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Sequences
The following sequences are available for this feature:
mRNA from alignment at An09:1469738..1471869+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_006378-T1 ID=CBS51388_006378-T1|Name=CBS51388_006378-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2132bp|location=Sequence derived from alignment at An09:1469738..1471869+ (Aspergillus niger CBS 513.88)
ATGTCGACGGATACCGCTACTGCCACTAACCCTGCCCCTGTGTCTTCGCC
ACACTCGTCTGGTTCGTCCTTGTCGTCCTTGTCATCTCCTCCGTCGGATA
CGAATACGTATCCTGCATCTATGTCTATGTCTGTGTCGCCGGCGAGGAAA
CGCTCGATAGGGGATGTAGATGGGCATATTGCTGCTGCGAAAGGGGGGGA
TGATACGAATGCGAATACCACTACGGAGATGAAGATTGATGGAGATACTC
GTGCCGATACGGATGATAACAAGGAGAATCAGGATACACAAGTGAAATTA
TGTGATCTTGGGGATGAGAAGAAGACTTCGGTTGTTGGAGACTCGGCTGC
CACTACGACTGCTGCTCCGGCTGCGAAGAAGAGAAAGTTGTCGCCTGCCA
GTAAAGAGGCGAAGCAGCAGGAGAAGGAGGCGAGAGAGCGGCAGAAACTA
GAGGAGAAGGCTAAGAAGGAGGAAGAAAAGGCTAAGAGGGAAGAAGAGAA
GGCTAAGAAAGAGGAAGAAAAGAGGAAACGGGAGGCTGAGAAAGAGGAGG
AGAAGCGGGTGAAAGAAGAGGAGAAGCGGGTGAAAGAAGAGGAGAAGCGA
GCTAAGGAGGAGGAGAAGAAGAAGCGCGAAGCGGAAAAGGAAGAGGAGCG
CAAGAAGAAGGAAGAGAAACGGAAGGTTAAAGAGGAGGAAAAGGCTGCTA
AGGAGGAAGAGAAGCGGAAAAAAGAGGAGGAGAAGCTGAAGAAAGAAAGA
GTGAGTTGGAACTCATCCCGGGCTGAATTGCAAGTTTTGGGAATCTAACA
CGCAACAGGCGCAAACGAAGCTGAACTCCTTTTTCGCGAAACCGAAAACC
CCGGCACAACCATCATCATTGAACACGACTCTCTCACCTAGCAAACCGAC
TGGCGCTGGCGCTTCGAATGACCTTTCTCATGACTCTGGATCGACTGTAT
CTGACTACCAGCGCGAGTTTCCGGACTTCTTCCTCCAGTCACATACCACA
CTTGCGCCACCGCACAGGTTCCAGCGCGACAACGAAGCTCTGCAGCATAC
GCGGGAGAAAGTTGATGCCTACCTGAAAAGTGCCAAGGATGGCAAGCATG
AGCCTTTAATATTTCGTCCTTCCGAGCTCTTCCAGCTTATGCCATACCAG
CGACGGCGTGGACGATTGCCCGCTTCGGTCAACAGATCCTTTTACAGATG
CAGAATCTTGCAGATCAGTCAGAGACCTCCGAAGCTGCCCAGAGGGCTCG
CGATCTTCTGAGGCAGGTGAGAATGAAATCGCTGAAATTCAGCGAGGATG
TCCGGCCTCCATACCAGGGAACCTATAGCAAGAGCCTGCCGGAGTCATCC
GTCCGCCGGTTGATGCGCAATCCTTTTCGTCGCGGGCTACCGGAGACGAA
TTATGACTACGACTCGGAAGCTGAGTGGGAAGAGCCCGAGGAAGGCGAGG
