|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at An09:703518..705667+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_006117-T1 ID=CBS51388_006117-T1|Name=CBS51388_006117-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2150bp|location=Sequence derived from alignment at An09:703518..705667+ (Aspergillus niger CBS 513.88)
ATGTTCAGTTTCCTCCCCTGCTTCAAAACTCGCCGACAACGCACCAAATC
CCAAACTCAATCCCAAAAGCAAATAGAGGGTTAGCCAAACACCCCCAACT
ACCCATACCAAGTCAATTCAATTCAAATCATAGTAACAAATTCAACCTCC
CCAATAGAAAAAGCCAACGCCATAGAATCCCTCCCCTCATGGCACTCCCC
CACGGAAAACACCCTCCTATTTCAAGCCTTCGAATGGCACGTCCCCGCAA
CCCCCAACACCGCGGACAAGCGCAGCCACTGGCGCCGGCTCCAGCATGCC
TTACCAGCTATCCACTCCCTCGGTGTAACCAGCATCTGGATACCGCCTGG
ATGCAAGGGCATGGACACAAATGGAAATGGGTATGATATCTACGATTTAT
ATGATCTAGGCGAATTCGACCAGAAAGGAGCAGTGCGAACGAAATGGGGC
ACGCGCGGAGAATTAGAGGATCTTGTTCGAGATGCAAATGCTCTGGGCGT
AGGTGTATTATGGGATGCGGTGTTGAATCATAAGGCTGGGGCGGATAGCG
TGGAGAGGTTCGAGGGTGTGAGGGTTGATGATGATCGTATATACCCCTTT
CCCATCTCTCCGTTCTTCTATGTATAGTGTGTATATTGACAAATGCTTCA
CAGGACGAGATATCGAAGATGGTAATCCCCAACAAATCTCCGGCTGGACG
TCCTTCACCTTCCCCGGCCGCGGCACCACATACAGCCCCCTTCAATACCA
CTGGCAGCACTTCAGCGGCGTCGACTGGGACGACGCCCAACAACGCAAAG
CAATCTACAAGATCCTCGACCCTTCCCGCCCCGACAAGAACTGGGCCCAG
GACGTCGGCACAGACGAGAACGGCAACTATGACTACCTGATGTTCGCGGA
CCTGGACTTCTCACACCCGGAGGTCCGGGAGGATGTACTGCGCTGGGGGA
AGTGGATTATGTCTGTGTTGCCGTTGAGCGGAATGCGGTTAGATGCGGCG
AAGCATTTCTCGACGGCATTTCAGAGGGACTTTATTGATTGTGTGCGGCA
GGAGGCCGGGGACAGGAAGGTATTTGTGATTGGGGAGTATTGGAGTGGGG
AGTTAAGGGCGCTGCTTAGGTATCTGGAGGAGATGGAGTATCGGGTGGCG
GCGGTGGATGTGCCGCTGGTAGAGAGGTTCTCGAGGTTGTCGAGGGTGAA
GAGGGCGGATTTGAGGGGAGTGTTGAGGGGGACGTTGGTGGAGAGCAGGC
CGGGGAATGCGTTGGTGAGTTTATCCCAGTGATCCAATTCGGGGGTGGTG
AGGCTGATGTGTGTGTGGTGTAGACATTCGTTACGAATCATGATACGGTG
AGTGAAAGCCCTTGTGAAGTGAAGGTATATGGATGAGTGCTGAATGATAT
CACAAGCAACCGGGACAAATGCTCGAGGTGAGTTGTTAACTTTATCATGT
GTCTGAGGATGAGCAACGAGCTAACATACAACAGACCATCGTCGAGCCCT
CCTTCAAACCCCTAGCCTACGCCCTAATCCTCCTCCGCCAAGGAGGCCAT
CCATGTGTCTTCTACGGCGACCTCTACGGCACCTGCGACGGCGACCACCC
GCCAACTCCCGCCTGCGAGGGCCAACTTCCGAATCTGATGCGTGCCCGCA
