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KYF_010762-T1, KYF_010762-T1 (mRNA) Aspergillus niger KYF3

Overview
NameKYF_010762-T1
Unique NameKYF_010762-T1
TypemRNA
OrganismAspergillus niger KYF3
Sequences
The following sequences are available for this feature:

mRNA from alignment at ch8:2253654..2255750+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>KYF_010762-T1 ID=KYF_010762-T1|Name=KYF_010762-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2097bp|location=Sequence derived from alignment at ch8:2253654..2255750+ (Aspergillus niger KYF3)
ATGGGTCAGACCTTGTCCGAGCCCGTGGTCGATAAGGTGAGTGAAACCTG
AAGCATTGCGTTTGCCTGTGGTCTTTGATCCTCCCCCACACTGCACGCAT
CTTACGCCATTCCAATCTGCCCACCATCCGCGTTGCCATTCTGTGCCATA
CCCGCCCATACTCCCCTTTTTCTATCGTTTGTCCAACATGATCACTGCCC
AAAAGTTTTATTTGCTACAGCGTTCTTTTTCATCCCTCCTCTTGTGTGTC
GCGCCTGCAATGTGGTGATCATCCCCCCTGCGGGGTTCCTCCACAGGATG
ATGAAAATTTCCTGCACGCGGTTTCGGGCGGATGACCTGTCACCATTCCA
TTGTGTTCCGGACCTCTTTTCGATTTCCTACATCCTCACTAACCACATTC
GGTGCTATCTAGACTTCCGCTGAAGGTCAAGATGAGTGCTGTATATACGG
TGTTTCCGCCATGCAAGGATGGCGAATCAGCATGGAGGATGCCCATGCCG
CTGTCCTCGACCTCCAGGCCAAGTACTCCGAGCAGGATGAAAAGCCGACC
GACCCCGATAAACGACTCGCTTTCTTTGGTGTATATGACGGGCACGGTGG
AGACAAAGTAGCATTATTCGCCGGAGAAAACGTCCACAAGATCGTCGCGA
AGCAGGACTCCTTTGCCAAAGGTGATATCGAACAGGCCCTGAAGGATGGC
TTCCTCGCTACCGACCGGGCTATTTTGGAAGGTTCGTGAGCGCTATGATC
GGAGTTGGGGCAACCTTCCCACCCGCCTCTCCCTTTCCTTCCTGTTTCCT
GTCCCTCCGAGGTAGCAACGAACTGACCCAGCTAGACCCGAAATATGAGG
AGGAAGTGTCTGGCTGCACCGCAGCCGTCAGCGTTATCTCGAAGCACAAG
ATCTGGGTGGTATGTATTCTAGCCATGGCCAATTTGGAGACGACGTTGGG
TTTGGTTCATTCGTTGACTGGTTCTAGGCCAATGCTGGTGATTCTCGCTC
TGTACTGGGTGTCAAGGGTCGCGCAAAGCCTCTGTCATTTGACCACAAGC
CTCAGAACGAAGGTACACATACCCCGCATCTCGATTACCGACCAGTTTTG
ATGCTGACATGACCAAATAAAAACAGGCGAGAAAGCCCGTATCAGCGCTG
CTGGTGGTTTCGTTGACTTTGGCCGTGTCAACGGCAACCTGGCCTTGTCG
CGGGCCATTGGTGACTTCGAGTTCAAGAAGAGCCCCGAGTTGTCTCCTGA
GCAGCAGATCGTCACTGCCTATCCCGACGTCACTGTGCACGATCTCAGTG
ACGATGACGAGTTCCTCGTAATTGCCTGTGACGGTGGGTCTTACTCTGGT