ACCTAGATTCAGAGGAAGAAGAGGAAGGGAGTGAAGATGGAGAGGATGAC
ATGGATGGCTTCCTGGATGATGAGGATGATCACCCGATTGACGGCAAGAG
ACGTCACATCGTCGGGGATCTAGAACCCGTCAGCACTGGTATACGATGGC
AGGAACATGGCGTGGACCCGGAGCTGCAGGCGTACAAAATGGAGACCATT
TCCGACTCGGTGACTTTCCCTATTGACCCGTTCTCCACTGCCTACTGGCA
GAAACCGAAGGCGGCCGCGGAGCCAGCGCAGGCGGCTGGGCTGGGGCGCT
CGACACTGCACGCTTTCATGGGAGGACATACATCGTCGCCATCATCACAC
AAACCGACAGGGACTGGGCCGGGAGCGGACGGGGGCACCCTGGCCGTTCT
GACAGCGGGGAGGACAAAGCGAACGTTGCCGCCGGAGCAGCTGGAAGAGT
TCAAGCAGGTGGTGAATGGCAGTGATCTGACCAAGATGGGGCTAATTGAA
ATCTTGAAGAAACGGTAAGACGTGGGCCCACAAGGGATGCTTGTTGATCG
GAAGGCTAATCATCAGGGTCGCGCCGCCATAGGTTCCCCAAGGTGTCCAA
GGACAGTCTGAAAGACACGCTGAACAGCGTGGCCACGCGGGTGGGACAGA
AAGAGGCTGACAAAAAATGGGTCTGCAACTAG back to topCoding sequence (CDS) from alignment at An09:1469738..1471869+ >CBS51388_006378-T1 ID=CBS51388_006378-T1|Name=CBS51388_006378-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=7944bp|location=Sequence derived from alignment at An09:1469738..1471869+ (Aspergillus niger CBS 513.88)
ATGTCGACGGATACCGCTACTGCCACTAACCCTGCCCCTGTGTCTTCGCC
ACACTCGTCTGGTTCGTCCTTGTCGTCCTTGTCATCTCCTCCGTCGGATA
CGAATACGTATCCTGCATCTATGTCTATGTCTGTGTCGCCGGCGAGGAAA
CGCTCGATAGGGGATGTAGATGGGCATATTGCTGCTGCGAAAGGGGGGGA
TGATACGAATGCGAATACCACTACGGAGATGAAGATTGATGGAGATACTC
GTGCCGATACGGATGATAACAAGGAGAATCAGGATACACAAGTGAAATTA
TGTGATCTTGGGGATGAGAAGAAGACTTCGGTTGTTGGAGACTCGGCTGC
CACTACGACTGCTGCTCCGGCTGCGAAGAAGAGAAAGTTGTCGCCTGCCA
GTAAAGAGGCGAAGCAGCAGGAGAAGGAGGCGAGAGAGCGGCAGAAACTA
GAGGAGAAGGCTAAGAAGGAGGAAGAAAAGGCTAAGAGGGAAGAAGAGAA
GGCTAAGAAAGAGGAAGAAAAGAGGAAACGGGAGGCTGAGAAAGAGGAGG
AGAAGCGGGTGAAAGAAGAGGAGAAGCGGGTGAAAGAAGAGGAGAAGCGA
GCTAAGGAGGAGGAGAAGAAGAAGCGCGAAGCGGAAAAGGAAGAGGAGCG
CAAGAAGAAGGAAGAGAAACGGAAGGTTAAAGAGGAGGAAAAGGCTGCTA
AGGAGGAAGAGAAGCGGAAAAAAGAGGAGGAGAAGCTGAAGAAAGAAAGA
GCGCAAACGAAGCTGAACTCCTTTTTCGCGAAACCGAAAACCCCGGCACA
ACCATCATCATTGAACACGACTCTCTCACCTAGCAAACCGACTGGCGCTG
