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CBS51388_006943-T1, CBS51388_006943-T1 (mRNA) Aspergillus niger CBS 513.88

Overview
NameCBS51388_006943-T1
Unique NameCBS51388_006943-T1
TypemRNA
OrganismAspergillus niger CBS 513.88
Sequences
The following sequences are available for this feature:

mRNA from alignment at An11:1344738..1347802+

Legend: exonpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CBS51388_006943-T1 ID=CBS51388_006943-T1|Name=CBS51388_006943-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=3065bp|location=Sequence derived from alignment at An11:1344738..1347802+ (Aspergillus niger CBS 513.88)
ATGATTGTCCATTCCATGCTTGAGCCCATGTCGACCACGCCCTGTGGAAA CCCACCACACCCGGACCTCATCGTAGAGACTACTATGGAACTCTACGGGA GCGCCTCAACCGTCTCAGCCGATGCGGAATCTCAGGCAGTCCAACGAAAG AGCAACAGCATCCGGGATCGCATTAAGCAACGGAGCTCCAGGATCCTTTC TTTACTGGGCCTTCGAGGCCCTAGTGGTGGTAGGGCTGTGGATTATGGTG ACATAGACACTCGCAGGGCTAACTAGGTGTCTAGCGCTGAAAACAATGAC CACGCGGGAGACGACTGTTCCGCAGAAACCCTCCAGTGATAGCAACCCAT CACAGTCTTTTCATTCCCTCCCAGCCGACAACCGAGCTCCATCTAGCAGC ACCGCCATGGAAGAAGAGCAAGGACATGCGGGCCCCCTGCTAACTTGCAT CACTCACGGCTGTACTACTCCGATGCCCGAGACATTCATGGCATCTGAAA CTCCGAGGCAGGCCGTCTCTCCAGAACAATCCGTGGCTGCTGATCAGCTA CGAAAGTCAGAGACGCGTGAACTACAGAGCAGTTCAGTAGCCGCGGTGAA ACGAAGCAAGTCAACGCCTGCTGTCTTGACTAGTATGGTGTCGACGAAAC TCTCCACGACATTTGGTAATCCCACTGTCATCCGTCGCTCGCACCTTCGT TCGCCGCTTAACATAACACCCGTGCATTTCCCAGCTTCCTCGCCAGGCCC AAGCAGACCAAGTGAGAGCCCTAACGACAGCTCAAATCCATCGATATCTC CCATAAGTAGTGTATCTCCGTTGGACACACGGTCGACACCTCCCACTTCC GAGGACCCTTCACGGGTTTCCAAACAAGCCCTGGGCGGTTCAGCCAAAGC TTCACCATGTACTTCTCTCCCACCTCAATCGGCAGAAGAAGCTTCCAGCT CGACCGAAGTGTCAGGAACATCGCCGTCGATTGTGACAGTCGAAGCTGCT GCCAATGCCAAGGTTTTCTTCGAGACCTACTTTAACTCCGTATTTTGCGG AACGAATCCTCGCTCACAGCGTCGTCAGGAGTTGGAACAATATATGTATG GATTGCCACTGAGCCCCGAAGAACGAGCTCGCATCTGGGCAAACTGGATC ACCCAGGAGCACCATTACCTCCGCCAATGTCGCATCCTCAAGAGTCGATC CCATGGTGGCGGTAACCATGATACGACTGTGTCCCTAGCTGGGTTTGAGG TCATCAAAGTGCTTGGCCGGGGCAGCTTTGGGGTCGTACGCCTCGTGAAG GAAAGGAAAGCAGAGGAGACATGCTCAGATGGCGATGCAGAAGACAAGCT CTTGCGCTGGAAGAATGAAGCCATAAACACTCAATCACATGCGCTGGATT TTCTCCGGTCTGTAAGTGACGGAGCGAAGAGCAACCGACGTAAGATTATG ACTGGCGTGAAGAAGGATGTCTTCGCGATGAAAGTCATTCGCAAGTCGGC GATGATTCGCAACAGCCAGGAAGGTCACTTGCGAGCCGAAAGAGACTTCC TGGTGGCATCGGCCAAGTCTCGCTGGGTTGTACCCTTGATCGCTAGTTTC CAGGATCGAGATCACCTTTACCTCATCATGGACTATATGGTGGGCGGTGA TTTTCTTGGCCTGCTGATGCGTCGGAACGTCTTGCCCGAGGCAATTGCGC GATGGTACATTGCTGAGATGATCCTCTGCATTGAAGAGGCTCATCGACTG TGCTGGATCCATCGTGATGTCAAGCCGGACAACTTTCTCATCTCAGCCTC TGGTCACCTGAAGATCTCGGACTTTGGTCTGGCCTTTGATGGACACTGGG CACACGATCAGGTCTACTACAATGATCACCGCCACACTCTCCTCAAGCGG CTTGGGATCCGGGTAGATGGTGATGCCCTCGATCAGACCGAGGCGAAACG CATCGCGGAGTCTCCCAGTGTGCTGGATCCAGAACCGGTCAATGACTCCG AGTGGACACCCCCCACTGCTGGCCTCTTGGGATGGCGCGACCGAACCCAG AAACGGCGGTTAGCTGGGAGCATTGTAGGAACGAACCAGTATATGGCGCC TGAAGTGGTTCGCGGAGAGCTGTACGACGGGCGATGCGACTGGTGGAGTA TTGGCATTATCCTGTACGAGGTAAGACATTCCCGATAGCTATGAAGGTTA CAGATATTGATCTCAGCACCAGTGCTTGTATGGCTTCACTCCTTTTGCTT CGGATGATCGCCAGAAGACGAAGTTGAAAATTCATGTAAGCACCTCGCCG TTTGTTATGTGCAGGCGAGGCATGACTGAGTACTTGAAGCATCATCTCCA GACCCTACATTTTCCGAACCGGCCACCCGATAAACTCATCTCCGCTGAAG CAATCGACCTGATAAACCAACTTCTCCAGGAGAAGGAACACCGCCTGTCC TCCAGCAAGTATCGCGTGAATGACTCGGTCACATTTCGCCTGGCAGCCAA GCATCCCCTCTACAACATGGACCCTCGCAATAAAACCTACCGCGGATTCT ATGTCTATCCCAACGACGCTAGAGACATTAAGAACCATCCTTTTTTTAGT TGTATCAACTGGAATGAAATCCACCAGTCAATGCCCCCGTTCATCCCCAA AGTCAAAGGCTGGGAGGACACCCGGTACTTCGATGACGCGGGATATGAGC ATGGTCACGACGAGGTCTCTGCGGCCTCAGACGCAGAGCATGCTGAACGC TCCAGCGAAGCAGATGAGCGAGGTGAGTGCCACCAGGATAGGGGAGAGCC ACCCCAATATCAGGAGATCGATAGCCTGCTGAGTCCCGCAAGCAAACTGC CGCCGAAGAACCGCCGCAAGGGGAGAGATAAGAAGCGACCCCGGGACAAG TTGCTGCGAGACCGCAAACTACGCATGACGGTCCTGGAGATGCGCAAGAG GGGTGCATTCCTGGGATATACCTATCGCCGACCCCATGCCGTTGCGATGG CATTGGCCCCGGATCGCGGACGAGGACTGCTGGCACGAGGCCATCTATCG GACTTGTACGGATAG
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Coding sequence (CDS) from alignment at An11:1344738..1347802+