AGCTGTACGCCTACGGTGAGCAGGAGGACTACTTCGACCAGCCCAACTGT
ATTGGTAAGTCAAGCCCTATCCAGTCTGCGACATAGTCTGATAAATGAGA
AGGATTCATCCGCTACGGCAACGCCGCCCACCCCTCCGGACTGGCCTGCG
TCATGAGCAACGGCGGACCAGCCACGAAGCGCATGTACGTGGGTCGGAAA
CATGCCGGCGAGAAGTGGACGGATCTGCTGCAGCGAGGCGGTGATCACCC
GTCTGTCACGGTGATTGATGAAATGGGGTACGGGGAGTTTCCGGTTCAGA
GTATGAGGGTGAGTGTCTGGGTGGATAGTGCGGCAGATGGCCGAGAGGGT
GTCGGGGCAGAATTGTACGTCTATACCCTATTCCACTTATTGCTCTTGGT
AGTCGTGGGGGTGGATGTTTAAAACTGATCCAGGGGATGATGATGATGCT
AATATTGGAAGTTTAGTGACGTCGATATCTACGGCATTCAGGCACTATAA
back to topCoding sequence (CDS) from alignment at An09:703518..705667+ >CBS51388_006117-T1 ID=CBS51388_006117-T1|Name=CBS51388_006117-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=9810bp|location=Sequence derived from alignment at An09:703518..705667+ (Aspergillus niger CBS 513.88)
ATGTTCAGTTTCCTCCCCTGCTTCAAAACTCGCCGACAACGCACCAAATC
CCAAACTCAATCCCAAAAGCAAATAGAGGAAAAAGCCAACGCCATAGAAT
CCCTCCCCTCATGGCACTCCCCCACGGAAAACACCCTCCTATTTCAAGCC
TTCGAATGGCACGTCCCCGCAACCCCCAACACCGCGGACAAGCGCAGCCA
CTGGCGCCGGCTCCAGCATGCCTTACCAGCTATCCACTCCCTCGGTGTAA
CCAGCATCTGGATACCGCCTGGATGCAAGGGCATGGACACAAATGGAAAT
GGGTATGATATCTACGATTTATATGATCTAGGCGAATTCGACCAGAAAGG
AGCAGTGCGAACGAAATGGGGCACGCGCGGAGAATTAGAGGATCTTGTTC
GAGATGCAAATGCTCTGGGCGTAGGTGTATTATGGGATGCGGTGTTGAAT
CATAAGGCTGGGGCGGATAGCGTGGAGAGGTTCGAGGGTGTGAGGGTTGA
TGATGATCGACGAGATATCGAAGATGGTAATCCCCAACAAATCTCCGGCT
GGACGTCCTTCACCTTCCCCGGCCGCGGCACCACATACAGCCCCCTTCAA
TACCACTGGCAGCACTTCAGCGGCGTCGACTGGGACGACGCCCAACAACG
CAAAGCAATCTACAAGATCCTCGACCCTTCCCGCCCCGACAAGAACTGGG
CCCAGGACGTCGGCACAGACGAGAACGGCAACTATGACTACCTGATGTTC
GCGGACCTGGACTTCTCACACCCGGAGGTCCGGGAGGATGTACTGCGCTG
GGGGAAGTGGATTATGTCTGTGTTGCCGTTGAGCGGAATGCGGTTAGATG
CGGCGAAGCATTTCTCGACGGCATTTCAGAGGGACTTTATTGATTGTGTG
CGGCAGGAGGCCGGGGACAGGAAGGTATTTGTGATTGGGGAGTATTGGAG
TGGGGAGTTAAGGGCGCTGCTTAGGTATCTGGAGGAGATGGAGTATCGGG
TGGCGGCGGTGGATGTGCCGCTGGTAGAGAGGTTCTCGAGGTTGTCGAGG
GTGAAGAGGGCGGATTTGAGGGGAGTGTTGAGGGGGACGTTGGTGGAGAG
CAGGCCGGGGAATGCGTTGACCATCGTCGAGCCCTCCTTCAAACCCCTAG
