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ASPNIDRAFT_183005-T1, ASPNIDRAFT_183005-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_183005-T1
Unique NameASPNIDRAFT_183005-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000008.1:1238628..1240627-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_183005-T1 ID=ASPNIDRAFT_183005-T1|Name=ASPNIDRAFT_183005-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2000bp|location=Sequence derived from alignment at ACJE01000008.1:1238628..1240627- (Aspergillus niger ATCC 1015)
ATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAATC
GGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGCCA
AGCCCAACGTCGTCTTCATATTAACCGATGATCAAGACGCCCATCTCGCC
TCTTTGGATTACATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGAAC
ACACTATCGCAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCGTG
TGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAACGTCACGGATGTC
AATCCTCCGCATGGTGAGTGTACTGCACATCGCCACTTATATCGGGGAAT
ATTCTCATACGCTTTCAGGCGGCTATCCAAAATTTATCTCTCAAGGTCTA
AATGACAATTATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTA
CTACACTGGTAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCC
CCTTCCCAGCTGGGTTCACCGGCAACGTGAGTCATCCAGCAGACTTTCTA
TTCAGTCGGCACTCTAATCTGTCATGTAGGACTTCCTCCTCGATCCATTC
ACATACGACTACCTTAACAGTACCTTCCAACGAGACCACGAAATACCCCA
AAGCTACGAAGGCGAATACAGCACTGATGTCCTCGCACAAAAGGCATATC
GCCTCCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTT
GCTCCAATTGCACCGCATTGCAACGTTTTCATGAATGGAACTGGCTTAGA
CGCCAACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGCGACACG
AGCACCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCG
GAAATCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACAAAACGA
TACTAATGTTGACTACAACGATCATTTTTACCGCCAGCGTCTACGCACCC
TCCAGGCCGTTGACGAGCTGGTTGATGGCTTATTTACACGTTTGAAGGAA
TACAATATCCTTGACAATACATATATAGTCTATAGTAGTGACAATGGATA
CCACATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGATACGAGG
AAGACATCAATGTTCCTTTGATTATTCGTGGTCCCGATATCGCGCAGAAT
GTATCTACGGATATTGTCACCACGCATACGGATCTTGCTCCCACTTTTCT
CGAGCTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACCCTATTT
CGTTGACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAGGAACAT
GTCACGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTATATACGACTG
TGCGTACTCTACTCCTACACCCCACTCTTTGACCATGGCTGAGCTAATCT
TGATAATGAAAGTTGACCTATCGGCATACAACAACACATACAAAGCCCTC
CGCATCAAGGGAATTGGATATAATCTTTACTATTCCGTTTGGTGTAACAA
TGAGCATGAACTCTATGATATGACTGTATTGGCCCCTCCCAAACCCATTT
CTCTTGGGAAATCTGACCAAAGAGACAGACTGACCCTCATCAACTTCATA
ATCTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCATCTTA
AACGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTCTCGT
GCTCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCCTTGC
ATCCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCACTAC
GATCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACGAGTG
TGCGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCAGGGA
CAGATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGTTTAA
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Coding sequence (CDS) from alignment at ACJE01000008.1:1238628..1240627-

>ASPNIDRAFT_183005-T1 ID=ASPNIDRAFT_183005-T1|Name=ASPNIDRAFT_183005-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8880bp|location=Sequence derived from alignment at ACJE01000008.1:1238628..1240627- (Aspergillus niger ATCC 1015)
ACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAACAACCCAG
TGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGTCGTTCAGC
GACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCCAAGTATGC
GTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATGACGTTGAA
AGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGAGCAGACGA
CGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAGATGCGGAG
GGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGAGATGGTTT
GCCGTGGTATGAGTGGGTTTAATTGACCTATCGGCATACAACAACACATA
CAAAGCCCTCCGCATCAAGGGAATTGGATATAATCTTTACTATTCCGTTT
GGTGTAACAATGAGCATGAACTCTATGATATGACTGACTTCCTCCTCGAT
CCATTCACATACGACTACCTTAACAGTACCTTCCAACGAGACCACGAAAT
ACCCCAAAGCTACGAAGGCGAATACAGCACTGATGTCCTCGCACAAAAGG
CATATCGCCTCCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTCTC
ACGGTTGCTCCAATTGCACCGCATTGCAACGTTTTCATGAATGGAACTGG
CTTAGACGCCAACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAAGC
GACACGAGCACCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCTTC
AATCCGGAAATCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGACA
AAACGATACTAATGTTGACTACAACGATCATTTTTACCGCCAGCGTCTAC
GCACCCTCCAGGCCGTTGACGAGCTGGTTGATGGCTTATTTACACGTTTG
AAGGAATACAATATCCTTGACAATACATATATAGTCTATAGTAGTGACAA
TGGATACCACATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGGAT
ACGAGGAAGACATCAATGTTCCTTTGATTATTCGTGGTCCCGATATCGCG
CAGAATGTATCTACGGATATTGTCACCACGCATACGGATCTTGCTCCCAC
TTTTCTCGAGCTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAACC
CTATTTCGTTGACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGACAG
GAACATGTCACGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTATATA
CGACTGCGGCTATCCAAAATTTATCTCTCAAGGTCTAAATGACAATTATT
TCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTACTACACTGGTAAA
CTGTTCAACGTCCACACGGTCGACAACTACAACGCCCCCTTCCCAGCTGG
GTTCACCGGCAACATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGGGC
TTACTACAAAATCGGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGCTT
TCTGCGACCGCCAAGCCCAACGTCGTCTTCATATTAACCGATGATCAAGA
CGCCCATCTCGCCTCTTTGGATTACATGCCTTATGTACGAAAGCACCTCC
TAGACAAAGGAACACACTATCGCAGTCACTACTGTACAACCAGTGTCTGT
TGTCCATCGCGTGTGACCCTTTGGACGGGAAAGCTGGCCCACAATACGAA
CGTCACGGATGTCAATCCTCCGCATGACTGACCCTCATCAACTTCATAAT
CTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCATCTTAAA
CGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTCTCGTGC
TCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCCTTGCAT
CCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCACTACGA
TCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACGAGTGTG
CGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCAGGGACA
GATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGTTTAATT
GACCTATCGGCATACAACAACACATACAAAGCCCTCCGCATCAAGGGAAT
TGGATATAATCTTTACTATTCCGTTTGGTGTAACAATGAGCATGAACTCT
ATGATATGACTGACTTCCTCCTCGATCCATTCACATACGACTACCTTAAC
AGTACCTTCCAACGAGACCACGAAATACCCCAAAGCTACGAAGGCGAATA
CAGCACTGATGTCCTCGCACAAAAGGCATATCGCCTCCTCAACGAAGCAG
TCACGGCCCAAAAGCCCTTCTTTCTCACGGTTGCTCCAATTGCACCGCAT
TGCAACGTTTTCATGAATGGAACTGGCTTAGACGCCAACCCTAAATTCAG
CTTCAGCGCACCTATCCCCGCGAAGCGACACGAGCACCTATTCCCAGATG
TCAAAGTTCCCCGCACCCCCTCCTTCAATCCGGAAATCCCTTCAGGCGCC
AACTGGATTAAGACTCTCAAGCGACAAAACGATACTAATGTTGACTACAA
CGATCATTTTTACCGCCAGCGTCTACGCACCCTCCAGGCCGTTGACGAGC
TGGTTGATGGCTTATTTACACGTTTGAAGGAATACAATATCCTTGACAAT
ACATATATAGTCTATAGTAGTGACAATGGATACCACATTGGTCAACACCG
ACTTCAGCCAGGCAAGTCGTGTGGATACGAGGAAGACATCAATGTTCCTT
TGATTATTCGTGGTCCCGATATCGCGCAGAATGTATCTACGGATATTGTC
ACCACGCATACGGATCTTGCTCCCACTTTTCTCGAGCTGCTGGGTATTCC
CCTTCGAGAGGACTTCGATGGCAACCCTATTTCGTTGACGAGGAGCCAGA
TCGAGAGGGCCCAAGAAGAGAGACAGGAACATGTCACGGTTGAATATTGG
GGATATGCGGCGGGCGAGGGTATATACGACTGCGGCTATCCAAAATTTAT
CTCTCAAGGTCTAAATGACAATTATTTCCCTGTTTGGCTGCAGGAAGCGG
GGTACAACACTTACTACACTGGTAAACTGTTCAACGTCCACACGGTCGAC
AACTACAACGCCCCCTTCCCAGCTGGGTTCACCGGCAACATGCGACACCT
GGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAATCGGTAGGGCAGC
AGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGCCAAGCCCAACGTC
GTCTTCATATTAACCGATGATCAAGACGCCCATCTCGCCTCTTTGGATTA
CATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGAACACACTATCGCA
GTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCGTGTGACCCTTTGG
ACGGGAAAGCTGGCCCACAATACGAACGTCACGGATGTCAATCCTCCGCA
TGACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAACAACCC
AGTGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGTCGTTCA
GCGACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCCAAGTAT
GCGTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATGACGTTG
AAAGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGAGCAGAC
GACGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAGATGCGG
AGGGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGAGATGGT
TTGCCGTGGTATGAGTGGGTTTAATTGACCTATCGGCATACAACAACACA
TACAAAGCCCTCCGCATCAAGGGAATTGGATATAATCTTTACTATTCCGT
TTGGTGTAACAATGAGCATGAACTCTATGATATGACTGACTTCCTCCTCG
ATCCATTCACATACGACTACCTTAACAGTACCTTCCAACGAGACCACGAA
ATACCCCAAAGCTACGAAGGCGAATACAGCACTGATGTCCTCGCACAAAA
GGCATATCGCCTCCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTTTC
TCACGGTTGCTCCAATTGCACCGCATTGCAACGTTTTCATGAATGGAACT
GGCTTAGACGCCAACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCGAA
GCGACACGAGCACCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTCCT
TCAATCCGGAAATCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGCGA
CAAAACGATACTAATGTTGACTACAACGATCATTTTTACCGCCAGCGTCT
ACGCACCCTCCAGGCCGTTGACGAGCTGGTTGATGGCTTATTTACACGTT
TGAAGGAATACAATATCCTTGACAATACATATATAGTCTATAGTAGTGAC
AATGGATACCACATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGTGG
ATACGAGGAAGACATCAATGTTCCTTTGATTATTCGTGGTCCCGATATCG
CGCAGAATGTATCTACGGATATTGTCACCACGCATACGGATCTTGCTCCC
ACTTTTCTCGAGCTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGCAA
CCCTATTTCGTTGACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAGAC
AGGAACATGTCACGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTATA
TACGACTGCGGCTATCCAAAATTTATCTCTCAAGGTCTAAATGACAATTA
TTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTACTACACTGGTA
AACTGTTCAACGTCCACACGGTCGACAACTACAACGCCCCCTTCCCAGCT
GGGTTCACCGGCAACATGCGACACCTGGTCTATTTGTTAGCCCTGGCTGG
GCTTACTACAAAATCGGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCCGC
TTTCTGCGACCGCCAAGCCCAACGTCGTCTTCATATTAACCGATGATCAA
GACGCCCATCTCGCCTCTTTGGATTACATGCCTTATGTACGAAAGCACCT
CCTAGACAAAGGAACACACTATCGCAGTCACTACTGTACAACCAGTGTCT
GTTGTCCATCGCGTGTGACCCTTTGGACGGGAAAGCTGGCCCACAATACG
AACGTCACGGATGTCAATCCTCCGCATGACTGACCCTCATCAACTTCATA
ATCTCCTTTCCGCAATTGAACAACCCAGTGCGACCTCTCACACCATCTTA
AACGTTGATCTTTCCAAAGTCGTTCAGCGACTCGACTCCCTTCTTCTCGT
GCTCAAGTCCTGCAAGGCCCAAGTATGCGTCAAGCCATGGGACGCCTTGC
ATCCGCGTGGGGAGGTTATGACGTTGAAAGACGCGTTGGATGTGCACTAC
GATCATTTCTATGAGGTGGAGCAGACGACGCGGGTCCAGTTTAACGAGTG
TGCGCGTGGATATTTCCTAGATGCGGAGGGCCCGCAATTTGACTCAGGGA
CAGATTATGAGGTTCTTCGAGATGGTTTGCCGTGGTATGAGTGGGTTTAA
TTGACCTATCGGCATACAACAACACATACAAAGCCCTCCGCATCAAGGGA
ATTGGATATAATCTTTACTATTCCGTTTGGTGTAACAATGAGCATGAACT
CTATGATATGACTGACTTCCTCCTCGATCCATTCACATACGACTACCTTA
ACAGTACCTTCCAACGAGACCACGAAATACCCCAAAGCTACGAAGGCGAA
TACAGCACTGATGTCCTCGCACAAAAGGCATATCGCCTCCTCAACGAAGC
AGTCACGGCCCAAAAGCCCTTCTTTCTCACGGTTGCTCCAATTGCACCGC
ATTGCAACGTTTTCATGAATGGAACTGGCTTAGACGCCAACCCTAAATTC
AGCTTCAGCGCACCTATCCCCGCGAAGCGACACGAGCACCTATTCCCAGA
TGTCAAAGTTCCCCGCACCCCCTCCTTCAATCCGGAAATCCCTTCAGGCG
CCAACTGGATTAAGACTCTCAAGCGACAAAACGATACTAATGTTGACTAC
AACGATCATTTTTACCGCCAGCGTCTACGCACCCTCCAGGCCGTTGACGA
GCTGGTTGATGGCTTATTTACACGTTTGAAGGAATACAATATCCTTGACA
ATACATATATAGTCTATAGTAGTGACAATGGATACCACATTGGTCAACAC
CGACTTCAGCCAGGCAAGTCGTGTGGATACGAGGAAGACATCAATGTTCC
TTTGATTATTCGTGGTCCCGATATCGCGCAGAATGTATCTACGGATATTG
TCACCACGCATACGGATCTTGCTCCCACTTTTCTCGAGCTGCTGGGTATT
CCCCTTCGAGAGGACTTCGATGGCAACCCTATTTCGTTGACGAGGAGCCA
GATCGAGAGGGCCCAAGAAGAGAGACAGGAACATGTCACGGTTGAATATT
GGGGATATGCGGCGGGCGAGGGTATATACGACTGCGGCTATCCAAAATTT
ATCTCTCAAGGTCTAAATGACAATTATTTCCCTGTTTGGCTGCAGGAAGC
GGGGTACAACACTTACTACACTGGTAAACTGTTCAACGTCCACACGGTCG
ACAACTACAACGCCCCCTTCCCAGCTGGGTTCACCGGCAACATGCGACAC
CTGGTCTATTTGTTAGCCCTGGCTGGGCTTACTACAAAATCGGTAGGGCA
GCAGAAGCAGCAGCAGCAGCAGCCGCTTTCTGCGACCGCCAAGCCCAACG
TCGTCTTCATATTAACCGATGATCAAGACGCCCATCTCGCCTCTTTGGAT
TACATGCCTTATGTACGAAAGCACCTCCTAGACAAAGGAACACACTATCG
CAGTCACTACTGTACAACCAGTGTCTGTTGTCCATCGCGTGTGACCCTTT
GGACGGGAAAGCTGGCCCACAATACGAACGTCACGGATGTCAATCCTCCG
CATGACTGACCCTCATCAACTTCATAATCTCCTTTCCGCAATTGAACAAC
CCAGTGCGACCTCTCACACCATCTTAAACGTTGATCTTTCCAAAGTCGTT
CAGCGACTCGACTCCCTTCTTCTCGTGCTCAAGTCCTGCAAGGCCCAAGT
ATGCGTCAAGCCATGGGACGCCTTGCATCCGCGTGGGGAGGTTATGACGT
TGAAAGACGCGTTGGATGTGCACTACGATCATTTCTATGAGGTGGAGCAG