GATGAGGGGGTGAGGGTCTTGAAGATCGCTAACTTTTCGAAATTGCAGGT
ATCTGGGATTGTCAGTCCTCCCAATCAGTGGTGGAATTCGTCCGCCGTGG
GATTGCCGCGAAGCAGGATCTGTATCGGATCTGTGAGAACATGATGGACA
ATTGCCTGGCCTCCAACAGTGAAACCGGCGGCGTTGGCTGCGACAACATG
ACAATGGTCATCATCGGTCTCCTGAACGGTAGGACCAAAGAGGAGTGGTA
CAACCAGATCGCTGAGCGCGTGGCGAACGGCGACGGCCCTTGCGCTCCGC
CCGAGTACGGCAAGTCTCTCGAGGATCCCACGGCCTCCAATTCCAATCCC
TACTGACTGAACGGGGGGTGCAGCTGAGTTCCGCGGCCCCGGTATCCGGA
ATCAATTCGAGGAGAACCCGGATGACTTTGACATGGAAAACGACCGTGCG
CGTGGCTTCAGCGTCCGCTCGGGCCGCATCATCCTCTTGGGGGACGGCAC
TGAATTGATTCCGGAGCAGAACGATGACGAACTCTTTGATCAGGCTGAGG
AAGACCAGGACCTTGTCAATCAGGTGCACCGTGATTCGCCTGATGCGGCT
CGGAATGAACGAGAGGGAACTCCTGGGCCTCAGTCTAAGGATACTTCCCG
AACGGACGCCGCTGAGATATCGGAGTCGCCGTCTACCACCGCGGAGGGTT
CGTCCGGCAGTGGCCCTGGAACGCCGCAAAAGCCTACGAGTTCGTAG
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Coding sequence (CDS) from alignment at ch8:2253654..2255750+

>KYF_010762-T1 ID=KYF_010762-T1|Name=KYF_010762-T1|organism=Aspergillus niger KYF3|type=CDS|length=8925bp|location=Sequence derived from alignment at ch8:2253654..2255750+ (Aspergillus niger KYF3)
ATGGGTCAGACCTTGTCCGAGCCCGTGGTCGATAAGACTTCCGCTGAAGG
TCAAGATGAGTGCTGTATATACGGTGTTTCCGCCATGCAAGGATGGCGAA
TCAGCATGGAGGATGCCCATGCCGCTGTCCTCGACCTCCAGGCCAAGTAC
TCCGAGCAGGATGAAAAGCCGACCGACCCCGATAAACGACTCGCTTTCTT
TGGTGTATATGACGGGCACGGTGGAGACAAAGTAGCATTATTCGCCGGAG
AAAACGTCCACAAGATCGTCGCGAAGCAGGACTCCTTTGCCAAAGGTGAT
ATCGAACAGGCCCTGAAGGATGGCTTCCTCGCTACCGACCGGGCTATTTT
GGAAGACCCGAAATATGAGGAGGAAGTGTCTGGCTGCACCGCAGCCGTCA
GCGTTATCTCGAAGCACAAGATCTGGGTGGCCAATGCTGGTGATTCTCGC
TCTGTACTGGGTGTCAAGGGTCGCGCAAAGCCTCTGTCATTTGACCACAA
GCCTCAGAACGAAGGCGAGAAAGCCCGTATCAGCGCTGCTGGTGGTTTCG
TTGACTTTGGCCGTGTCAACGGCAACCTGGCCTTGTCGCGGGCCATTGGT
GACTTCGAGTTCAAGAAGAGCCCCGAGTTGTCTCCTGAGCAGCAGATCGT
CACTGCCTATCCCGACGTCACTGTGCACGATCTCAGTGACGATGACGAGT
TCCTCGTAATTGCCTGTGACGGTATCTGGGATTGTCAGTCCTCCCAATCA
GTGGTGGAATTCGTCCGCCGTGGGATTGCCGCGAAGCAGGATCTGTATCG
GATCTGTGAGAACATGATGGACAATTGCCTGGCCTCCAACAGTGAAACCG
