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Sequences
The following sequences are available for this feature:
mRNA from alignment at An14:1288908..1292164- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_009000-T1 ID=CBS51388_009000-T1|Name=CBS51388_009000-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=3257bp|location=Sequence derived from alignment at An14:1288908..1292164- (Aspergillus niger CBS 513.88)
ATGTCTGGGGTTTTCTCGACTATGAGACCCAGCGTGGAGGACCACCCAAT
GCCTGACGTATGCTATATGCCCTCAGATTCGGCGCCCCACGAGGAGGCCG
TCGATAATACCGCCCATGACCCCATGGATTGTGCTCCCGATTCCCCCGCA
TCTAACATCCCTCAGGAAACTGCCAAAGCCCCCTCCGCAGAGATTCCAAA
GTATCAGCTCCGATCCGTGCATGTTCCCGGCAATCCAAAGGCTGTGAGAC
TCAATGGAAAACATGAAGTCAAGCCCTCCTTCCCCCTCCGCACCCCGCTC
ATCAGACCCGATCATCGTTTCTCCCCGAATAGTCGCGCGGCCTCATTCCT
CGGCGTTGATGCCCTCCAGAAGAGCGGTCGTAATGCGCATTCATCTCATC
TTTTAAGCCATCTGGGTACCAGCAAATATCTATCTGCCGGCCTGAACCAC
GTCTCCTGGTCGAATAACAAACCTCTCAGCCTCCCTTTTGGTCCAGACAG
GTCAAATGAAACCGGTTACCTTCTTGGAGGCAAGTCTATTGGTATAGACA
AGAAAACTTTTCATATGAATGTCAATAAACATTCTGGCTTTACTACGCCT
TCTCGCAAGAGATCAATGGAAGGTGATGGCTATGAGCAAGCTCAACCCAT
CACTTCACCTTCTGCTAAATTCCGTCGTGTGAGGGCTGGTAGCTTTGCAC
GCAGTGCTGCTACTGAACTTGAGGCCACTGCCAACGAAGATGATTGGTAC
CCTGGTTCCCCCATGGACATCGACACTCCTGAACACAACAACGAACCAAA
CATGGTTACAGCCCTTGCGGCAGTTGAATCTCATCTCGCTCTTCCTGAAA
CCTCTCCTAAGTCGCGTCGACTGGACGCTTCCAAAGTCAAGCCTGTCACC
GCTCTTGCGGTCTCGACCACCCCTAGCACTCCAGAGAACCATATGATGCC
TGGAGCGTGGCCCGAATCAGTGCCGTCTCACTGGTCCACCGATGCCGCCA
CCGATATCGAAGATAGCCCTATGATTTCCGATGAAGAGATCCTATCCAAC
AATACGGACATGGCCGACGCTGGAGAGCCGACTATTCCCGTGAATTCGGA
CGCCGAACCACAGCCTTCCTCACCTTGGTATGCTTACTGGGGGACGTGGC
ATAGCTACTTGCAGACAGTTGTCTCCATTCCCACTGGAATTACTCAGAAC
TTTTCCTATGCGGCAAGGTCCGCTGCGAATGCGGTTGGTGCTGCTAGGCG
ACGCGTGTGCGCACTTTGGAATCGCCGCGGTGGACGTCGTCTTCCTTCGC
CTCCTGGATCGCCCACGCGCCTCAACCTTCGCAACCTTTCTCCGGAACAG
CAGGAGCGTGTGGATCGTGATAGGAGAATCCGAAGCGGACAATCCAGCCC
CCGTACCGACAAATCTTTCCCCGACTTCTCCAACGTTCCTAATTTCTCCC
ATAACAACAACACGGCTCCTACAGTCGAGTCTTCTCAGATTTTGCAGGAC
CTTGTGTCTCAGGAGCAGATGCCCCAGGCACTCAGTGACTCTGTATCTGT
TCAGCGACGTGCTCATGAGCCAAAGAATGTGGGAACTCGCAAACACCCTG
GGATGCCGCCAGTGAAACAGCCAGCTCGGAGATCCCCTCCACGCTCGGCT
CAGCGTTCAGCTCAACGTTCAACTCAAGACACAGCCCAAAAGCCTCTCCG
TCGGCAAGGAAGCCCGGGTATTCGCAAGCAAAAGCACATTACGCGTGCTG