>CBS51388_006943-T1 ID=CBS51388_006943-T1|Name=CBS51388_006943-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=8874bp|location=Sequence derived from alignment at An11:1344738..1347802+ (Aspergillus niger CBS 513.88)
ATGATTGTCCATTCCATGCTTGAGCCCATGTCGACCACGCCCTGTGGAAA
CCCACCACACCCGGACCTCATCGTAGAGACTACTATGGAACTCTACGGGA
GCGCCTCAACCGTCTCAGCCGATGCGGAATCTCAGGCAGTCCAACGAAAG
AGCAACAGCATCCGGGATCGCATTAAGCAACGGAGCTCCAGGATCCTTTC
TTTACTGGGCCTTCGAGGCCCTAGTGGTGCGCTGAAAACAATGACCACGC
GGGAGACGACTGTTCCGCAGAAACCCTCCAGTGATAGCAACCCATCACAG
TCTTTTCATTCCCTCCCAGCCGACAACCGAGCTCCATCTAGCAGCACCGC
CATGGAAGAAGAGCAAGGACATGCGGGCCCCCTGCTAACTTGCATCACTC
ACGGCTGTACTACTCCGATGCCCGAGACATTCATGGCATCTGAAACTCCG
AGGCAGGCCGTCTCTCCAGAACAATCCGTGGCTGCTGATCAGCTACGAAA
GTCAGAGACGCGTGAACTACAGAGCAGTTCAGTAGCCGCGGTGAAACGAA
GCAAGTCAACGCCTGCTGTCTTGACTAGTATGGTGTCGACGAAACTCTCC
ACGACATTTGGTAATCCCACTGTCATCCGTCGCTCGCACCTTCGTTCGCC
GCTTAACATAACACCCGTGCATTTCCCAGCTTCCTCGCCAGGCCCAAGCA
GACCAAGTGAGAGCCCTAACGACAGCTCAAATCCATCGATATCTCCCATA
AGTAGTGTATCTCCGTTGGACACACGGTCGACACCTCCCACTTCCGAGGA
CCCTTCACGGGTTTCCAAACAAGCCCTGGGCGGTTCAGCCAAAGCTTCAC
CATGTACTTCTCTCCCACCTCAATCGGCAGAAGAAGCTTCCAGCTCGACC
GAAGTGTCAGGAACATCGCCGTCGATTGTGACAGTCGAAGCTGCTGCCAA
TGCCAAGGTTTTCTTCGAGACCTACTTTAACTCCGTATTTTGCGGAACGA
ATCCTCGCTCACAGCGTCGTCAGGAGTTGGAACAATATATGTATGGATTG
CCACTGAGCCCCGAAGAACGAGCTCGCATCTGGGCAAACTGGATCACCCA
GGAGCACCATTACCTCCGCCAATGTCGCATCCTCAAGAGTCGATCCCATG
GTGGCGGTAACCATGATACGACTGTGTCCCTAGCTGGGTTTGAGGTCATC
AAAGTGCTTGGCCGGGGCAGCTTTGGGGTCGTACGCCTCGTGAAGGAAAG
GAAAGCAGAGGAGACATGCTCAGATGGCGATGCAGAAGACAAGCTCTTGC
GCTGGAAGAATGAAGCCATAAACACTCAATCACATGCGCTGGATTTTCTC
CGGTCTGTAAGTGACGGAGCGAAGAGCAACCGACGTAAGATTATGACTGG
CGTGAAGAAGGATGTCTTCGCGATGAAAGTCATTCGCAAGTCGGCGATGA
TTCGCAACAGCCAGGAAGGTCACTTGCGAGCCGAAAGAGACTTCCTGGTG
GCATCGGCCAAGTCTCGCTGGGTTGTACCCTTGATCGCTAGTTTCCAGGA
TCGAGATCACCTTTACCTCATCATGGACTATATGGTGGGCGGTGATTTTC
TTGGCCTGCTGATGCGTCGGAACGTCTTGCCCGAGGCAATTGCGCGATGG