GCGCTTCGAATGACCTTTCTCATGACTCTGGATCGACTGTATCTGACTAC
CAGCGCGAGTTTCCGGACTTCTTCCTCCAGTCACATACCACACTTGCGCC
ACCGCACAGGTTCCAGCGCGACAACGAAGCTCTGCAGCATACGCGGGAGA
AAGTTGATGCCTACCTGAAAAGTGCCAAGGATGGCAAGCATGAGCCTTTA
ATATTTCCTTATGCCATACCAGCGACGGCGTGGACGATTGCCCGCTTCGG
TCAACAGATCCTTTTACAGATGCAGAATCTTGCAGATCAGTCAGAGACCT
CCGAAGCTGCCCAGAGGGCTCGCGATCTTCTGAGGCAGGTGAGAATGAAA
TCGCTGAAATTCAGCGAGGATGTCCGGCCTCCATACCAGGGAACCTATAG
CAAGAGCCTGCCGGAGTCATCCGTCCGCCGGTTGATGCGCAATCCTTTTC
GTCGCGGGCTACCGGAGACGAATTATGACTACGACTCGGAAGCTGAGTGG
GAAGAGCCCGAGGAAGGCGAGGACCTAGATTCAGAGGAAGAAGAGGAAGG
GAGTGAAGATGGAGAGGATGACATGGATGGCTTCCTGGATGATGAGGATG
ATCACCCGATTGACGGCAAGAGACGTCACATCGTCGGGGATCTAGAACCC
GTCAGCACTGGTATACGATGGCAGGAACATGGCGTGGACCCGGAGCTGCA
GGCGTACAAAATGGAGACCATTTCCGACTCGGTGACTTTCCCTATTGACC
CGTTCTCCACTGCCTACTGGCAGAAACCGAAGGCGGCCGCGGAGCCAGCG
CAGGCGGCTGGGCTGGGGCGCTCGACACTGCACGCTTTCATGGGAGGACA
TACATCGTCGCCATCATCACACAAACCGACAGGGACTGGGCCGGGAGCGG
ACGGGGGCACCCTGGCCGTTCTGACAGCGGGGAGGACAAAGCGAACGTTG
CCGCCGGAGCAGCTGGAAGAGTTCAAGCAGGTGGTGAATGGCAGTGATCT
GACCAAGATGGGGCTAATTGAAATCTTGAAGAAACGGTTCCCCAAGGTGT
CCAAGGACAGTCTGAAAGACACGCTGAACAGCGTGGCCACGCGGGTGGGA
CAGAAAGAGGCTGACAAAAAATGGGTCTGCAACTAGATGTCGACGGATAC
CGCTACTGCCACTAACCCTGCCCCTGTGTCTTCGCCACACTCGTCTGGTT
CGTCCTTGTCGTCCTTGTCATCTCCTCCGTCGGATACGAATACGTATCCT
GCATCTATGTCTATGTCTGTGTCGCCGGCGAGGAAACGCTCGATAGGGGA
TGTAGATGGGCATATTGCTGCTGCGAAAGGGGGGGATGATACGAATGCGA
ATACCACTACGGAGATGAAGATTGATGGAGATACTCGTGCCGATACGGAT
GATAACAAGGAGAATCAGGATACACAAGTGAAATTATGTGATCTTGGGGA
TGAGAAGAAGACTTCGGTTGTTGGAGACTCGGCTGCCACTACGACTGCTG
CTCCGGCTGCGAAGAAGAGAAAGTTGTCGCCTGCCAGTAAAGAGGCGAAG
CAGCAGGAGAAGGAGGCGAGAGAGCGGCAGAAACTAGAGGAGAAGGCTAA
GAAGGAGGAAGAAAAGGCTAAGAGGGAAGAAGAGAAGGCTAAGAAAGAGG
AAGAAAAGAGGAAACGGGAGGCTGAGAAAGAGGAGGAGAAGCGGGTGAAA
GAAGAGGAGAAGCGGGTGAAAGAAGAGGAGAAGCGAGCTAAGGAGGAGGA
GAAGAAGAAGCGCGAAGCGGAAAAGGAAGAGGAGCGCAAGAAGAAGGAAG
AGAAACGGAAGGTTAAAGAGGAGGAAAAGGCTGCTAAGGAGGAAGAGAAG