AGCGCGCCGAGAACCGTGAGCGATCTGCTGCGTTCAGAGCCCTCTTCGTT
GGGGACATCGCCGGCATGAAGAAAGCTATGGAGGCTCAGGCCGCGCGTGA
CCGTCAAGCCTCCGCCGCAGGTCGCCGTCCGGTTGAACTAAACTTGATGA
GAAGCAGCTATGAACTAGACAGAGCTCAAGACTTGAACATGTTGGCGAAT
GTTCAGTCTCGCTCGTTTACTGCAGTTGATCAACTGGGTGCAACTGAAAA
GGTTCTCTCATCATCAATCACTGTTGCACCCAAGACAATTCTCAAGATAA
GAGGAAGGCCCAGCATTTCTGGGAATAGAACTAGATCTCGCCGCGCCACT
CCGCGCAGGGTTCGCTTCCGCGAGCCTGTGGTAGCCGAGTTCATTGACGA
CACGCGAGATTGGGGTGAGGTGGAGGACAACCTGGCACCCCATCTCGGAG
ATACGCTTGATGTCAATGAGAGAACTACCGAAACCAGTGTTGGCACGAAA
GCCGAGTACACAGAAAAGGAAAACGTGCCGCCAGCCCTGGAGAACGAGGA
AGAGAATGAGCCCATCGTTGACCCCTGGTCCCAACCAACCTTTGAGTTCC
CGCTGGGTCGAGCAGTATCAGCTGTCAGTCTATTTTATCCCGAGCCAAAA
CCCATTCCAGAGGGCAGAACCGAGTCTGTGTACGCCGACCGTTGGAGACA
GATCCAAGAAGAAGAGAGGCAGAAAGCGCTCCCATCACGTATTAAACCGG
ATGGTCCAGCTGTACGGCCTCTCTCTCCCGAATGGGAAGCTCAAATAAAA
AAAAACTTCAAGATGGGCGCGTATCCGGAGGAAAAACCGTCGCGACCACC
CTCTCCGGTGACCCTCTAACGAAGAGGAGCCTCGCCACCTGTTACACGCG
CGGCGAGTGGCTTAACGACGAGGTGATCAACGGATACCTTGCCCTCATCG
TTGATTACCTCCGACGCAAGAACCACAACGCCGGCCGCAACGACAAGCCC
CGATTCCATGCCTTCAATTCGTTTTTCTTTTCGAATCTCAGAGACAAAGG
CTACGAGTCCGTGGCCCGGTGGGCCAAACGGGCCAAGATCGGCGGCTCAC
TCCTCCTCGACGTAGACACCGTCTATATCCCGGTCCACAACAGCCAGCAC
TGGACGCTGGTTGTTGTGCGACCGGGGGAACGCTCAATCGAGCATTTCGA
TTCTCTTGGGGCCCGGTCTCGCCGCCACATCGCGGTAGTCCAAACTTGGC
TCCGCGGCGAGCTGGGCCCCAAGTACGTCGAGGAGGAGTGGCGCGTGTTG
CCGTCCCTGTCCCCCCAGCAAGACAATGGTTCAGATTGCGGGGTCTTCCT
CCTCACCACGGCCAAGGCTGTGGCCATCGGCCTCGAGCCACTGTCTTACG
GCGCGCAAGACACACCGCTCTTGCGCCGTAAGATAGTGGCCGAGCTGATG
GCCGGCGGCCTGGAGGGGGAATTTGACCCCGCCCAGCAAGACCATGTCTT
GCTATGA back to topCoding sequence (CDS) from alignment at An14:1288908..1292164- >CBS51388_009000-T1 ID=CBS51388_009000-T1|Name=CBS51388_009000-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=6366bp|location=Sequence derived from alignment at An14:1288908..1292164- (Aspergillus niger CBS 513.88)
ATGGGCGCGTATCCGGAGGAAAAACCGTCGCGACCACCCTCTCCGGTGAC
CCTCTAACGAAGAGGAGCCTCGCCACCTGTTACACGCGCGGCGAGTGGCT
TAACGACGAGGTGATCAACGGATACCTTGCCCTCATCGTTGATTACCTCC
GACGCAAGAACCACAACGCCGGCCGCAACGACAAGCCCCGATTCCATGCC
TTCAATTCGTTTTTCTTTTCGAATCTCAGAGACAAAGGCTACGAGTCCGT
GGCCCGGTGGGCCAAACGGGCCAAGATCGGCGGCTCACTCCTCCTCGACG
TAGACACCGTCTATATCCCGGTCCACAACAGCCAGCACTGGACGCTGGTT