GCGGCGTTGGCTGCGACAACATGACAATGGTCATCATCGGTCTCCTGAAC
GCTGAGTTCCGCGGCCCCGGTATCCGGAATCAATTCGAGGAGAACCCGGA
TGACTTTGACATGGAAAACGACCGTGCGCGTGGCTTCAGCGTCCGCTCGG
GCCGCATCATCCTCTTGGGGGACGGCACTGAATTGATTCCGGAGCAGAAC
GATGACGAACTCTTTGATCAGGCTGAGGAAGACCAGGACCTTGTCAATCA
GGTGCACCGTGATTCGCCTGATGCGGCTCGGAATGAACGAGAGGGAACTC
CTGGGCCTCAGTCTAAGGATACTTCCCGAACGGACGCCGCTGAGATATCG
GAGTCGCCGTCTACCACCGCGGAGGGTTCGTCCGGCAGTGGCCCTGGAAC
GCCGCAAAAGCCTACGAGTTCGTAGATGGGTCAGACCTTGTCCGAGCCCG
TGGTCGATAAGACTTCCGCTGAAGGTCAAGATGAGTGCTGTATATACGGT
GTTTCCGCCATGCAAGGATGGCGAATCAGCATGGAGGATGCCCATGCCGC
TGTCCTCGACCTCCAGGCCAAGTACTCCGAGCAGGATGAAAAGCCGACCG
ACCCCGATAAACGACTCGCTTTCTTTGGTGTATATGACGGGCACGGTGGA
GACAAAGTAGCATTATTCGCCGGAGAAAACGTCCACAAGATCGTCGCGAA
GCAGGACTCCTTTGCCAAAGGTGATATCGAACAGGCCCTGAAGGATGGCT
TCCTCGCTACCGACCGGGCTATTTTGGAAGACCCGAAATATGAGGAGGAA
GTGTCTGGCTGCACCGCAGCCGTCAGCGTTATCTCGAAGCACAAGATCTG
GGTGGCCAATGCTGGTGATTCTCGCTCTGTACTGGGTGTCAAGGGTCGCG
CAAAGCCTCTGTCATTTGACCACAAGCCTCAGAACGAAGGCGAGAAAGCC
CGTATCAGCGCTGCTGGTGGTTTCGTTGACTTTGGCCGTGTCAACGGCAA
CCTGGCCTTGTCGCGGGCCATTGGTGACTTCGAGTTCAAGAAGAGCCCCG
AGTTGTCTCCTGAGCAGCAGATCGTCACTGCCTATCCCGACGTCACTGTG
CACGATCTCAGTGACGATGACGAGTTCCTCGTAATTGCCTGTGACGGTAT
CTGGGATTGTCAGTCCTCCCAATCAGTGGTGGAATTCGTCCGCCGTGGGA
TTGCCGCGAAGCAGGATCTGTATCGGATCTGTGAGAACATGATGGACAAT
TGCCTGGCCTCCAACAGTGAAACCGGCGGCGTTGGCTGCGACAACATGAC
AATGGTCATCATCGGTCTCCTGAACGCTGAGTTCCGCGGCCCCGGTATCC
GGAATCAATTCGAGGAGAACCCGGATGACTTTGACATGGAAAACGACCGT
GCGCGTGGCTTCAGCGTCCGCTCGGGCCGCATCATCCTCTTGGGGGACGG
CACTGAATTGATTCCGGAGCAGAACGATGACGAACTCTTTGATCAGGCTG
AGGAAGACCAGGACCTTGTCAATCAGGTGCACCGTGATTCGCCTGATGCG
GCTCGGAATGAACGAGAGGGAACTCCTGGGCCTCAGTCTAAGGATACTTC
CCGAACGGACGCCGCTGAGATATCGGAGTCGCCGTCTACCACCGCGGAGG
GTTCGTCCGGCAGTGGCCCTGGAACGCCGCAAAAGCCTACGAGTTCGTAG
ATGGGTCAGACCTTGTCCGAGCCCGTGGTCGATAAGACTTCCGCTGAAGG
TCAAGATGAGTGCTGTATATACGGTGTTTCCGCCATGCAAGGATGGCGAA
TCAGCATGGAGGATGCCCATGCCGCTGTCCTCGACCTCCAGGCCAAGTAC
TCCGAGCAGGATGAAAAGCCGACCGACCCCGATAAACGACTCGCTTTCTT
TGGTGTATATGACGGGCACGGTGGAGACAAAGTAGCATTATTCGCCGGAG