ACGACGCGGGTCCAGTTTAACGAGTGTGCGCGTGGATATTTCCTAGATGC
GGAGGGCCCGCAATTTGACTCAGGGACAGATTATGAGGTTCTTCGAGATG
GTTTGCCGTGGTATGAGTGGGTTTAATTGACCTATCGGCATACAACAACA
CATACAAAGCCCTCCGCATCAAGGGAATTGGATATAATCTTTACTATTCC
GTTTGGTGTAACAATGAGCATGAACTCTATGATATGACTGACTTCCTCCT
CGATCCATTCACATACGACTACCTTAACAGTACCTTCCAACGAGACCACG
AAATACCCCAAAGCTACGAAGGCGAATACAGCACTGATGTCCTCGCACAA
AAGGCATATCGCCTCCTCAACGAAGCAGTCACGGCCCAAAAGCCCTTCTT
TCTCACGGTTGCTCCAATTGCACCGCATTGCAACGTTTTCATGAATGGAA
CTGGCTTAGACGCCAACCCTAAATTCAGCTTCAGCGCACCTATCCCCGCG
AAGCGACACGAGCACCTATTCCCAGATGTCAAAGTTCCCCGCACCCCCTC
CTTCAATCCGGAAATCCCTTCAGGCGCCAACTGGATTAAGACTCTCAAGC
GACAAAACGATACTAATGTTGACTACAACGATCATTTTTACCGCCAGCGT
CTACGCACCCTCCAGGCCGTTGACGAGCTGGTTGATGGCTTATTTACACG
TTTGAAGGAATACAATATCCTTGACAATACATATATAGTCTATAGTAGTG
ACAATGGATACCACATTGGTCAACACCGACTTCAGCCAGGCAAGTCGTGT
GGATACGAGGAAGACATCAATGTTCCTTTGATTATTCGTGGTCCCGATAT
CGCGCAGAATGTATCTACGGATATTGTCACCACGCATACGGATCTTGCTC
CCACTTTTCTCGAGCTGCTGGGTATTCCCCTTCGAGAGGACTTCGATGGC
AACCCTATTTCGTTGACGAGGAGCCAGATCGAGAGGGCCCAAGAAGAGAG
ACAGGAACATGTCACGGTTGAATATTGGGGATATGCGGCGGGCGAGGGTA
TATACGACTGCGGCTATCCAAAATTTATCTCTCAAGGTCTAAATGACAAT
TATTTCCCTGTTTGGCTGCAGGAAGCGGGGTACAACACTTACTACACTGG
TAAACTGTTCAACGTCCACACGGTCGACAACTACAACGCCCCCTTCCCAG
CTGGGTTCACCGGCAACATGCGACACCTGGTCTATTTGTTAGCCCTGGCT
GGGCTTACTACAAAATCGGTAGGGCAGCAGAAGCAGCAGCAGCAGCAGCC
GCTTTCTGCGACCGCCAAGCCCAACGTCGTCTTCATATTAACCGATGATC
AAGACGCCCATCTCGCCTCTTTGGATTACATGCCTTATGTACGAAAGCAC
CTCCTAGACAAAGGAACACACTATCGCAGTCACTACTGTACAACCAGTGT
CTGTTGTCCATCGCGTGTGACCCTTTGGACGGGAAAGCTGGCCCACAATA
CGAACGTCACGGATGTCAATCCTCCGCATG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0008484sulfuric ester hydrolase activity
GO:0003824catalytic activity
GO:0004065arylsulfatase activity
Vocabulary: Biological Process
TermDefinition
GO:0018958phenol-containing compound metabolic process
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_183005ASPNIDRAFT_183005Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_183005-T1ASPNIDRAFT_183005-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_183005-T1.cdsASPNIDRAFT_183005-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_183005-T1.exon5ASPNIDRAFT_183005-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_183005-T1.exon4ASPNIDRAFT_183005-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_183005-T1.exon3ASPNIDRAFT_183005-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_183005-T1.exon2ASPNIDRAFT_183005-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_183005-T1.exon1ASPNIDRAFT_183005-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
NoteantiSMASH:Cluster_10000081.3
NoteEggNog:ENOG41
NoteSECRETED:SignalP(1-19)
DBxrefInterPro:IPR024607
DBxrefInterPro:IPR000917
DBxrefInterPro:IPR017850
DBxrefInterPro:IPR012083
DBxrefPFAM:PF00884
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
ACJE01000008.1supercontigACJE01000008.1:1238628..1240627 -
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