GTTGTGCGACCGGGGGAACGCTCAATCGAGCATTTCGATTCTCTTGGGGC
CCGGTCTCGCCGCCACATCGCGGTAGTCCAAACTTGGCTCCGCGGCGAGC
TGGGCCCCAAGTACGTCGAGGAGGAGTGGCGCGTGTTGCCGTCCCTGTCC
CCCCAGCAAGACAATGGTTCAGATTGCGGGGTCTTCCTCCTCACCACGGC
CAAGGCTGTGGCCATCGGCCTCGAGCCACTGTCTTACGGCGCGCAAGACA
CACCGCTCTTGCGCCGTAAGATAGTGGCCGAGCTGATGGCCGGCGGCCTG
GAGGGGGAATTTGACCCCGCCCAGCAAGACCATGTCTTGCTATGAATGTC
TGGGGTTTTCTCGACTATGAGACCCAGCGTGGAGGACCACCCAATGCCTG
ACGTATGCTATATGCCCTCAGATTCGGCGCCCCACGAGGAGGCCGTCGAT
AATACCGCCCATGACCCCATGGATTGTGCTCCCGATTCCCCCGCATCTAA
CATCCCTCAGGAAACTGCCAAAGCCCCCTCCGCAGAGATTCCAAAGTATC
AGCTCCGATCCGTGCATGTTCCCGGCAATCCAAAGGCTGTGAGACTCAAT
GGAAAACATGAAGTCAAGCCCTCCTTCCCCCTCCGCACCCCGCTCATCAG
ACCCGATCATCGTTTCTCCCCGAATAGTCGCGCGGCCTCATTCCTCGGCG
TTGATGCCCTCCAGAAGAGCGGTCGTAATGCGCATTCATCTCATCTTTTA
AGCCATCTGGGTACCAGCAAATATCTATCTGCCGGCCTGAACCACGTCTC
CTGGTCGAATAACAAACCTCTCAGCCTCCCTTTTGGTCCAGACAGGTCAA
ATGAAACCGGTTACCTTCTTGGAGGCAAGTCTATTGGTATAGACAAGAAA
ACTTTTCATATGAATGTCAATAAACATTCTGGCTTTACTACGCCTTCTCG
CAAGAGATCAATGGAAGGTGATGGCTATGAGCAAGCTCAACCCATCACTT
CACCTTCTGCTAAATTCCGTCGTGTGAGGGCTGGTAGCTTTGCACGCAGT
GCTGCTACTGAACTTGAGGCCACTGCCAACGAAGATGATTGGTACCCTGG
TTCCCCCATGGACATCGACACTCCTGAACACAACAACGAACCAAACATGG
TTACAGCCCTTGCGGCAGTTGAATCTCATCTCGCTCTTCCTGAAACCTCT
CCTAAGTCGCGTCGACTGGACGCTTCCAAAGTCAAGCCTGTCACCGCTCT
TGCGGTCTCGACCACCCCTAGCACTCCAGAGAACCATATGATGCCTGGAG
CGTGGCCCGAATCAGTGCCGTCTCACTGGTCCACCGATGCCGCCACCGAT
ATCGAAGATAGCCCTATGATTTCCGATGAAGAGATCCTATCCAACAATAC
GGACATGGCCGACGCTGGAGAGCCGACTATTCCCGTGAATTCGGACGCCG
AACCACAGCCTTCCTCACCTTGGTATGCTTACTGGGGGACGTGGCATAGC
TACTTGCAGACAGTTGTCTCCATTCCCACTGGAATTACTCAGAACTTTTC
CTATGCGGCAAGGTCCGCTGCGAATGCGGTTGGTGCTGCTAGGCGACGCG
TGTGCGCACTTTGGAATCGCCGCGGTGGACGTCGTCTTCCTTCGCCTCCT
GGATCGCCCACGCGCCTCAACCTTCGCAACCTTTCTCCGGAACAGCAGGA
GCGTGTGGATCGTGATAGGAGAATCCGAAGCGGACAATCCAGCCCCCGTA
CCGACAAATCTTTCCCCGACTTCTCCAACGTTCCTAATTTCTCCCATAAC
AACAACACGGCTCCTACAGTCGAGTCTTCTCAGATTTTGCAGGACCTTGT
GTCTCAGGAGCAGATGCCCCAGGCACTCAGTGACTCTGTATCTGTTCAGC
GACGTGCTCATGAGCCAAAGAATGTGGGAACTCGCAAACACCCTGGGATG
CCGCCAGTGAAACAGCCAGCTCGGAGATCCCCTCCACGCTCGGCTCAGCG
TTCAGCTCAACGTTCAACTCAAGACACAGCCCAAAAGCCTCTCCGTCGGC
AAGGAAGCCCGGGTATTCGCAAGCAAAAGCACATTACGCGTGCTGAGCGC
GCCGAGAACCGTGAGCGATCTGCTGCGTTCAGAGCCCTCTTCGTTGGGGA
CATCGCCGGCATGAAGAAAGCTATGGAGGCTCAGGCCGCGCGTGACCGTC