CCTACGCCCTAATCCTCCTCCGCCAAGGAGGCCATCCATGTGTCTTCTAC
GGCGACCTCTACGGCACCTGCGACGGCGACCACCCGCCAACTCCCGCCTG
CGAGGGCCAACTTCCGAATCTGATGCGTGCCCGCAAGCTGTACGCCTACG
GTGAGCAGGAGGACTACTTCGACCAGCCCAACTGTATTGGATTCATCCGC
TACGGCAACGCCGCCCACCCCTCCGGACTGGCCTGCGTCATGAGCAACGG
CGGACCAGCCACGAAGCGCATGTACGTGGGTCGGAAACATGCCGGCGAGA
AGTGGACGGATCTGCTGCAGCGAGGCGGTGATCACCCGTCTGTCACGGTG
ATTGATGAAATGGGGTACGGGGAGTTTCCGGTTCAGAGTATGAGGGTGAG
TGTCTGGGTGGATAGTGCGGCAGATGGCCGAGAGGGTGTCGGGGCAGAAT
TTGACGTCGATATCTACGGCATTCAGGCACTATAAATGTTCAGTTTCCTC
CCCTGCTTCAAAACTCGCCGACAACGCACCAAATCCCAAACTCAATCCCA
AAAGCAAATAGAGGAAAAAGCCAACGCCATAGAATCCCTCCCCTCATGGC
ACTCCCCCACGGAAAACACCCTCCTATTTCAAGCCTTCGAATGGCACGTC
CCCGCAACCCCCAACACCGCGGACAAGCGCAGCCACTGGCGCCGGCTCCA
GCATGCCTTACCAGCTATCCACTCCCTCGGTGTAACCAGCATCTGGATAC
CGCCTGGATGCAAGGGCATGGACACAAATGGAAATGGGTATGATATCTAC
GATTTATATGATCTAGGCGAATTCGACCAGAAAGGAGCAGTGCGAACGAA
ATGGGGCACGCGCGGAGAATTAGAGGATCTTGTTCGAGATGCAAATGCTC
TGGGCGTAGGTGTATTATGGGATGCGGTGTTGAATCATAAGGCTGGGGCG
GATAGCGTGGAGAGGTTCGAGGGTGTGAGGGTTGATGATGATCGACGAGA
TATCGAAGATGGTAATCCCCAACAAATCTCCGGCTGGACGTCCTTCACCT
TCCCCGGCCGCGGCACCACATACAGCCCCCTTCAATACCACTGGCAGCAC
TTCAGCGGCGTCGACTGGGACGACGCCCAACAACGCAAAGCAATCTACAA
GATCCTCGACCCTTCCCGCCCCGACAAGAACTGGGCCCAGGACGTCGGCA
CAGACGAGAACGGCAACTATGACTACCTGATGTTCGCGGACCTGGACTTC
TCACACCCGGAGGTCCGGGAGGATGTACTGCGCTGGGGGAAGTGGATTAT
GTCTGTGTTGCCGTTGAGCGGAATGCGGTTAGATGCGGCGAAGCATTTCT
CGACGGCATTTCAGAGGGACTTTATTGATTGTGTGCGGCAGGAGGCCGGG
GACAGGAAGGTATTTGTGATTGGGGAGTATTGGAGTGGGGAGTTAAGGGC
GCTGCTTAGGTATCTGGAGGAGATGGAGTATCGGGTGGCGGCGGTGGATG
TGCCGCTGGTAGAGAGGTTCTCGAGGTTGTCGAGGGTGAAGAGGGCGGAT
TTGAGGGGAGTGTTGAGGGGGACGTTGGTGGAGAGCAGGCCGGGGAATGC
GTTGACCATCGTCGAGCCCTCCTTCAAACCCCTAGCCTACGCCCTAATCC
TCCTCCGCCAAGGAGGCCATCCATGTGTCTTCTACGGCGACCTCTACGGC
ACCTGCGACGGCGACCACCCGCCAACTCCCGCCTGCGAGGGCCAACTTCC
GAATCTGATGCGTGCCCGCAAGCTGTACGCCTACGGTGAGCAGGAGGACT
ACTTCGACCAGCCCAACTGTATTGGATTCATCCGCTACGGCAACGCCGCC
CACCCCTCCGGACTGGCCTGCGTCATGAGCAACGGCGGACCAGCCACGAA
GCGCATGTACGTGGGTCGGAAACATGCCGGCGAGAAGTGGACGGATCTGC
TGCAGCGAGGCGGTGATCACCCGTCTGTCACGGTGATTGATGAAATGGGG
