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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:162081..164244+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_22025-T1 ID=CAN33_22025-T1|Name=CAN33_22025-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2164bp|location=Sequence derived from alignment at NKJJ01000002.1:162081..164244+ (Aspergillus niger FDAARGOS_311)
ATGCGCCTCCTCCACCCCCTCATCCCAGCCTCCCTCCTCCTCACCCTCAC
CTCCGCGACCCTGCACACCTCCCAAACCAACACCACCATAACCCTGACCA
ACAACCGCCTCACAGCAAACTTCTCCAAATCCCAAGGCCGAATCACCGAC
CTCTACCTCGACAACCAAGACCTCCTAGGTCCCCAATCTGGCGACACCGG
CGTCGGCCCCTACCTCGACTGCTACTGCATCCCCTCCGGCTTCTACACGC
CGGGCTCCACCTCCCCAACCCTGCAACTCTTCACCGGCACCGACAAGTCC
GGAACCAGCTATGCAGGCGTTCTCATGGACGAGACCTACCCGCCGACGGG
CCAACATTTCCAACAATACTGGTTCCTGCGCGACGGCGAAACAGGGCTCC
ATACATTCAGCCGGTTAGCGTACTACAACGAGACGACGCCGTATTTGCGC
AATCTGCAGGAATTCCGCACCTTGTTTCGGCCCAATACGGAGCTTTGGAC
GCATTTGTCGTCGAGTGAGGTGCAGACGGCGCCGTTGCCGAGTAAGAAGG
CTGTGGAGGAGGAGGTGGTGGTGCAGGATGCGACGTGGACGTTCAATAAT
ACTCCGACTGATGAGTATTATGTGCAGTTTGCGGATTATTTTACTAAGTA
TACGTTTTCGAATGGTATGTTTTTTGTGTCTATTGTCAAGGGGATGGGGT
TGGCTGACTTGTGGTTTTGTTTACTAGCGTGGAGGGATAATTCCGTTCAT
GGCATGTATGCCGATGGGAGTACATCGAATGGGAGTACGTTTGGGGCTTG
GTTGGTTATGAATACTAAGGTATTTCGGATCTTGGAAGGTTTATCGGAGC
CGTGGCTAATGGTTTCTGTTTAGGATACTTACTATGGTGTATGTCACTGC
GTTCTCTCAATTGATTGGAGAAAATGCTGACCATTTGCCTTAGGGCCCCC
TGCACTCGGATCTCACCGTCGACGGCATCGTCTACAACTACCTGGTGTCT
AATCACCACGGCGAAGGCACTCCTAACATCACCTACGGCTTTGATCGCAC
TTTCGGCCCTCAATACTATCACTTCAACGGCGGAAAAGGCTCCACTGCGT
CTCTGCAAGAGCTGAAATCTGACGCGGAAACACTGGCAGATCCGAGCTGG
AACGTCGACTTCTACGACTCCATCGCCAAACATGTGGTCGGATACACACC
TTCCAGTCAACGCGGCAGCGTGCAAGGGAAGATCAAGCTACCCAAAGGTG
CCACGAGACCTATCGCAGTCCTGACCGTGGACGGGCAGTATTTCCAGGAC
AACTCGGTGAACTCATCATCATACCAGTATTGGGCTGAGATCGACGACTC
CGGACATTTCAGCGTGGACCATGTCAAAGAGGGCCCGTACCGACTTACTG
TATACGCCGACGGAATCTTTGGTGACTTCGTACGCGACGGCGTGCAAGTG
AAGGCCGGCAAGAAAACTACCATCCAAGAAACCTGGGAGGCTGAGTCCGC
AGGCACTGAGATCTGGAGACTAGGCACACCGGACAAGTCTTCCGGGGAGT
TTCGACATGGAGTTGCCAGGGACCCCACACACCCTCTTCACCCGCCAGAG
TACCTGATCTATTGGGGCGCATATGACTGGCAATCTGACTTCCCGGACGG
AATCAACTATACCATTGGTACCAGTGATCCAGCAACCGACCTGAACACGG
TCCACTGGTCTGTATTCGGGCCGACACCGAACGATCCGCGCGTCGAATAC
GATACCACGCACGACTGGACGATCAACTTCCCTTTGACTGAGGACGATCT