AAAACGTCCACAAGATCGTCGCGAAGCAGGACTCCTTTGCCAAAGGTGAT
ATCGAACAGGCCCTGAAGGATGGCTTCCTCGCTACCGACCGGGCTATTTT
GGAAGACCCGAAATATGAGGAGGAAGTGTCTGGCTGCACCGCAGCCGTCA
GCGTTATCTCGAAGCACAAGATCTGGGTGGCCAATGCTGGTGATTCTCGC
TCTGTACTGGGTGTCAAGGGTCGCGCAAAGCCTCTGTCATTTGACCACAA
GCCTCAGAACGAAGGCGAGAAAGCCCGTATCAGCGCTGCTGGTGGTTTCG
TTGACTTTGGCCGTGTCAACGGCAACCTGGCCTTGTCGCGGGCCATTGGT
GACTTCGAGTTCAAGAAGAGCCCCGAGTTGTCTCCTGAGCAGCAGATCGT
CACTGCCTATCCCGACGTCACTGTGCACGATCTCAGTGACGATGACGAGT
TCCTCGTAATTGCCTGTGACGGTATCTGGGATTGTCAGTCCTCCCAATCA
GTGGTGGAATTCGTCCGCCGTGGGATTGCCGCGAAGCAGGATCTGTATCG
GATCTGTGAGAACATGATGGACAATTGCCTGGCCTCCAACAGTGAAACCG
GCGGCGTTGGCTGCGACAACATGACAATGGTCATCATCGGTCTCCTGAAC
GCTGAGTTCCGCGGCCCCGGTATCCGGAATCAATTCGAGGAGAACCCGGA
TGACTTTGACATGGAAAACGACCGTGCGCGTGGCTTCAGCGTCCGCTCGG
GCCGCATCATCCTCTTGGGGGACGGCACTGAATTGATTCCGGAGCAGAAC
GATGACGAACTCTTTGATCAGGCTGAGGAAGACCAGGACCTTGTCAATCA
GGTGCACCGTGATTCGCCTGATGCGGCTCGGAATGAACGAGAGGGAACTC
CTGGGCCTCAGTCTAAGGATACTTCCCGAACGGACGCCGCTGAGATATCG
GAGTCGCCGTCTACCACCGCGGAGGGTTCGTCCGGCAGTGGCCCTGGAAC
GCCGCAAAAGCCTACGAGTTCGTAGATGGGTCAGACCTTGTCCGAGCCCG
TGGTCGATAAGACTTCCGCTGAAGGTCAAGATGAGTGCTGTATATACGGT
GTTTCCGCCATGCAAGGATGGCGAATCAGCATGGAGGATGCCCATGCCGC
TGTCCTCGACCTCCAGGCCAAGTACTCCGAGCAGGATGAAAAGCCGACCG
ACCCCGATAAACGACTCGCTTTCTTTGGTGTATATGACGGGCACGGTGGA
GACAAAGTAGCATTATTCGCCGGAGAAAACGTCCACAAGATCGTCGCGAA
GCAGGACTCCTTTGCCAAAGGTGATATCGAACAGGCCCTGAAGGATGGCT
TCCTCGCTACCGACCGGGCTATTTTGGAAGACCCGAAATATGAGGAGGAA
GTGTCTGGCTGCACCGCAGCCGTCAGCGTTATCTCGAAGCACAAGATCTG
GGTGGCCAATGCTGGTGATTCTCGCTCTGTACTGGGTGTCAAGGGTCGCG
CAAAGCCTCTGTCATTTGACCACAAGCCTCAGAACGAAGGCGAGAAAGCC
CGTATCAGCGCTGCTGGTGGTTTCGTTGACTTTGGCCGTGTCAACGGCAA
CCTGGCCTTGTCGCGGGCCATTGGTGACTTCGAGTTCAAGAAGAGCCCCG
AGTTGTCTCCTGAGCAGCAGATCGTCACTGCCTATCCCGACGTCACTGTG
CACGATCTCAGTGACGATGACGAGTTCCTCGTAATTGCCTGTGACGGTAT
CTGGGATTGTCAGTCCTCCCAATCAGTGGTGGAATTCGTCCGCCGTGGGA
TTGCCGCGAAGCAGGATCTGTATCGGATCTGTGAGAACATGATGGACAAT
TGCCTGGCCTCCAACAGTGAAACCGGCGGCGTTGGCTGCGACAACATGAC