CGGAAAAAAGAGGAGGAGAAGCTGAAGAAAGAAAGAGCGCAAACGAAGCT
GAACTCCTTTTTCGCGAAACCGAAAACCCCGGCACAACCATCATCATTGA
ACACGACTCTCTCACCTAGCAAACCGACTGGCGCTGGCGCTTCGAATGAC
CTTTCTCATGACTCTGGATCGACTGTATCTGACTACCAGCGCGAGTTTCC
GGACTTCTTCCTCCAGTCACATACCACACTTGCGCCACCGCACAGGTTCC
AGCGCGACAACGAAGCTCTGCAGCATACGCGGGAGAAAGTTGATGCCTAC
CTGAAAAGTGCCAAGGATGGCAAGCATGAGCCTTTAATATTTCCTTATGC
CATACCAGCGACGGCGTGGACGATTGCCCGCTTCGGTCAACAGATCCTTT
TACAGATGCAGAATCTTGCAGATCAGTCAGAGACCTCCGAAGCTGCCCAG
AGGGCTCGCGATCTTCTGAGGCAGGTGAGAATGAAATCGCTGAAATTCAG
CGAGGATGTCCGGCCTCCATACCAGGGAACCTATAGCAAGAGCCTGCCGG
AGTCATCCGTCCGCCGGTTGATGCGCAATCCTTTTCGTCGCGGGCTACCG
GAGACGAATTATGACTACGACTCGGAAGCTGAGTGGGAAGAGCCCGAGGA
AGGCGAGGACCTAGATTCAGAGGAAGAAGAGGAAGGGAGTGAAGATGGAG
AGGATGACATGGATGGCTTCCTGGATGATGAGGATGATCACCCGATTGAC
GGCAAGAGACGTCACATCGTCGGGGATCTAGAACCCGTCAGCACTGGTAT
ACGATGGCAGGAACATGGCGTGGACCCGGAGCTGCAGGCGTACAAAATGG
AGACCATTTCCGACTCGGTGACTTTCCCTATTGACCCGTTCTCCACTGCC
TACTGGCAGAAACCGAAGGCGGCCGCGGAGCCAGCGCAGGCGGCTGGGCT
GGGGCGCTCGACACTGCACGCTTTCATGGGAGGACATACATCGTCGCCAT
CATCACACAAACCGACAGGGACTGGGCCGGGAGCGGACGGGGGCACCCTG
GCCGTTCTGACAGCGGGGAGGACAAAGCGAACGTTGCCGCCGGAGCAGCT
GGAAGAGTTCAAGCAGGTGGTGAATGGCAGTGATCTGACCAAGATGGGGC
TAATTGAAATCTTGAAGAAACGGTTCCCCAAGGTGTCCAAGGACAGTCTG
AAAGACACGCTGAACAGCGTGGCCACGCGGGTGGGACAGAAAGAGGCTGA
CAAAAAATGGGTCTGCAACTAGATGTCGACGGATACCGCTACTGCCACTA
ACCCTGCCCCTGTGTCTTCGCCACACTCGTCTGGTTCGTCCTTGTCGTCC
TTGTCATCTCCTCCGTCGGATACGAATACGTATCCTGCATCTATGTCTAT
GTCTGTGTCGCCGGCGAGGAAACGCTCGATAGGGGATGTAGATGGGCATA
TTGCTGCTGCGAAAGGGGGGGATGATACGAATGCGAATACCACTACGGAG
ATGAAGATTGATGGAGATACTCGTGCCGATACGGATGATAACAAGGAGAA
TCAGGATACACAAGTGAAATTATGTGATCTTGGGGATGAGAAGAAGACTT
CGGTTGTTGGAGACTCGGCTGCCACTACGACTGCTGCTCCGGCTGCGAAG
AAGAGAAAGTTGTCGCCTGCCAGTAAAGAGGCGAAGCAGCAGGAGAAGGA
GGCGAGAGAGCGGCAGAAACTAGAGGAGAAGGCTAAGAAGGAGGAAGAAA
AGGCTAAGAGGGAAGAAGAGAAGGCTAAGAAAGAGGAAGAAAAGAGGAAA
CGGGAGGCTGAGAAAGAGGAGGAGAAGCGGGTGAAAGAAGAGGAGAAGCG