TGCAGAGCGGTCCAAGGCCACTCTCACAATTCAACTGGCGGGAGCGAAAG
CAGCATCTGGCAATACGGACGTATACAATGCATCGGAGCCATATGCCAAC
CTCGCGCTGGAGAGTTATATCAACGATCAGGCCGAGCCGTTGACCCTTCT
TATCGGGTTCAATCAGTCGAGCAGCTGTATTGTACGGTCGGCTGTGAGTT
GCTATCAGGTTCGCTCGCGCATGGAGTTCCCGGCGGACTGGCTGAAGGTC
GGCAACAATGTTTTGACCTTGCATCTCCCGTATAACGCGACGGATACGGA
GACCGCGATTTTGCCGGCGACCGTGTATGTGCAGTACGATGCGTTGAGGT
TGGAGGTTTCGTAG back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:162081..164244+ >CAN33_22025-T1 ID=CAN33_22025-T1|Name=CAN33_22025-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7476bp|location=Sequence derived from alignment at NKJJ01000002.1:162081..164244+ (Aspergillus niger FDAARGOS_311)
ATGCGCCTCCTCCACCCCCTCATCCCAGCCTCCCTCCTCCTCACCCTCAC
CTCCGCGACCCTGCACACCTCCCAAACCAACACCACCATAACCCTGACCA
ACAACCGCCTCACAGCAAACTTCTCCAAATCCCAAGGCCGAATCACCGAC
CTCTACCTCGACAACCAAGACCTCCTAGGTCCCCAATCTGGCGACACCGG
CGTCGGCCCCTACCTCGACTGCTACTGCATCCCCTCCGGCTTCTACACGC
CGGGCTCCACCTCCCCAACCCTGCAACTCTTCACCGGCACCGACAAGTCC
GGAACCAGCTATGCAGGCGTTCTCATGGACGAGACCTACCCGCCGACGGG
CCAACATTTCCAACAATACTGGTTCCTGCGCGACGGCGAAACAGGGCTCC
ATACATTCAGCCGGTTAGCGTACTACAACGAGACGACGCCGTATTTGCGC
AATCTGCAGGAATTCCGCACCTTGTTTCGGCCCAATACGGAGCTTTGGAC
GCATTTGTCGTCGAGTGAGGTGCAGACGGCGCCGTTGCCGACGTGGAGGG
ATAATTCCGTTCATGGCATGTATGCCGATGGGAGTACATCGAATGGGAGT
ACGTTTGGGGCTTGGTTGGTTATGAATACTAAGGATACTTACTATGGTGG
CCCCCTGCACTCGGATCTCACCGTCGACGGCATCGTCTACAACTACCTGG
TGTCTAATCACCACGGCGAAGGCACTCCTAACATCACCTACGGCTTTGAT
CGCACTTTCGGCCCTCAATACTATCACTTCAACGGCGGAAAAGGCTCCAC
TGCGTCTCTGCAAGAGCTGAAATCTGACGCGGAAACACTGGCAGATCCGA
GCTGGAACGTCGACTTCTACGACTCCATCGCCAAACATGTGGTCGGATAC
ACACCTTCCAGTCAACGCGGCAGCGTGCAAGGGAAGATCAAGCTACCCAA
AGGTGCCACGAGACCTATCGCAGTCCTGACCGTGGACGGGCAGTATTTCC
AGGACAACTCGGTGAACTCATCATCATACCAGTATTGGGCTGAGATCGAC
GACTCCGGACATTTCAGCGTGGACCATGTCAAAGAGGGCCCGTACCGACT
TACTGTATACGCCGACGGAATCTTTGGTGACTTCGTACGCGACGGCGTGC
AAGTGAAGGCCGGCAAGAAAACTACCATCCAAGAAACCTGGGAGGCTGAG
TCCGCAGGCACTGAGATCTGGAGACTAGGCACACCGGACAAGTCTTCCGG
GGAGTTTCGACATGGAGTTGCCAGGGACCCCACACACCCTCTTCACCCGC
CAGAGTACCTGATCTATTGGGGCGCATATGACTGGCAATCTGACTTCCCG
GACGGAATCAACTATACCATTGGTACCAGTGATCCAGCAACCGACCTGAA
CACGGTCCACTGGTCTGTATTCGGGCCGACACCGAACGATCCGCGCGTCG
AATACGATACCACGCACGACTGGACGATCAACTTCCCTTTGACTGAGGAC