AATGGTCATCATCGGTCTCCTGAACGCTGAGTTCCGCGGCCCCGGTATCC
GGAATCAATTCGAGGAGAACCCGGATGACTTTGACATGGAAAACGACCGT
GCGCGTGGCTTCAGCGTCCGCTCGGGCCGCATCATCCTCTTGGGGGACGG
CACTGAATTGATTCCGGAGCAGAACGATGACGAACTCTTTGATCAGGCTG
AGGAAGACCAGGACCTTGTCAATCAGGTGCACCGTGATTCGCCTGATGCG
GCTCGGAATGAACGAGAGGGAACTCCTGGGCCTCAGTCTAAGGATACTTC
CCGAACGGACGCCGCTGAGATATCGGAGTCGCCGTCTACCACCGCGGAGG
GTTCGTCCGGCAGTGGCCCTGGAACGCCGCAAAAGCCTACGAGTTCGTAG
ATGGGTCAGACCTTGTCCGAGCCCGTGGTCGATAAGACTTCCGCTGAAGG
TCAAGATGAGTGCTGTATATACGGTGTTTCCGCCATGCAAGGATGGCGAA
TCAGCATGGAGGATGCCCATGCCGCTGTCCTCGACCTCCAGGCCAAGTAC
TCCGAGCAGGATGAAAAGCCGACCGACCCCGATAAACGACTCGCTTTCTT
TGGTGTATATGACGGGCACGGTGGAGACAAAGTAGCATTATTCGCCGGAG
AAAACGTCCACAAGATCGTCGCGAAGCAGGACTCCTTTGCCAAAGGTGAT
ATCGAACAGGCCCTGAAGGATGGCTTCCTCGCTACCGACCGGGCTATTTT
GGAAGACCCGAAATATGAGGAGGAAGTGTCTGGCTGCACCGCAGCCGTCA
GCGTTATCTCGAAGCACAAGATCTGGGTGGCCAATGCTGGTGATTCTCGC
TCTGTACTGGGTGTCAAGGGTCGCGCAAAGCCTCTGTCATTTGACCACAA
GCCTCAGAACGAAGGCGAGAAAGCCCGTATCAGCGCTGCTGGTGGTTTCG
TTGACTTTGGCCGTGTCAACGGCAACCTGGCCTTGTCGCGGGCCATTGGT
GACTTCGAGTTCAAGAAGAGCCCCGAGTTGTCTCCTGAGCAGCAGATCGT
CACTGCCTATCCCGACGTCACTGTGCACGATCTCAGTGACGATGACGAGT
TCCTCGTAATTGCCTGTGACGGTATCTGGGATTGTCAGTCCTCCCAATCA
GTGGTGGAATTCGTCCGCCGTGGGATTGCCGCGAAGCAGGATCTGTATCG
GATCTGTGAGAACATGATGGACAATTGCCTGGCCTCCAACAGTGAAACCG
GCGGCGTTGGCTGCGACAACATGACAATGGTCATCATCGGTCTCCTGAAC
GCTGAGTTCCGCGGCCCCGGTATCCGGAATCAATTCGAGGAGAACCCGGA
TGACTTTGACATGGAAAACGACCGTGCGCGTGGCTTCAGCGTCCGCTCGG
GCCGCATCATCCTCTTGGGGGACGGCACTGAATTGATTCCGGAGCAGAAC
GATGACGAACTCTTTGATCAGGCTGAGGAAGACCAGGACCTTGTCAATCA
GGTGCACCGTGATTCGCCTGATGCGGCTCGGAATGAACGAGAGGGAACTC
CTGGGCCTCAGTCTAAGGATACTTCCCGAACGGACGCCGCTGAGATATCG
GAGTCGCCGTCTACCACCGCGGAGGGTTCGTCCGGCAGTGGCCCTGGAAC
GCCGCAAAAGCCTACGAGTTCGTAGATGGGTCAGACCTTGTCCGAGCCCG
TGGTCGATAAGACTTCCGCTGAAGGTCAAGATGAGTGCTGTATATACGGT
GTTTCCGCCATGCAAGGATGGCGAATCAGCATGGAGGATGCCCATGCCGC
TGTCCTCGACCTCCAGGCCAAGTACTCCGAGCAGGATGAAAAGCCGACCG
ACCCCGATAAACGACTCGCTTTCTTTGGTGTATATGACGGGCACGGTGGA