TACATTGCTGAGATGATCCTCTGCATTGAAGAGGCTCATCGACTGTGCTG
GATCCATCGTGATGTCAAGCCGGACAACTTTCTCATCTCAGCCTCTGGTC
ACCTGAAGATCTCGGACTTTGGTCTGGCCTTTGATGGACACTGGGCACAC
GATCAGGTCTACTACAATGATCACCGCCACACTCTCCTCAAGCGGCTTGG
GATCCGGGTAGATGGTGATGCCCTCGATCAGACCGAGGCGAAACGCATCG
CGGAGTCTCCCAGTGTGCTGGATCCAGAACCGGTCAATGACTCCGAGTGG
ACACCCCCCACTGCTGGCCTCTTGGGATGGCGCGACCGAACCCAGAAACG
GCGGTTAGCTGGGAGCATTGTAGGAACGAACCAGTATATGGCGCCTGAAG
TGGTTCGCGGAGAGCTGTACGACGGGCGATGCGACTGGTGGAGTATTGGC
ATTATCCTGTACGAGTGCTTGTATGGCTTCACTCCTTTTGCTTCGGATGA
TCGCCAGAAGACGAAGTTGAAAATTCATGTAAGCACCTCGCCGTTTGTTA
TGTGCAGGCGAGGCATGACTGAGTACTTGAAGCATCATCTCCAGACCCTA
CATTTTCCGAACCGGCCACCCGATAAACTCATCTCCGCTGAAGCAATCGA
CCTGATAAACCAACTTCTCCAGGAGAAGGAACACCGCCTGTCCTCCAGCA
AGTATCGCGTGAATGACTCGGTCACATTTCGCCTGGCAGCCAAGCATCCC
CTCTACAACATGGACCCTCGCAATAAAACCTACCGCGGATTCTATGTCTA
TCCCAACGACGCTAGAGACATTAAGAACCATCCTTTTTTTAGTTGTATCA
ACTGGAATGAAATCCACCAGTCAATGCCCCCGTTCATCCCCAAAGTCAAA
GGCTGGGAGGACACCCGGTACTTCGATGACGCGGGATATGAGCATGGTCA
CGACGAGGTCTCTGCGGCCTCAGACGCAGAGCATGCTGAACGCTCCAGCG
AAGCAGATGAGCGAGGTGAGTGCCACCAGGATAGGGGAGAGCCACCCCAA
TATCAGGAGATCGATAGCCTGCTGAGTCCCGCAAGCAAACTGCCGCCGAA
GAACCGCCGCAAGGGGAGAGATAAGAAGCGACCCCGGGACAAGTTGCTGC
GAGACCGCAAACTACGCATGACGGTCCTGGAGATGCGCAAGAGGGGTGCA
TTCCTGGGATATACCTATCGCCGACCCCATGCCGTTGCGATGGCATTGGC
CCCGGATCGCGGACGAGGACTGCTGGCACGAGGCCATCTATCGGACTTGT
ACGGATAGATGATTGTCCATTCCATGCTTGAGCCCATGTCGACCACGCCC
TGTGGAAACCCACCACACCCGGACCTCATCGTAGAGACTACTATGGAACT
CTACGGGAGCGCCTCAACCGTCTCAGCCGATGCGGAATCTCAGGCAGTCC
AACGAAAGAGCAACAGCATCCGGGATCGCATTAAGCAACGGAGCTCCAGG
ATCCTTTCTTTACTGGGCCTTCGAGGCCCTAGTGGTGCGCTGAAAACAAT
GACCACGCGGGAGACGACTGTTCCGCAGAAACCCTCCAGTGATAGCAACC
CATCACAGTCTTTTCATTCCCTCCCAGCCGACAACCGAGCTCCATCTAGC
AGCACCGCCATGGAAGAAGAGCAAGGACATGCGGGCCCCCTGCTAACTTG
CATCACTCACGGCTGTACTACTCCGATGCCCGAGACATTCATGGCATCTG
AAACTCCGAGGCAGGCCGTCTCTCCAGAACAATCCGTGGCTGCTGATCAG
CTACGAAAGTCAGAGACGCGTGAACTACAGAGCAGTTCAGTAGCCGCGGT