GGTGAAAGAAGAGGAGAAGCGAGCTAAGGAGGAGGAGAAGAAGAAGCGCG
AAGCGGAAAAGGAAGAGGAGCGCAAGAAGAAGGAAGAGAAACGGAAGGTT
AAAGAGGAGGAAAAGGCTGCTAAGGAGGAAGAGAAGCGGAAAAAAGAGGA
GGAGAAGCTGAAGAAAGAAAGAGCGCAAACGAAGCTGAACTCCTTTTTCG
CGAAACCGAAAACCCCGGCACAACCATCATCATTGAACACGACTCTCTCA
CCTAGCAAACCGACTGGCGCTGGCGCTTCGAATGACCTTTCTCATGACTC
TGGATCGACTGTATCTGACTACCAGCGCGAGTTTCCGGACTTCTTCCTCC
AGTCACATACCACACTTGCGCCACCGCACAGGTTCCAGCGCGACAACGAA
GCTCTGCAGCATACGCGGGAGAAAGTTGATGCCTACCTGAAAAGTGCCAA
GGATGGCAAGCATGAGCCTTTAATATTTCCTTATGCCATACCAGCGACGG
CGTGGACGATTGCCCGCTTCGGTCAACAGATCCTTTTACAGATGCAGAAT
CTTGCAGATCAGTCAGAGACCTCCGAAGCTGCCCAGAGGGCTCGCGATCT
TCTGAGGCAGGTGAGAATGAAATCGCTGAAATTCAGCGAGGATGTCCGGC
CTCCATACCAGGGAACCTATAGCAAGAGCCTGCCGGAGTCATCCGTCCGC
CGGTTGATGCGCAATCCTTTTCGTCGCGGGCTACCGGAGACGAATTATGA
CTACGACTCGGAAGCTGAGTGGGAAGAGCCCGAGGAAGGCGAGGACCTAG
ATTCAGAGGAAGAAGAGGAAGGGAGTGAAGATGGAGAGGATGACATGGAT
GGCTTCCTGGATGATGAGGATGATCACCCGATTGACGGCAAGAGACGTCA
CATCGTCGGGGATCTAGAACCCGTCAGCACTGGTATACGATGGCAGGAAC
ATGGCGTGGACCCGGAGCTGCAGGCGTACAAAATGGAGACCATTTCCGAC
TCGGTGACTTTCCCTATTGACCCGTTCTCCACTGCCTACTGGCAGAAACC
GAAGGCGGCCGCGGAGCCAGCGCAGGCGGCTGGGCTGGGGCGCTCGACAC
TGCACGCTTTCATGGGAGGACATACATCGTCGCCATCATCACACAAACCG
ACAGGGACTGGGCCGGGAGCGGACGGGGGCACCCTGGCCGTTCTGACAGC
GGGGAGGACAAAGCGAACGTTGCCGCCGGAGCAGCTGGAAGAGTTCAAGC
AGGTGGTGAATGGCAGTGATCTGACCAAGATGGGGCTAATTGAAATCTTG
AAGAAACGGTTCCCCAAGGTGTCCAAGGACAGTCTGAAAGACACGCTGAA
CAGCGTGGCCACGCGGGTGGGACAGAAAGAGGCTGACAAAAAATGGGTCT
GCAACTAGATGTCGACGGATACCGCTACTGCCACTAACCCTGCCCCTGTG
TCTTCGCCACACTCGTCTGGTTCGTCCTTGTCGTCCTTGTCATCTCCTCC
GTCGGATACGAATACGTATCCTGCATCTATGTCTATGTCTGTGTCGCCGG
CGAGGAAACGCTCGATAGGGGATGTAGATGGGCATATTGCTGCTGCGAAA
GGGGGGGATGATACGAATGCGAATACCACTACGGAGATGAAGATTGATGG
AGATACTCGTGCCGATACGGATGATAACAAGGAGAATCAGGATACACAAG
TGAAATTATGTGATCTTGGGGATGAGAAGAAGACTTCGGTTGTTGGAGAC
TCGGCTGCCACTACGACTGCTGCTCCGGCTGCGAAGAAGAGAAAGTTGTC
GCCTGCCAGTAAAGAGGCGAAGCAGCAGGAGAAGGAGGCGAGAGAGCGGC