GACAAAGTAGCATTATTCGCCGGAGAAAACGTCCACAAGATCGTCGCGAA
GCAGGACTCCTTTGCCAAAGGTGATATCGAACAGGCCCTGAAGGATGGCT
TCCTCGCTACCGACCGGGCTATTTTGGAAGACCCGAAATATGAGGAGGAA
GTGTCTGGCTGCACCGCAGCCGTCAGCGTTATCTCGAAGCACAAGATCTG
GGTGGCCAATGCTGGTGATTCTCGCTCTGTACTGGGTGTCAAGGGTCGCG
CAAAGCCTCTGTCATTTGACCACAAGCCTCAGAACGAAGGCGAGAAAGCC
CGTATCAGCGCTGCTGGTGGTTTCGTTGACTTTGGCCGTGTCAACGGCAA
CCTGGCCTTGTCGCGGGCCATTGGTGACTTCGAGTTCAAGAAGAGCCCCG
AGTTGTCTCCTGAGCAGCAGATCGTCACTGCCTATCCCGACGTCACTGTG
CACGATCTCAGTGACGATGACGAGTTCCTCGTAATTGCCTGTGACGGTAT
CTGGGATTGTCAGTCCTCCCAATCAGTGGTGGAATTCGTCCGCCGTGGGA
TTGCCGCGAAGCAGGATCTGTATCGGATCTGTGAGAACATGATGGACAAT
TGCCTGGCCTCCAACAGTGAAACCGGCGGCGTTGGCTGCGACAACATGAC
AATGGTCATCATCGGTCTCCTGAACGCTGAGTTCCGCGGCCCCGGTATCC
GGAATCAATTCGAGGAGAACCCGGATGACTTTGACATGGAAAACGACCGT
GCGCGTGGCTTCAGCGTCCGCTCGGGCCGCATCATCCTCTTGGGGGACGG
CACTGAATTGATTCCGGAGCAGAACGATGACGAACTCTTTGATCAGGCTG
AGGAAGACCAGGACCTTGTCAATCAGGTGCACCGTGATTCGCCTGATGCG
GCTCGGAATGAACGAGAGGGAACTCCTGGGCCTCAGTCTAAGGATACTTC
CCGAACGGACGCCGCTGAGATATCGGAGTCGCCGTCTACCACCGCGGAGG
GTTCGTCCGGCAGTGGCCCTGGAACGCCGCAAAAGCCTACGAGTTCGTAG
ATGGGTCAGACCTTGTCCGAGCCCGTGGTCGATAAGACTTCCGCTGAAGG
TCAAGATGAGTGCTGTATATACGGTGTTTCCGCCATGCAAGGATGGCGAA
TCAGCATGGAGGATGCCCATGCCGCTGTCCTCGACCTCCAGGCCAAGTAC
TCCGAGCAGGATGAAAAGCCGACCGACCCCGATAAACGACTCGCTTTCTT
TGGTGTATATGACGGGCACGGTGGAGACAAAGTAGCATTATTCGCCGGAG
AAAACGTCCACAAGATCGTCGCGAAGCAGGACTCCTTTGCCAAAGGTGAT
ATCGAACAGGCCCTGAAGGATGGCTTCCTCGCTACCGACCGGGCTATTTT
GGAAGACCCGAAATATGAGGAGGAAGTGTCTGGCTGCACCGCAGCCGTCA
GCGTTATCTCGAAGCACAAGATCTGGGTGGCCAATGCTGGTGATTCTCGC
TCTGTACTGGGTGTCAAGGGTCGCGCAAAGCCTCTGTCATTTGACCACAA
GCCTCAGAACGAAGGCGAGAAAGCCCGTATCAGCGCTGCTGGTGGTTTCG
TTGACTTTGGCCGTGTCAACGGCAACCTGGCCTTGTCGCGGGCCATTGGT
GACTTCGAGTTCAAGAAGAGCCCCGAGTTGTCTCCTGAGCAGCAGATCGT
CACTGCCTATCCCGACGTCACTGTGCACGATCTCAGTGACGATGACGAGT
TCCTCGTAATTGCCTGTGACGGTATCTGGGATTGTCAGTCCTCCCAATCA
GTGGTGGAATTCGTCCGCCGTGGGATTGCCGCGAAGCAGGATCTGTATCG
GATCTGTGAGAACATGATGGACAATTGCCTGGCCTCCAACAGTGAAACCG
GCGGCGTTGGCTGCGACAACATGACAATGGTCATCATCGGTCTCCTGAAC