GATCTTGCAGAGCGGTCCAAGGCCACTCTCACAATTCAACTGGCGGGAGC
GAAAGCAGCATCTGGCAATACGGACGTATACAATGCATCGGAGCCATATG
CCAACCTCGCGCTGGAGAGTTATATCAACGATCAGGCCGAGCCGTTGACC
CTTCTTATCGGGTTCAATCAGTCGAGCAGCTGTATTGTACGGTCGGCTGT
GAGTTGCTATCAGGTTCGCTCGCGCATGGAGTTCCCGGCGGACTGGCTGA
AGGTCGGCAACAATGTTTTGACCTTGCATCTCCCGTATAACGCGACGGAT
ACGGAGACCGCGATTTTGCCGGCGACCGTGTATGTGCAGTACGATGCGTT
GAGGTTGGAGGTTTCGTAGATGCGCCTCCTCCACCCCCTCATCCCAGCCT
CCCTCCTCCTCACCCTCACCTCCGCGACCCTGCACACCTCCCAAACCAAC
ACCACCATAACCCTGACCAACAACCGCCTCACAGCAAACTTCTCCAAATC
CCAAGGCCGAATCACCGACCTCTACCTCGACAACCAAGACCTCCTAGGTC
CCCAATCTGGCGACACCGGCGTCGGCCCCTACCTCGACTGCTACTGCATC
CCCTCCGGCTTCTACACGCCGGGCTCCACCTCCCCAACCCTGCAACTCTT
CACCGGCACCGACAAGTCCGGAACCAGCTATGCAGGCGTTCTCATGGACG
AGACCTACCCGCCGACGGGCCAACATTTCCAACAATACTGGTTCCTGCGC
GACGGCGAAACAGGGCTCCATACATTCAGCCGGTTAGCGTACTACAACGA
GACGACGCCGTATTTGCGCAATCTGCAGGAATTCCGCACCTTGTTTCGGC
CCAATACGGAGCTTTGGACGCATTTGTCGTCGAGTGAGGTGCAGACGGCG
CCGTTGCCGACGTGGAGGGATAATTCCGTTCATGGCATGTATGCCGATGG
GAGTACATCGAATGGGAGTACGTTTGGGGCTTGGTTGGTTATGAATACTA
AGGATACTTACTATGGTGGCCCCCTGCACTCGGATCTCACCGTCGACGGC
ATCGTCTACAACTACCTGGTGTCTAATCACCACGGCGAAGGCACTCCTAA
CATCACCTACGGCTTTGATCGCACTTTCGGCCCTCAATACTATCACTTCA
ACGGCGGAAAAGGCTCCACTGCGTCTCTGCAAGAGCTGAAATCTGACGCG
GAAACACTGGCAGATCCGAGCTGGAACGTCGACTTCTACGACTCCATCGC
CAAACATGTGGTCGGATACACACCTTCCAGTCAACGCGGCAGCGTGCAAG
GGAAGATCAAGCTACCCAAAGGTGCCACGAGACCTATCGCAGTCCTGACC
GTGGACGGGCAGTATTTCCAGGACAACTCGGTGAACTCATCATCATACCA
GTATTGGGCTGAGATCGACGACTCCGGACATTTCAGCGTGGACCATGTCA
AAGAGGGCCCGTACCGACTTACTGTATACGCCGACGGAATCTTTGGTGAC
TTCGTACGCGACGGCGTGCAAGTGAAGGCCGGCAAGAAAACTACCATCCA
AGAAACCTGGGAGGCTGAGTCCGCAGGCACTGAGATCTGGAGACTAGGCA
CACCGGACAAGTCTTCCGGGGAGTTTCGACATGGAGTTGCCAGGGACCCC
ACACACCCTCTTCACCCGCCAGAGTACCTGATCTATTGGGGCGCATATGA
CTGGCAATCTGACTTCCCGGACGGAATCAACTATACCATTGGTACCAGTG
ATCCAGCAACCGACCTGAACACGGTCCACTGGTCTGTATTCGGGCCGACA
CCGAACGATCCGCGCGTCGAATACGATACCACGCACGACTGGACGATCAA
CTTCCCTTTGACTGAGGACGATCTTGCAGAGCGGTCCAAGGCCACTCTCA
CAATTCAACTGGCGGGAGCGAAAGCAGCATCTGGCAATACGGACGTATAC
AATGCATCGGAGCCATATGCCAACCTCGCGCTGGAGAGTTATATCAACGA
TCAGGCCGAGCCGTTGACCCTTCTTATCGGGTTCAATCAGTCGAGCAGCT
GTATTGTACGGTCGGCTGTGAGTTGCTATCAGGTTCGCTCGCGCATGGAG
TTCCCGGCGGACTGGCTGAAGGTCGGCAACAATGTTTTGACCTTGCATCT