AGAAACTAGAGGAGAAGGCTAAGAAGGAGGAAGAAAAGGCTAAGAGGGAA
GAAGAGAAGGCTAAGAAAGAGGAAGAAAAGAGGAAACGGGAGGCTGAGAA
AGAGGAGGAGAAGCGGGTGAAAGAAGAGGAGAAGCGGGTGAAAGAAGAGG
AGAAGCGAGCTAAGGAGGAGGAGAAGAAGAAGCGCGAAGCGGAAAAGGAA
GAGGAGCGCAAGAAGAAGGAAGAGAAACGGAAGGTTAAAGAGGAGGAAAA
GGCTGCTAAGGAGGAAGAGAAGCGGAAAAAAGAGGAGGAGAAGCTGAAGA
AAGAAAGAGCGCAAACGAAGCTGAACTCCTTTTTCGCGAAACCGAAAACC
CCGGCACAACCATCATCATTGAACACGACTCTCTCACCTAGCAAACCGAC
TGGCGCTGGCGCTTCGAATGACCTTTCTCATGACTCTGGATCGACTGTAT
CTGACTACCAGCGCGAGTTTCCGGACTTCTTCCTCCAGTCACATACCACA
CTTGCGCCACCGCACAGGTTCCAGCGCGACAACGAAGCTCTGCAGCATAC
GCGGGAGAAAGTTGATGCCTACCTGAAAAGTGCCAAGGATGGCAAGCATG
AGCCTTTAATATTTCCTTATGCCATACCAGCGACGGCGTGGACGATTGCC
CGCTTCGGTCAACAGATCCTTTTACAGATGCAGAATCTTGCAGATCAGTC
AGAGACCTCCGAAGCTGCCCAGAGGGCTCGCGATCTTCTGAGGCAGGTGA
GAATGAAATCGCTGAAATTCAGCGAGGATGTCCGGCCTCCATACCAGGGA
ACCTATAGCAAGAGCCTGCCGGAGTCATCCGTCCGCCGGTTGATGCGCAA
TCCTTTTCGTCGCGGGCTACCGGAGACGAATTATGACTACGACTCGGAAG
CTGAGTGGGAAGAGCCCGAGGAAGGCGAGGACCTAGATTCAGAGGAAGAA
GAGGAAGGGAGTGAAGATGGAGAGGATGACATGGATGGCTTCCTGGATGA
TGAGGATGATCACCCGATTGACGGCAAGAGACGTCACATCGTCGGGGATC
TAGAACCCGTCAGCACTGGTATACGATGGCAGGAACATGGCGTGGACCCG
GAGCTGCAGGCGTACAAAATGGAGACCATTTCCGACTCGGTGACTTTCCC
TATTGACCCGTTCTCCACTGCCTACTGGCAGAAACCGAAGGCGGCCGCGG
AGCCAGCGCAGGCGGCTGGGCTGGGGCGCTCGACACTGCACGCTTTCATG
GGAGGACATACATCGTCGCCATCATCACACAAACCGACAGGGACTGGGCC
GGGAGCGGACGGGGGCACCCTGGCCGTTCTGACAGCGGGGAGGACAAAGC
GAACGTTGCCGCCGGAGCAGCTGGAAGAGTTCAAGCAGGTGGTGAATGGC
AGTGATCTGACCAAGATGGGGCTAATTGAAATCTTGAAGAAACGGTTCCC
CAAGGTGTCCAAGGACAGTCTGAAAGACACGCTGAACAGCGTGGCCACGC
GGGTGGGACAGAAAGAGGCTGACAAAAAATGGGTCTGCAACTAG back to top
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 |
|---|
| DBxref | InterPro:IPR022043 |
| DBxref | PFAM:PF12253 |
| 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 |
|---|
| An09 | supercontig | An09:1469738..1471869 + |
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