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ASPNIDRAFT_38549-T1, ASPNIDRAFT_38549-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_38549-T1
Unique NameASPNIDRAFT_38549-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000021.1:382270..384187-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_38549-T1 ID=ASPNIDRAFT_38549-T1|Name=ASPNIDRAFT_38549-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1918bp|location=Sequence derived from alignment at ACJE01000021.1:382270..384187- (Aspergillus niger ATCC 1015)
ATGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGTATTTCCAT
CCACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTACGCGGGGT
TTACAGAGTAAGTTCAAGGATCATAACCCATCTAGTCTGTGGAAAGGTTG
GCAGTGAGCTCATGTATCATAAGACACATGGGCAGGTGCATTTACGGGGG
AATCTACGATCCAGGTAATTCACTGTCGGACGAGAATGGCTTCAGGAAGG
ATGTCCTTGAAGCTCTGAAGGAGCTCAATATCCCCGTCGTCCGCTACCCC
GGCGGGAACTTCATGGCGACTTATCATTGGATCGATGGAGTTGGCCCGAA
GGAGAAACGGCCTGCTAGGTATGTCCACATGACCATCTAGTCAACATCTA
TCGTCATACCTTGTCTGGGGTCTTTGCTGTTATGCATCTCATACGATAGA
TATCCTTTCAATTCAATGGCGATGTTGTAAGACTAACCACATTGCTCTAT
AGACCTGAGCTGGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGA
TGAATTCTTGAAATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCT
TGAACTTTGGAACTGGTAATGTGATTCATCTTACTTGAAGAACCAGCGCT
GACGTATGGCCAGGTACTCTTGACGAAGGTAACAGATCTCAACTCCATTC
CTGGCACATCACTAATGGCCTTTGGTATAGCGCTGGCGTGGGTCGAGTAC
TGTAACGGTACCAAAGATACATACTATGCTAACCTTCGACGGAAGAATGG
TCGCGAGGAACCATACAATGTATGTAACCCTATCCCTCTGTCTTCCTTTA
TACTCATTCGATACTCCAGGTCAAATACTGGGCCCTAGGCAATGAGACCT
GGGGTCCCTGGCAGGTCGAACAGATGACCAAGGAAGCATATGCTCACAAA
GCCTATCAATGGGCCAAGGGTACGCCATCTGTTGCTTTTCTCATAAGCTC
TTACTGATACGGTCTATAGCCTTGAAGCTCCTTGATCCCAGCTTGATCTT
GATTCTCTGTGGACAAGATGGCACAGCTTCATGGGACTACTATACCCTTA
AGCAATGCCTACTCCCAGCCCACTCTCCTCTATCTACCAGCACTGTGCCT
CTCATCGACATGCACAGCATCCATCTATACACATCCTCTCCCTCTCATCT
CCCCAATGTTACTGCCCCCCTAGCCGCAGAGCGTGCCATCGAAATCACCT
CGTCTCTGATAGACCTCGCCCGAATTGAGAACGGAGTCCCACCCGACCAA
CACCGACCCACCATTTGCTTCGATGAATGGAACGTCTGGGACCCTATTCG
CGCAGAGGGCAGCAAGGGTGCAGAGGAGTCCTACACCCTCTCGGACGCAC
TCGCCGTCGCCGTTTTTCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTG
GGCATGGCGTGCATCGCCCAGAGCGTCAATGTCATCTCCCCACTCATGAC
AAGCAAGGACGGCATCACTAAGCAGACGACTTATTGGCCTTTGTACCTGT
TCTCGAAGTATATGCGGGGATGGACCATCAGTGTGCATCTTTCCTGCGCC
TCGTATGAAGGAGAGACTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATAC
ACCCTGGTTGGACGTTAGCGCTACCCTCGGTGAGGATGGGTATGTGAATG
TTGCGGTGGTCAATATTCATGAGGAAAAAGATATCCGGAGTAGCATTGAT
GGGCCGTCTGGGACGGTTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCA
AGCTTGTAATATGAATGGCAAAGAGGAGGTTGCAGTGACTGAGAGTACAT
GGGAGGCAAGGGAACAATTTGTGTTCCCGAAACATTCTTTGACTTTGCTG
AGGTGGAAGCTGGCGTGA
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Coding sequence (CDS) from alignment at ACJE01000021.1:382270..384187-

>ASPNIDRAFT_38549-T1 ID=ASPNIDRAFT_38549-T1|Name=ASPNIDRAFT_38549-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9018bp|location=Sequence derived from alignment at ACJE01000021.1:382270..384187- (Aspergillus niger ATCC 1015)
CCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATTCTCTGTGGACAAGAT
GGCACAGCTTCATGGGACTACTATACCCTTAAGCAATGCCTACTCCCAGC
CCACTCTCCTCTATCTACCAGCACTGTGCCTCTCATCGACATGCACAGCA
TCCATCTATACACATCCTCTCCCTCTCATCTCCCCAATGTTACTGCCCCC
CTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTCTCTGATAGACCTCGC
CCGAATTGAGAACGGAGTCCCACCCGACCAACACCGACCCACCATTTGCT
TCGATGAATGGAACGTCTGGGACCCTATTCGCGCAGAGGGCAGCAAGGGT
GCAGAGGAGTCCTACACCCTCTCGGACGCACTCGCCGTCGCCGTTTTTCT
GAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCATGGCGTGCATCGCCC
AGAGCGTCAATGTCATCTCCCCACTCATGACAAGCAAGGACGGCATCACT
AAGCAGACGACTTATTGGCCTTTGTACCTGTTCTCGAAGTATATGCGGGG
ATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGTATGAAGGAGAGACTT
CTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCCTGGTTGGACGTTAGC
GCTACCCTCGGTGAGGATGGGTATGTGAATGTTGCGGTGGTCAATATTCA
TGAGGAAAAAGATATCCGGAGTAGCATTGATGGGCCGTCTGGGACGGTTT
CGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCTTGTAATATGAATGGC
AAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGAGGCAAGGGAACAATT
TGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGTGGAAGCTGGCGTGAG
TCAAATACTGGGCCCTAGGCAATGAGACCTGGGGTCCCTGGCAGGTCGAA
CAGATGACCAAGGAAGCATATGCTCACAAAGCCTATCAATGGGCCAAGGC
GCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAGATACATACTATGCTA
ACCTTCGACGGAAGAATGGTCGCGAGGAACCATACAATACCTGAGCTGGC
ATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGATGAATTCTTGAAAT
GGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCTTGAACTTTGGAACT
GACACATGGGCAGGTGCATTTACGGGGGAATCTACGATCCAGGTAATTCA
CTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCTTGAAGCTCTGAAGGA
GCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGAACTTCATGGCGACTT
ATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAACGGCCTGCTAGATGA
CCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGTATTTCCATCCAC
CCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTACGCGGGGTTTAC
AGACCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATTCTCTGTGGACAA
GATGGCACAGCTTCATGGGACTACTATACCCTTAAGCAATGCCTACTCCC
AGCCCACTCTCCTCTATCTACCAGCACTGTGCCTCTCATCGACATGCACA
GCATCCATCTATACACATCCTCTCCCTCTCATCTCCCCAATGTTACTGCC
CCCCTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTCTCTGATAGACCT
CGCCCGAATTGAGAACGGAGTCCCACCCGACCAACACCGACCCACCATTT
GCTTCGATGAATGGAACGTCTGGGACCCTATTCGCGCAGAGGGCAGCAAG
GGTGCAGAGGAGTCCTACACCCTCTCGGACGCACTCGCCGTCGCCGTTTT
TCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCATGGCGTGCATCG
CCCAGAGCGTCAATGTCATCTCCCCACTCATGACAAGCAAGGACGGCATC
ACTAAGCAGACGACTTATTGGCCTTTGTACCTGTTCTCGAAGTATATGCG
GGGATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGTATGAAGGAGAGA
CTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCCTGGTTGGACGTT
AGCGCTACCCTCGGTGAGGATGGGTATGTGAATGTTGCGGTGGTCAATAT
TCATGAGGAAAAAGATATCCGGAGTAGCATTGATGGGCCGTCTGGGACGG
TTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCTTGTAATATGAAT
GGCAAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGAGGCAAGGGAACA
ATTTGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGTGGAAGCTGGCGT
GAGTCAAATACTGGGCCCTAGGCAATGAGACCTGGGGTCCCTGGCAGGTC
GAACAGATGACCAAGGAAGCATATGCTCACAAAGCCTATCAATGGGCCAA
GGCGCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAGATACATACTATG
CTAACCTTCGACGGAAGAATGGTCGCGAGGAACCATACAATACCTGAGCT
GGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGATGAATTCTTGA
AATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCTTGAACTTTGGA
ACTGACACATGGGCAGGTGCATTTACGGGGGAATCTACGATCCAGGTAAT
TCACTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCTTGAAGCTCTGAA
GGAGCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGAACTTCATGGCGA
CTTATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAACGGCCTGCTAGA
TGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGTATTTCCATC
CACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTACGCGGGGTT
TACAGACCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATTCTCTGTGGA
CAAGATGGCACAGCTTCATGGGACTACTATACCCTTAAGCAATGCCTACT
CCCAGCCCACTCTCCTCTATCTACCAGCACTGTGCCTCTCATCGACATGC
ACAGCATCCATCTATACACATCCTCTCCCTCTCATCTCCCCAATGTTACT
GCCCCCCTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTCTCTGATAGA
CCTCGCCCGAATTGAGAACGGAGTCCCACCCGACCAACACCGACCCACCA
TTTGCTTCGATGAATGGAACGTCTGGGACCCTATTCGCGCAGAGGGCAGC
AAGGGTGCAGAGGAGTCCTACACCCTCTCGGACGCACTCGCCGTCGCCGT
TTTTCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCATGGCGTGCA
TCGCCCAGAGCGTCAATGTCATCTCCCCACTCATGACAAGCAAGGACGGC
ATCACTAAGCAGACGACTTATTGGCCTTTGTACCTGTTCTCGAAGTATAT
GCGGGGATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGTATGAAGGAG
AGACTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCCTGGTTGGAC
GTTAGCGCTACCCTCGGTGAGGATGGGTATGTGAATGTTGCGGTGGTCAA
TATTCATGAGGAAAAAGATATCCGGAGTAGCATTGATGGGCCGTCTGGGA
CGGTTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCTTGTAATATG
AATGGCAAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGAGGCAAGGGA
ACAATTTGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGTGGAAGCTGG
CGTGAGTCAAATACTGGGCCCTAGGCAATGAGACCTGGGGTCCCTGGCAG
GTCGAACAGATGACCAAGGAAGCATATGCTCACAAAGCCTATCAATGGGC
CAAGGCGCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAGATACATACT
ATGCTAACCTTCGACGGAAGAATGGTCGCGAGGAACCATACAATACCTGA
GCTGGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGATGAATTCT
TGAAATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCTTGAACTTT
GGAACTGACACATGGGCAGGTGCATTTACGGGGGAATCTACGATCCAGGT
AATTCACTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCTTGAAGCTCT
GAAGGAGCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGAACTTCATGG
CGACTTATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAACGGCCTGCT
AGATGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGTATTTCC
ATCCACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTACGCGGG
GTTTACAGACCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATTCTCTGT
GGACAAGATGGCACAGCTTCATGGGACTACTATACCCTTAAGCAATGCCT
ACTCCCAGCCCACTCTCCTCTATCTACCAGCACTGTGCCTCTCATCGACA
TGCACAGCATCCATCTATACACATCCTCTCCCTCTCATCTCCCCAATGTT
ACTGCCCCCCTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTCTCTGAT
AGACCTCGCCCGAATTGAGAACGGAGTCCCACCCGACCAACACCGACCCA
CCATTTGCTTCGATGAATGGAACGTCTGGGACCCTATTCGCGCAGAGGGC
AGCAAGGGTGCAGAGGAGTCCTACACCCTCTCGGACGCACTCGCCGTCGC
CGTTTTTCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCATGGCGT
GCATCGCCCAGAGCGTCAATGTCATCTCCCCACTCATGACAAGCAAGGAC
GGCATCACTAAGCAGACGACTTATTGGCCTTTGTACCTGTTCTCGAAGTA
TATGCGGGGATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGTATGAAG
GAGAGACTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCCTGGTTG
GACGTTAGCGCTACCCTCGGTGAGGATGGGTATGTGAATGTTGCGGTGGT
CAATATTCATGAGGAAAAAGATATCCGGAGTAGCATTGATGGGCCGTCTG
GGACGGTTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCTTGTAAT
ATGAATGGCAAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGAGGCAAG
GGAACAATTTGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGTGGAAGC
TGGCGTGAGTCAAATACTGGGCCCTAGGCAATGAGACCTGGGGTCCCTGG
CAGGTCGAACAGATGACCAAGGAAGCATATGCTCACAAAGCCTATCAATG
GGCCAAGGCGCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAGATACAT
ACTATGCTAACCTTCGACGGAAGAATGGTCGCGAGGAACCATACAATACC
TGAGCTGGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGATGAAT
TCTTGAAATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCTTGAAC
TTTGGAACTGACACATGGGCAGGTGCATTTACGGGGGAATCTACGATCCA
GGTAATTCACTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCTTGAAGC
TCTGAAGGAGCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGAACTTCA
TGGCGACTTATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAACGGCCT
GCTAGATGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGTATT
TCCATCCACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTACGC
GGGGTTTACAGACCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATTCTC
TGTGGACAAGATGGCACAGCTTCATGGGACTACTATACCCTTAAGCAATG
CCTACTCCCAGCCCACTCTCCTCTATCTACCAGCACTGTGCCTCTCATCG
ACATGCACAGCATCCATCTATACACATCCTCTCCCTCTCATCTCCCCAAT
GTTACTGCCCCCCTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTCTCT
GATAGACCTCGCCCGAATTGAGAACGGAGTCCCACCCGACCAACACCGAC
CCACCATTTGCTTCGATGAATGGAACGTCTGGGACCCTATTCGCGCAGAG
GGCAGCAAGGGTGCAGAGGAGTCCTACACCCTCTCGGACGCACTCGCCGT
CGCCGTTTTTCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCATGG
CGTGCATCGCCCAGAGCGTCAATGTCATCTCCCCACTCATGACAAGCAAG
GACGGCATCACTAAGCAGACGACTTATTGGCCTTTGTACCTGTTCTCGAA
GTATATGCGGGGATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGTATG
AAGGAGAGACTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCCTGG
TTGGACGTTAGCGCTACCCTCGGTGAGGATGGGTATGTGAATGTTGCGGT
GGTCAATATTCATGAGGAAAAAGATATCCGGAGTAGCATTGATGGGCCGT
CTGGGACGGTTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCTTGT
AATATGAATGGCAAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGAGGC
AAGGGAACAATTTGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGTGGA
AGCTGGCGTGAGTCAAATACTGGGCCCTAGGCAATGAGACCTGGGGTCCC
TGGCAGGTCGAACAGATGACCAAGGAAGCATATGCTCACAAAGCCTATCA
ATGGGCCAAGGCGCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAGATA
CATACTATGCTAACCTTCGACGGAAGAATGGTCGCGAGGAACCATACAAT
ACCTGAGCTGGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAGATG
AATTCTTGAAATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGCTTG
AACTTTGGAACTGACACATGGGCAGGTGCATTTACGGGGGAATCTACGAT
CCAGGTAATTCACTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCTTGA
AGCTCTGAAGGAGCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGAACT
TCATGGCGACTTATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAACGG
CCTGCTAGATGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCTAGT
ATTTCCATCCACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACATCTA
CGCGGGGTTTACAGACCTTGAAGCTCCTTGATCCCAGCTTGATCTTGATT
CTCTGTGGACAAGATGGCACAGCTTCATGGGACTACTATACCCTTAAGCA
ATGCCTACTCCCAGCCCACTCTCCTCTATCTACCAGCACTGTGCCTCTCA
TCGACATGCACAGCATCCATCTATACACATCCTCTCCCTCTCATCTCCCC
AATGTTACTGCCCCCCTAGCCGCAGAGCGTGCCATCGAAATCACCTCGTC
TCTGATAGACCTCGCCCGAATTGAGAACGGAGTCCCACCCGACCAACACC
GACCCACCATTTGCTTCGATGAATGGAACGTCTGGGACCCTATTCGCGCA
GAGGGCAGCAAGGGTGCAGAGGAGTCCTACACCCTCTCGGACGCACTCGC
CGTCGCCGTTTTTCTGAACGTGTTTGTCCGGAAGAGCAAAGACCTGGGCA
TGGCGTGCATCGCCCAGAGCGTCAATGTCATCTCCCCACTCATGACAAGC
AAGGACGGCATCACTAAGCAGACGACTTATTGGCCTTTGTACCTGTTCTC
GAAGTATATGCGGGGATGGACCATCAGTGTGCATCTTTCCTGCGCCTCGT
ATGAAGGAGAGACTTCTCCCAAGTGGGTGCGCGGGGTCAAAGATACACCC
TGGTTGGACGTTAGCGCTACCCTCGGTGAGGATGGGTATGTGAATGTTGC
GGTGGTCAATATTCATGAGGAAAAAGATATCCGGAGTAGCATTGATGGGC
CGTCTGGGACGGTTTCGGTTTTTACTGTTACTGGAGAGAGAGTCCAAGCT
TGTAATATGAATGGCAAAGAGGAGGTTGCAGTGACTGAGAGTACATGGGA
GGCAAGGGAACAATTTGTGTTCCCGAAACATTCTTTGACTTTGCTGAGGT
GGAAGCTGGCGTGAGTCAAATACTGGGCCCTAGGCAATGAGACCTGGGGT
CCCTGGCAGGTCGAACAGATGACCAAGGAAGCATATGCTCACAAAGCCTA
TCAATGGGCCAAGGCGCTGGCGTGGGTCGAGTACTGTAACGGTACCAAAG
ATACATACTATGCTAACCTTCGACGGAAGAATGGTCGCGAGGAACCATAC
AATACCTGAGCTGGCATGGCTGGGAACAGAGACCAACCAGTTCGGCACAG
ATGAATTCTTGAAATGGTGTGAAGTCCTGGGAACTGAGCCCTACTTCTGC
TTGAACTTTGGAACTGACACATGGGCAGGTGCATTTACGGGGGAATCTAC
GATCCAGGTAATTCACTGTCGGACGAGAATGGCTTCAGGAAGGATGTCCT
TGAAGCTCTGAAGGAGCTCAATATCCCCGTCGTCCGCTACCCCGGCGGGA
ACTTCATGGCGACTTATCATTGGATCGATGGAGTTGGCCCGAAGGAGAAA
CGGCCTGCTAGATGACCACTTTCACCAAGCTCAGTGACCAGGATGCGCCT
AGTATTTCCATCCACCCAGCGAGGCGTCTTTCCAAGATTAATCCGAACAT
CTACGCGGGGTTTACAGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0046556alpha-L-arabinofuranosidase activity
Vocabulary: Biological Process
TermDefinition
GO:0046373L-arabinose metabolic process
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38549ASPNIDRAFT_38549Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38549-T1ASPNIDRAFT_38549-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38549-T1.cdsASPNIDRAFT_38549-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38549-T1.exon6ASPNIDRAFT_38549-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38549-T1.exon5ASPNIDRAFT_38549-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38549-T1.exon4ASPNIDRAFT_38549-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38549-T1.exon3ASPNIDRAFT_38549-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38549-T1.exon2ASPNIDRAFT_38549-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38549-T1.exon1ASPNIDRAFT_38549-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
NoteCAZy:GH51
DBxrefInterPro:IPR017853
DBxrefInterPro:IPR013780
DBxrefInterPro:IPR010720
DBxrefPFAM:PF06964
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 1015 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ACJE01000021.1supercontigACJE01000021.1:382270..384187 -
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