CCCGTATAACGCGACGGATACGGAGACCGCGATTTTGCCGGCGACCGTGT
ATGTGCAGTACGATGCGTTGAGGTTGGAGGTTTCGTAGATGCGCCTCCTC
CACCCCCTCATCCCAGCCTCCCTCCTCCTCACCCTCACCTCCGCGACCCT
GCACACCTCCCAAACCAACACCACCATAACCCTGACCAACAACCGCCTCA
CAGCAAACTTCTCCAAATCCCAAGGCCGAATCACCGACCTCTACCTCGAC
AACCAAGACCTCCTAGGTCCCCAATCTGGCGACACCGGCGTCGGCCCCTA
CCTCGACTGCTACTGCATCCCCTCCGGCTTCTACACGCCGGGCTCCACCT
CCCCAACCCTGCAACTCTTCACCGGCACCGACAAGTCCGGAACCAGCTAT
GCAGGCGTTCTCATGGACGAGACCTACCCGCCGACGGGCCAACATTTCCA
ACAATACTGGTTCCTGCGCGACGGCGAAACAGGGCTCCATACATTCAGCC
GGTTAGCGTACTACAACGAGACGACGCCGTATTTGCGCAATCTGCAGGAA
TTCCGCACCTTGTTTCGGCCCAATACGGAGCTTTGGACGCATTTGTCGTC
GAGTGAGGTGCAGACGGCGCCGTTGCCGACGTGGAGGGATAATTCCGTTC
ATGGCATGTATGCCGATGGGAGTACATCGAATGGGAGTACGTTTGGGGCT
TGGTTGGTTATGAATACTAAGGATACTTACTATGGTGGCCCCCTGCACTC
GGATCTCACCGTCGACGGCATCGTCTACAACTACCTGGTGTCTAATCACC
ACGGCGAAGGCACTCCTAACATCACCTACGGCTTTGATCGCACTTTCGGC
CCTCAATACTATCACTTCAACGGCGGAAAAGGCTCCACTGCGTCTCTGCA
AGAGCTGAAATCTGACGCGGAAACACTGGCAGATCCGAGCTGGAACGTCG
ACTTCTACGACTCCATCGCCAAACATGTGGTCGGATACACACCTTCCAGT
CAACGCGGCAGCGTGCAAGGGAAGATCAAGCTACCCAAAGGTGCCACGAG
ACCTATCGCAGTCCTGACCGTGGACGGGCAGTATTTCCAGGACAACTCGG
TGAACTCATCATCATACCAGTATTGGGCTGAGATCGACGACTCCGGACAT
TTCAGCGTGGACCATGTCAAAGAGGGCCCGTACCGACTTACTGTATACGC
CGACGGAATCTTTGGTGACTTCGTACGCGACGGCGTGCAAGTGAAGGCCG
GCAAGAAAACTACCATCCAAGAAACCTGGGAGGCTGAGTCCGCAGGCACT
GAGATCTGGAGACTAGGCACACCGGACAAGTCTTCCGGGGAGTTTCGACA
TGGAGTTGCCAGGGACCCCACACACCCTCTTCACCCGCCAGAGTACCTGA
TCTATTGGGGCGCATATGACTGGCAATCTGACTTCCCGGACGGAATCAAC
TATACCATTGGTACCAGTGATCCAGCAACCGACCTGAACACGGTCCACTG
GTCTGTATTCGGGCCGACACCGAACGATCCGCGCGTCGAATACGATACCA
CGCACGACTGGACGATCAACTTCCCTTTGACTGAGGACGATCTTGCAGAG
CGGTCCAAGGCCACTCTCACAATTCAACTGGCGGGAGCGAAAGCAGCATC
TGGCAATACGGACGTATACAATGCATCGGAGCCATATGCCAACCTCGCGC
TGGAGAGTTATATCAACGATCAGGCCGAGCCGTTGACCCTTCTTATCGGG
TTCAATCAGTCGAGCAGCTGTATTGTACGGTCGGCTGTGAGTTGCTATCA
GGTTCGCTCGCGCATGGAGTTCCCGGCGGACTGGCTGAAGGTCGGCAACA
ATGTTTTGACCTTGCATCTCCCGTATAACGCGACGGATACGGAGACCGCG
ATTTTGCCGGCGACCGTGTATGTGCAGTACGATGCGTTGAGGTTGGAGGT
TTCGTAGATGCGCCTCCTCCACCCCCTCATCCCAGCCTCCCTCCTCCTCA
CCCTCACCTCCGCGACCCTGCACACCTCCCAAACCAACACCACCATAACC
CTGACCAACAACCGCCTCACAGCAAACTTCTCCAAATCCCAAGGCCGAAT
CACCGACCTCTACCTCGACAACCAAGACCTCCTAGGTCCCCAATCTGGCG
ACACCGGCGTCGGCCCCTACCTCGACTGCTACTGCATCCCCTCCGGCTTC