GAAACGAAGCAAGTCAACGCCTGCTGTCTTGACTAGTATGGTGTCGACGA
AACTCTCCACGACATTTGGTAATCCCACTGTCATCCGTCGCTCGCACCTT
CGTTCGCCGCTTAACATAACACCCGTGCATTTCCCAGCTTCCTCGCCAGG
CCCAAGCAGACCAAGTGAGAGCCCTAACGACAGCTCAAATCCATCGATAT
CTCCCATAAGTAGTGTATCTCCGTTGGACACACGGTCGACACCTCCCACT
TCCGAGGACCCTTCACGGGTTTCCAAACAAGCCCTGGGCGGTTCAGCCAA
AGCTTCACCATGTACTTCTCTCCCACCTCAATCGGCAGAAGAAGCTTCCA
GCTCGACCGAAGTGTCAGGAACATCGCCGTCGATTGTGACAGTCGAAGCT
GCTGCCAATGCCAAGGTTTTCTTCGAGACCTACTTTAACTCCGTATTTTG
CGGAACGAATCCTCGCTCACAGCGTCGTCAGGAGTTGGAACAATATATGT
ATGGATTGCCACTGAGCCCCGAAGAACGAGCTCGCATCTGGGCAAACTGG
ATCACCCAGGAGCACCATTACCTCCGCCAATGTCGCATCCTCAAGAGTCG
ATCCCATGGTGGCGGTAACCATGATACGACTGTGTCCCTAGCTGGGTTTG
AGGTCATCAAAGTGCTTGGCCGGGGCAGCTTTGGGGTCGTACGCCTCGTG
AAGGAAAGGAAAGCAGAGGAGACATGCTCAGATGGCGATGCAGAAGACAA
GCTCTTGCGCTGGAAGAATGAAGCCATAAACACTCAATCACATGCGCTGG
ATTTTCTCCGGTCTGTAAGTGACGGAGCGAAGAGCAACCGACGTAAGATT
ATGACTGGCGTGAAGAAGGATGTCTTCGCGATGAAAGTCATTCGCAAGTC
GGCGATGATTCGCAACAGCCAGGAAGGTCACTTGCGAGCCGAAAGAGACT
TCCTGGTGGCATCGGCCAAGTCTCGCTGGGTTGTACCCTTGATCGCTAGT
TTCCAGGATCGAGATCACCTTTACCTCATCATGGACTATATGGTGGGCGG
TGATTTTCTTGGCCTGCTGATGCGTCGGAACGTCTTGCCCGAGGCAATTG
CGCGATGGTACATTGCTGAGATGATCCTCTGCATTGAAGAGGCTCATCGA
CTGTGCTGGATCCATCGTGATGTCAAGCCGGACAACTTTCTCATCTCAGC
CTCTGGTCACCTGAAGATCTCGGACTTTGGTCTGGCCTTTGATGGACACT
GGGCACACGATCAGGTCTACTACAATGATCACCGCCACACTCTCCTCAAG
CGGCTTGGGATCCGGGTAGATGGTGATGCCCTCGATCAGACCGAGGCGAA
ACGCATCGCGGAGTCTCCCAGTGTGCTGGATCCAGAACCGGTCAATGACT
CCGAGTGGACACCCCCCACTGCTGGCCTCTTGGGATGGCGCGACCGAACC
CAGAAACGGCGGTTAGCTGGGAGCATTGTAGGAACGAACCAGTATATGGC
GCCTGAAGTGGTTCGCGGAGAGCTGTACGACGGGCGATGCGACTGGTGGA
GTATTGGCATTATCCTGTACGAGTGCTTGTATGGCTTCACTCCTTTTGCT
TCGGATGATCGCCAGAAGACGAAGTTGAAAATTCATGTAAGCACCTCGCC
GTTTGTTATGTGCAGGCGAGGCATGACTGAGTACTTGAAGCATCATCTCC
AGACCCTACATTTTCCGAACCGGCCACCCGATAAACTCATCTCCGCTGAA
GCAATCGACCTGATAAACCAACTTCTCCAGGAGAAGGAACACCGCCTGTC
CTCCAGCAAGTATCGCGTGAATGACTCGGTCACATTTCGCCTGGCAGCCA
AGCATCCCCTCTACAACATGGACCCTCGCAATAAAACCTACCGCGGATTC
