACAGCTGGTGGTCTATACTGGTGGACGCACTACTTTGC
TGGAAAGAAATATAAAAATGTGTTGAGCTTCCTGGTTGGTTACAGCAATA
CGCTGGGCCTGATTGGCGGAATTTGCTCCGTGGATTCTCGCGTGGCACGA
GCTAACATCATGCAGGGCTGGTTTACCGCAAGTATCTTGATCTTCTTCGT
TGGATTAGCCCTGATGGCCGCAAAGGCATCCCCTACGGCCGTCTCGGCCA
ACTCTGGCGCGGAGGAAGCTGGACTCTCGGATCCCGGAGATTCGCAACTA
CTAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0016020membrane
Vocabulary: Molecular Function
TermDefinition
GO:0022857transmembrane transporter activity
Vocabulary: Biological Process
TermDefinition
GO:0055085transmembrane transport
Relationships

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

Feature NameUnique NameSpeciesType
CBS51388_008717CBS51388_008717Aspergillus niger CBS 513.88gene


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

Feature NameUnique NameSpeciesType
CBS51388_008717-T1CBS51388_008717-T1-proteinAspergillus niger CBS 513.88polypeptide


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

Feature NameUnique NameSpeciesType
CBS51388_008717-T1.cdsCBS51388_008717-T1.cdsAspergillus niger CBS 513.88CDS


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

Feature NameUnique NameSpeciesType
CBS51388_008717-T1.exon6CBS51388_008717-T1.exon6Aspergillus niger CBS 513.88exon
CBS51388_008717-T1.exon5CBS51388_008717-T1.exon5Aspergillus niger CBS 513.88exon
CBS51388_008717-T1.exon4CBS51388_008717-T1.exon4Aspergillus niger CBS 513.88exon
CBS51388_008717-T1.exon3CBS51388_008717-T1.exon3Aspergillus niger CBS 513.88exon
CBS51388_008717-T1.exon2CBS51388_008717-T1.exon2Aspergillus niger CBS 513.88exon
CBS51388_008717-T1.exon1CBS51388_008717-T1.exon1Aspergillus niger CBS 513.88exon


Properties
Property NameValue
NoteantiSMASH:Cluster_14.2
NoteantiSMASH:Cluster_14.1
NoteSMCOG1038:phenylalanine-specific permease
DBxrefInterPro:IPR002293
DBxrefPFAM:PF13520
Producthypothetical protein
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
An14supercontigAn14:467505..469505 -
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