TACACGCCGGGCTCCACCTCCCCAACCCTGCAACTCTTCACCGGCACCGA
CAAGTCCGGAACCAGCTATGCAGGCGTTCTCATGGACGAGACCTACCCGC
CGACGGGCCAACATTTCCAACAATACTGGTTCCTGCGCGACGGCGAAACA
GGGCTCCATACATTCAGCCGGTTAGCGTACTACAACGAGACGACGCCGTA
TTTGCGCAATCTGCAGGAATTCCGCACCTTGTTTCGGCCCAATACGGAGC
TTTGGACGCATTTGTCGTCGAGTGAGGTGCAGACGGCGCCGTTGCCGACG
TGGAGGGATAATTCCGTTCATGGCATGTATGCCGATGGGAGTACATCGAA
TGGGAGTACGTTTGGGGCTTGGTTGGTTATGAATACTAAGGATACTTACT
ATGGTGGCCCCCTGCACTCGGATCTCACCGTCGACGGCATCGTCTACAAC
TACCTGGTGTCTAATCACCACGGCGAAGGCACTCCTAACATCACCTACGG
CTTTGATCGCACTTTCGGCCCTCAATACTATCACTTCAACGGCGGAAAAG
GCTCCACTGCGTCTCTGCAAGAGCTGAAATCTGACGCGGAAACACTGGCA
GATCCGAGCTGGAACGTCGACTTCTACGACTCCATCGCCAAACATGTGGT
CGGATACACACCTTCCAGTCAACGCGGCAGCGTGCAAGGGAAGATCAAGC
TACCCAAAGGTGCCACGAGACCTATCGCAGTCCTGACCGTGGACGGGCAG
TATTTCCAGGACAACTCGGTGAACTCATCATCATACCAGTATTGGGCTGA
GATCGACGACTCCGGACATTTCAGCGTGGACCATGTCAAAGAGGGCCCGT
ACCGACTTACTGTATACGCCGACGGAATCTTTGGTGACTTCGTACGCGAC
GGCGTGCAAGTGAAGGCCGGCAAGAAAACTACCATCCAAGAAACCTGGGA
GGCTGAGTCCGCAGGCACTGAGATCTGGAGACTAGGCACACCGGACAAGT
CTTCCGGGGAGTTTCGACATGGAGTTGCCAGGGACCCCACACACCCTCTT
CACCCGCCAGAGTACCTGATCTATTGGGGCGCATATGACTGGCAATCTGA
CTTCCCGGACGGAATCAACTATACCATTGGTACCAGTGATCCAGCAACCG
ACCTGAACACGGTCCACTGGTCTGTATTCGGGCCGACACCGAACGATCCG
CGCGTCGAATACGATACCACGCACGACTGGACGATCAACTTCCCTTTGAC
TGAGGACGATCTTGCAGAGCGGTCCAAGGCCACTCTCACAATTCAACTGG
CGGGAGCGAAAGCAGCATCTGGCAATACGGACGTATACAATGCATCGGAG
CCATATGCCAACCTCGCGCTGGAGAGTTATATCAACGATCAGGCCGAGCC
GTTGACCCTTCTTATCGGGTTCAATCAGTCGAGCAGCTGTATTGTACGGT
CGGCTGTGAGTTGCTATCAGGTTCGCTCGCGCATGGAGTTCCCGGCGGAC
TGGCTGAAGGTCGGCAACAATGTTTTGACCTTGCATCTCCCGTATAACGC
GACGGATACGGAGACCGCGATTTTGCCGGCGACCGTGTATGTGCAGTACG
ATGCGTTGAGGTTGGAGGTTTCGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0030246 | carbohydrate binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-19) |
| DBxref | InterPro:IPR011013 |
| DBxref | InterPro:IPR008979 |
| DBxref | InterPro:IPR013784 |
| DBxref | InterPro:IPR029413 |
| DBxref | InterPro:IPR029411 |
| DBxref | PFAM:PF14686 |
| DBxref | PFAM:PF14683 |
| 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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:162081..164244 + |
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