TATGTCTATCCCAACGACGCTAGAGACATTAAGAACCATCCTTTTTTTAG
TTGTATCAACTGGAATGAAATCCACCAGTCAATGCCCCCGTTCATCCCCA
AAGTCAAAGGCTGGGAGGACACCCGGTACTTCGATGACGCGGGATATGAG
CATGGTCACGACGAGGTCTCTGCGGCCTCAGACGCAGAGCATGCTGAACG
CTCCAGCGAAGCAGATGAGCGAGGTGAGTGCCACCAGGATAGGGGAGAGC
CACCCCAATATCAGGAGATCGATAGCCTGCTGAGTCCCGCAAGCAAACTG
CCGCCGAAGAACCGCCGCAAGGGGAGAGATAAGAAGCGACCCCGGGACAA
GTTGCTGCGAGACCGCAAACTACGCATGACGGTCCTGGAGATGCGCAAGA
GGGGTGCATTCCTGGGATATACCTATCGCCGACCCCATGCCGTTGCGATG
GCATTGGCCCCGGATCGCGGACGAGGACTGCTGGCACGAGGCCATCTATC
GGACTTGTACGGATAGATGATTGTCCATTCCATGCTTGAGCCCATGTCGA
CCACGCCCTGTGGAAACCCACCACACCCGGACCTCATCGTAGAGACTACT
ATGGAACTCTACGGGAGCGCCTCAACCGTCTCAGCCGATGCGGAATCTCA
GGCAGTCCAACGAAAGAGCAACAGCATCCGGGATCGCATTAAGCAACGGA
GCTCCAGGATCCTTTCTTTACTGGGCCTTCGAGGCCCTAGTGGTGCGCTG
AAAACAATGACCACGCGGGAGACGACTGTTCCGCAGAAACCCTCCAGTGA
TAGCAACCCATCACAGTCTTTTCATTCCCTCCCAGCCGACAACCGAGCTC
CATCTAGCAGCACCGCCATGGAAGAAGAGCAAGGACATGCGGGCCCCCTG
CTAACTTGCATCACTCACGGCTGTACTACTCCGATGCCCGAGACATTCAT
GGCATCTGAAACTCCGAGGCAGGCCGTCTCTCCAGAACAATCCGTGGCTG
CTGATCAGCTACGAAAGTCAGAGACGCGTGAACTACAGAGCAGTTCAGTA
GCCGCGGTGAAACGAAGCAAGTCAACGCCTGCTGTCTTGACTAGTATGGT
GTCGACGAAACTCTCCACGACATTTGGTAATCCCACTGTCATCCGTCGCT
CGCACCTTCGTTCGCCGCTTAACATAACACCCGTGCATTTCCCAGCTTCC
TCGCCAGGCCCAAGCAGACCAAGTGAGAGCCCTAACGACAGCTCAAATCC
ATCGATATCTCCCATAAGTAGTGTATCTCCGTTGGACACACGGTCGACAC
CTCCCACTTCCGAGGACCCTTCACGGGTTTCCAAACAAGCCCTGGGCGGT
TCAGCCAAAGCTTCACCATGTACTTCTCTCCCACCTCAATCGGCAGAAGA
AGCTTCCAGCTCGACCGAAGTGTCAGGAACATCGCCGTCGATTGTGACAG
TCGAAGCTGCTGCCAATGCCAAGGTTTTCTTCGAGACCTACTTTAACTCC
GTATTTTGCGGAACGAATCCTCGCTCACAGCGTCGTCAGGAGTTGGAACA
ATATATGTATGGATTGCCACTGAGCCCCGAAGAACGAGCTCGCATCTGGG
CAAACTGGATCACCCAGGAGCACCATTACCTCCGCCAATGTCGCATCCTC
AAGAGTCGATCCCATGGTGGCGGTAACCATGATACGACTGTGTCCCTAGC
TGGGTTTGAGGTCATCAAAGTGCTTGGCCGGGGCAGCTTTGGGGTCGTAC
GCCTCGTGAAGGAAAGGAAAGCAGAGGAGACATGCTCAGATGGCGATGCA
GAAGACAAGCTCTTGCGCTGGAAGAATGAAGCCATAAACACTCAATCACA