GCTGAGTTCCGCGGCCCCGGTATCCGGAATCAATTCGAGGAGAACCCGGA
TGACTTTGACATGGAAAACGACCGTGCGCGTGGCTTCAGCGTCCGCTCGG
GCCGCATCATCCTCTTGGGGGACGGCACTGAATTGATTCCGGAGCAGAAC
GATGACGAACTCTTTGATCAGGCTGAGGAAGACCAGGACCTTGTCAATCA
GGTGCACCGTGATTCGCCTGATGCGGCTCGGAATGAACGAGAGGGAACTC
CTGGGCCTCAGTCTAAGGATACTTCCCGAACGGACGCCGCTGAGATATCG
GAGTCGCCGTCTACCACCGCGGAGGGTTCGTCCGGCAGTGGCCCTGGAAC
GCCGCAAAAGCCTACGAGTTCGTAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0043169cation binding
GO:0003824catalytic activity
Relationships

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

Feature NameUnique NameSpeciesType
PTC2KYF_010762Aspergillus niger KYF3gene


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

Feature NameUnique NameSpeciesType
KYF_010762-T1KYF_010762-T1-proteinAspergillus niger KYF3polypeptide


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

Feature NameUnique NameSpeciesType
KYF_010762-T1.exon1KYF_010762-T1.exon1Aspergillus niger KYF3exon
KYF_010762-T1.exon2KYF_010762-T1.exon2Aspergillus niger KYF3exon
KYF_010762-T1.exon3KYF_010762-T1.exon3Aspergillus niger KYF3exon
KYF_010762-T1.exon4KYF_010762-T1.exon4Aspergillus niger KYF3exon
KYF_010762-T1.exon5KYF_010762-T1.exon5Aspergillus niger KYF3exon
KYF_010762-T1.exon6KYF_010762-T1.exon6Aspergillus niger KYF3exon
KYF_010762-T1.exon7KYF_010762-T1.exon7Aspergillus niger KYF3exon


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

Feature NameUnique NameSpeciesType
KYF_010762-T1.cdsKYF_010762-T1.cdsAspergillus niger KYF3CDS


Properties
Property NameValue
DBxrefInterPro:IPR000222
DBxrefInterPro:IPR036457
DBxrefInterPro:IPR001932
DBxrefPFAM:PF00481
ProductProtein phosphatase 2C 2
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Whole Genome Assembly and Annotation of Aspergillus Aspergillus niger KYF32020-10-09
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ch8supercontigch8:2253654..2255750 +
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