AAGCCTCCGCCGCAGGTCGCCGTCCGGTTGAACTAAACTTGATGAGAAGC
AGCTATGAACTAGACAGAGCTCAAGACTTGAACATGTTGGCGAATGTTCA
GTCTCGCTCGTTTACTGCAGTTGATCAACTGGGTGCAACTGAAAAGGTTC
TCTCATCATCAATCACTGTTGCACCCAAGACAATTCTCAAGATAAGAGGA
AGGCCCAGCATTTCTGGGAATAGAACTAGATCTCGCCGCGCCACTCCGCG
CAGGGTTCGCTTCCGCGAGCCTGTGGTAGCCGAGTTCATTGACGACACGC
GAGATTGGGGTGAGGTGGAGGACAACCTGGCACCCCATCTCGGAGATACG
CTTGATGTCAATGAGAGAACTACCGAAACCAGTGTTGGCACGAAAGCCGA
GTACACAGAAAAGGAAAACGTGCCGCCAGCCCTGGAGAACGAGGAAGAGA
ATGAGCCCATCGTTGACCCCTGGTCCCAACCAACCTTTGAGTTCCCGCTG
GGTCGAGCAGTATCAGCTGTCAGTCTATTTTATCCCGAGCCAAAACCCAT
TCCAGAGGGCAGAACCGAGTCTGTGTACGCCGACCGTTGGAGACAGATCC
AAGAAGAAGAGAGGCAGAAAGCGCTCCCATCACATGGGCGCGTATCCGGA
GGAAAAACCGTCGCGACCACCCTCTCCGGTGACCCTCTAACGAAGAGGAG
CCTCGCCACCTGTTACACGCGCGGCGAGTGGCTTAACGACGAGGTGATCA
ACGGATACCTTGCCCTCATCGTTGATTACCTCCGACGCAAGAACCACAAC
GCCGGCCGCAACGACAAGCCCCGATTCCATGCCTTCAATTCGTTTTTCTT
TTCGAATCTCAGAGACAAAGGCTACGAGTCCGTGGCCCGGTGGGCCAAAC
GGGCCAAGATCGGCGGCTCACTCCTCCTCGACGTAGACACCGTCTATATC
CCGGTCCACAACAGCCAGCACTGGACGCTGGTTGTTGTGCGACCGGGGGA
ACGCTCAATCGAGCATTTCGATTCTCTTGGGGCCCGGTCTCGCCGCCACA
TCGCGGTAGTCCAAACTTGGCTCCGCGGCGAGCTGGGCCCCAAGTACGTC
GAGGAGGAGTGGCGCGTGTTGCCGTCCCTGTCCCCCCAGCAAGACAATGG
TTCAGATTGCGGGGTCTTCCTCCTCACCACGGCCAAGGCTGTGGCCATCG
GCCTCGAGCCACTGTCTTACGGCGCGCAAGACACACCGCTCTTGCGCCGT
AAGATAGTGGCCGAGCTGATGGCCGGCGGCCTGGAGGGGGAATTTGACCC
CGCCCAGCAAGACCATGTCTTGCTATGAATGTCTGGGGTTTTCTCGACTA
TGAGACCCAGCGTGGAGGACCACCCAATGCCTGACGTATGCTATATGCCC
TCAGATTCGGCGCCCCACGAGGAGGCCGTCGATAATACCGCCCATGACCC
CATGGATTGTGCTCCCGATTCCCCCGCATCTAACATCCCTCAGGAAACTG
CCAAAGCCCCCTCCGCAGAGATTCCAAAGTATCAGCTCCGATCCGTGCAT
GTTCCCGGCAATCCAAAGGCTGTGAGACTCAATGGAAAACATGAAGTCAA
GCCCTCCTTCCCCCTCCGCACCCCGCTCATCAGACCCGATCATCGTTTCT
CCCCGAATAGTCGCGCGGCCTCATTCCTCGGCGTTGATGCCCTCCAGAAG
AGCGGTCGTAATGCGCATTCATCTCATCTTTTAAGCCATCTGGGTACCAG
CAAATATCTATCTGCCGGCCTGAACCACGTCTCCTGGTCGAATAACAAAC
CTCTCAGCCTCCCTTTTGGTCCAGACAGGTCAAATGAAACCGGTTACCTT
CTTGGAGGCAAGTCTATTGGTATAGACAAGAAAACTTTTCATATGAATGT
CAATAAACATTCTGGCTTTACTACGCCTTCTCGCAAGAGATCAATGGAAG
GTGATGGCTATGAGCAAGCTCAACCCATCACTTCACCTTCTGCTAAATTC
CGTCGTGTGAGGGCTGGTAGCTTTGCACGCAGTGCTGCTACTGAACTTGA
GGCCACTGCCAACGAAGATGATTGGTACCCTGGTTCCCCCATGGACATCG
ACACTCCTGAACACAACAACGAACCAAACATGGTTACAGCCCTTGCGGCA