TGCGCTGGATTTTCTCCGGTCTGTAAGTGACGGAGCGAAGAGCAACCGAC
GTAAGATTATGACTGGCGTGAAGAAGGATGTCTTCGCGATGAAAGTCATT
CGCAAGTCGGCGATGATTCGCAACAGCCAGGAAGGTCACTTGCGAGCCGA
AAGAGACTTCCTGGTGGCATCGGCCAAGTCTCGCTGGGTTGTACCCTTGA
TCGCTAGTTTCCAGGATCGAGATCACCTTTACCTCATCATGGACTATATG
GTGGGCGGTGATTTTCTTGGCCTGCTGATGCGTCGGAACGTCTTGCCCGA
GGCAATTGCGCGATGGTACATTGCTGAGATGATCCTCTGCATTGAAGAGG
CTCATCGACTGTGCTGGATCCATCGTGATGTCAAGCCGGACAACTTTCTC
ATCTCAGCCTCTGGTCACCTGAAGATCTCGGACTTTGGTCTGGCCTTTGA
TGGACACTGGGCACACGATCAGGTCTACTACAATGATCACCGCCACACTC
TCCTCAAGCGGCTTGGGATCCGGGTAGATGGTGATGCCCTCGATCAGACC
GAGGCGAAACGCATCGCGGAGTCTCCCAGTGTGCTGGATCCAGAACCGGT
CAATGACTCCGAGTGGACACCCCCCACTGCTGGCCTCTTGGGATGGCGCG
ACCGAACCCAGAAACGGCGGTTAGCTGGGAGCATTGTAGGAACGAACCAG
TATATGGCGCCTGAAGTGGTTCGCGGAGAGCTGTACGACGGGCGATGCGA
CTGGTGGAGTATTGGCATTATCCTGTACGAGTGCTTGTATGGCTTCACTC
CTTTTGCTTCGGATGATCGCCAGAAGACGAAGTTGAAAATTCATGTAAGC
ACCTCGCCGTTTGTTATGTGCAGGCGAGGCATGACTGAGTACTTGAAGCA
TCATCTCCAGACCCTACATTTTCCGAACCGGCCACCCGATAAACTCATCT
CCGCTGAAGCAATCGACCTGATAAACCAACTTCTCCAGGAGAAGGAACAC
CGCCTGTCCTCCAGCAAGTATCGCGTGAATGACTCGGTCACATTTCGCCT
GGCAGCCAAGCATCCCCTCTACAACATGGACCCTCGCAATAAAACCTACC
GCGGATTCTATGTCTATCCCAACGACGCTAGAGACATTAAGAACCATCCT
TTTTTTAGTTGTATCAACTGGAATGAAATCCACCAGTCAATGCCCCCGTT
CATCCCCAAAGTCAAAGGCTGGGAGGACACCCGGTACTTCGATGACGCGG
GATATGAGCATGGTCACGACGAGGTCTCTGCGGCCTCAGACGCAGAGCAT
GCTGAACGCTCCAGCGAAGCAGATGAGCGAGGTGAGTGCCACCAGGATAG
GGGAGAGCCACCCCAATATCAGGAGATCGATAGCCTGCTGAGTCCCGCAA
GCAAACTGCCGCCGAAGAACCGCCGCAAGGGGAGAGATAAGAAGCGACCC
CGGGACAAGTTGCTGCGAGACCGCAAACTACGCATGACGGTCCTGGAGAT
GCGCAAGAGGGGTGCATTCCTGGGATATACCTATCGCCGACCCCATGCCG
TTGCGATGGCATTGGCCCCGGATCGCGGACGAGGACTGCTGGCACGAGGC
CATCTATCGGACTTGTACGGATAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0004674protein serine/threonine kinase activity
GO:0005524ATP binding
GO:0004672protein kinase activity
Vocabulary: Biological Process
TermDefinition
GO:0006468protein phosphorylation
Relationships