GTTGAATCTCATCTCGCTCTTCCTGAAACCTCTCCTAAGTCGCGTCGACT
GGACGCTTCCAAAGTCAAGCCTGTCACCGCTCTTGCGGTCTCGACCACCC
CTAGCACTCCAGAGAACCATATGATGCCTGGAGCGTGGCCCGAATCAGTG
CCGTCTCACTGGTCCACCGATGCCGCCACCGATATCGAAGATAGCCCTAT
GATTTCCGATGAAGAGATCCTATCCAACAATACGGACATGGCCGACGCTG
GAGAGCCGACTATTCCCGTGAATTCGGACGCCGAACCACAGCCTTCCTCA
CCTTGGTATGCTTACTGGGGGACGTGGCATAGCTACTTGCAGACAGTTGT
CTCCATTCCCACTGGAATTACTCAGAACTTTTCCTATGCGGCAAGGTCCG
CTGCGAATGCGGTTGGTGCTGCTAGGCGACGCGTGTGCGCACTTTGGAAT
CGCCGCGGTGGACGTCGTCTTCCTTCGCCTCCTGGATCGCCCACGCGCCT
CAACCTTCGCAACCTTTCTCCGGAACAGCAGGAGCGTGTGGATCGTGATA
GGAGAATCCGAAGCGGACAATCCAGCCCCCGTACCGACAAATCTTTCCCC
GACTTCTCCAACGTTCCTAATTTCTCCCATAACAACAACACGGCTCCTAC
AGTCGAGTCTTCTCAGATTTTGCAGGACCTTGTGTCTCAGGAGCAGATGC
CCCAGGCACTCAGTGACTCTGTATCTGTTCAGCGACGTGCTCATGAGCCA
AAGAATGTGGGAACTCGCAAACACCCTGGGATGCCGCCAGTGAAACAGCC
AGCTCGGAGATCCCCTCCACGCTCGGCTCAGCGTTCAGCTCAACGTTCAA
CTCAAGACACAGCCCAAAAGCCTCTCCGTCGGCAAGGAAGCCCGGGTATT
CGCAAGCAAAAGCACATTACGCGTGCTGAGCGCGCCGAGAACCGTGAGCG
ATCTGCTGCGTTCAGAGCCCTCTTCGTTGGGGACATCGCCGGCATGAAGA
AAGCTATGGAGGCTCAGGCCGCGCGTGACCGTCAAGCCTCCGCCGCAGGT
CGCCGTCCGGTTGAACTAAACTTGATGAGAAGCAGCTATGAACTAGACAG
AGCTCAAGACTTGAACATGTTGGCGAATGTTCAGTCTCGCTCGTTTACTG
CAGTTGATCAACTGGGTGCAACTGAAAAGGTTCTCTCATCATCAATCACT
GTTGCACCCAAGACAATTCTCAAGATAAGAGGAAGGCCCAGCATTTCTGG
GAATAGAACTAGATCTCGCCGCGCCACTCCGCGCAGGGTTCGCTTCCGCG
AGCCTGTGGTAGCCGAGTTCATTGACGACACGCGAGATTGGGGTGAGGTG
GAGGACAACCTGGCACCCCATCTCGGAGATACGCTTGATGTCAATGAGAG
AACTACCGAAACCAGTGTTGGCACGAAAGCCGAGTACACAGAAAAGGAAA
ACGTGCCGCCAGCCCTGGAGAACGAGGAAGAGAATGAGCCCATCGTTGAC
CCCTGGTCCCAACCAACCTTTGAGTTCCCGCTGGGTCGAGCAGTATCAGC
TGTCAGTCTATTTTATCCCGAGCCAAAACCCATTCCAGAGGGCAGAACCG
AGTCTGTGTACGCCGACCGTTGGAGACAGATCCAAGAAGAAGAGAGGCAG
AAAGCGCTCCCATCAC back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008234 | cysteine-type peptidase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006508 | proteolysis |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | MEROPS:MER0005204 |
| DBxref | InterPro:IPR038765 |
| DBxref | InterPro:IPR003653 |
| DBxref | PFAM:PF02902 |
| Product | hypothetical protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| An14 | supercontig | An14:1288908..1292164 - |
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