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

Feature NameUnique NameSpeciesType
CBS51388_006943CBS51388_006943Aspergillus niger CBS 513.88gene


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

Feature NameUnique NameSpeciesType
CBS51388_006943-T1.exon1CBS51388_006943-T1.exon1Aspergillus niger CBS 513.88exon
CBS51388_006943-T1.exon2CBS51388_006943-T1.exon2Aspergillus niger CBS 513.88exon
CBS51388_006943-T1.exon3CBS51388_006943-T1.exon3Aspergillus niger CBS 513.88exon


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

Feature NameUnique NameSpeciesType
CBS51388_006943-T1.cdsCBS51388_006943-T1.cdsAspergillus niger CBS 513.88CDS


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

Feature NameUnique NameSpeciesType
CBS51388_006943-T1CBS51388_006943-T1-proteinAspergillus niger CBS 513.88polypeptide


Properties
Property NameValue
NoteantiSMASH:Cluster_11.7
NoteantiSMASH:Cluster_11.8
NoteSMCOG1030:serine/threonine protein kinase
DBxrefInterPro:IPR011009
DBxrefInterPro:IPR000961
DBxrefInterPro:IPR000719
DBxrefPFAM:PF07714
DBxrefPFAM:PF00069
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
An11supercontigAn11:1344738..1347802 +