TACGGGGAGTTTCCGGTTCAGAGTATGAGGGTGAGTGTCTGGGTGGATAG
TGCGGCAGATGGCCGAGAGGGTGTCGGGGCAGAATTTGACGTCGATATCT
ACGGCATTCAGGCACTATAAATGTTCAGTTTCCTCCCCTGCTTCAAAACT
CGCCGACAACGCACCAAATCCCAAACTCAATCCCAAAAGCAAATAGAGGA
AAAAGCCAACGCCATAGAATCCCTCCCCTCATGGCACTCCCCCACGGAAA
ACACCCTCCTATTTCAAGCCTTCGAATGGCACGTCCCCGCAACCCCCAAC
ACCGCGGACAAGCGCAGCCACTGGCGCCGGCTCCAGCATGCCTTACCAGC
TATCCACTCCCTCGGTGTAACCAGCATCTGGATACCGCCTGGATGCAAGG
GCATGGACACAAATGGAAATGGGTATGATATCTACGATTTATATGATCTA
GGCGAATTCGACCAGAAAGGAGCAGTGCGAACGAAATGGGGCACGCGCGG
AGAATTAGAGGATCTTGTTCGAGATGCAAATGCTCTGGGCGTAGGTGTAT
TATGGGATGCGGTGTTGAATCATAAGGCTGGGGCGGATAGCGTGGAGAGG
TTCGAGGGTGTGAGGGTTGATGATGATCGACGAGATATCGAAGATGGTAA
TCCCCAACAAATCTCCGGCTGGACGTCCTTCACCTTCCCCGGCCGCGGCA
CCACATACAGCCCCCTTCAATACCACTGGCAGCACTTCAGCGGCGTCGAC
TGGGACGACGCCCAACAACGCAAAGCAATCTACAAGATCCTCGACCCTTC
CCGCCCCGACAAGAACTGGGCCCAGGACGTCGGCACAGACGAGAACGGCA
ACTATGACTACCTGATGTTCGCGGACCTGGACTTCTCACACCCGGAGGTC
CGGGAGGATGTACTGCGCTGGGGGAAGTGGATTATGTCTGTGTTGCCGTT
GAGCGGAATGCGGTTAGATGCGGCGAAGCATTTCTCGACGGCATTTCAGA
GGGACTTTATTGATTGTGTGCGGCAGGAGGCCGGGGACAGGAAGGTATTT
GTGATTGGGGAGTATTGGAGTGGGGAGTTAAGGGCGCTGCTTAGGTATCT
GGAGGAGATGGAGTATCGGGTGGCGGCGGTGGATGTGCCGCTGGTAGAGA
GGTTCTCGAGGTTGTCGAGGGTGAAGAGGGCGGATTTGAGGGGAGTGTTG
AGGGGGACGTTGGTGGAGAGCAGGCCGGGGAATGCGTTGACCATCGTCGA
GCCCTCCTTCAAACCCCTAGCCTACGCCCTAATCCTCCTCCGCCAAGGAG
GCCATCCATGTGTCTTCTACGGCGACCTCTACGGCACCTGCGACGGCGAC
CACCCGCCAACTCCCGCCTGCGAGGGCCAACTTCCGAATCTGATGCGTGC
CCGCAAGCTGTACGCCTACGGTGAGCAGGAGGACTACTTCGACCAGCCCA
ACTGTATTGGATTCATCCGCTACGGCAACGCCGCCCACCCCTCCGGACTG
GCCTGCGTCATGAGCAACGGCGGACCAGCCACGAAGCGCATGTACGTGGG
TCGGAAACATGCCGGCGAGAAGTGGACGGATCTGCTGCAGCGAGGCGGTG
ATCACCCGTCTGTCACGGTGATTGATGAAATGGGGTACGGGGAGTTTCCG
GTTCAGAGTATGAGGGTGAGTGTCTGGGTGGATAGTGCGGCAGATGGCCG
AGAGGGTGTCGGGGCAGAATTTGACGTCGATATCTACGGCATTCAGGCAC
TATAAATGTTCAGTTTCCTCCCCTGCTTCAAAACTCGCCGACAACGCACC
AAATCCCAAACTCAATCCCAAAAGCAAATAGAGGAAAAAGCCAACGCCAT
AGAATCCCTCCCCTCATGGCACTCCCCCACGGAAAACACCCTCCTATTTC
AAGCCTTCGAATGGCACGTCCCCGCAACCCCCAACACCGCGGACAAGCGC
AGCCACTGGCGCCGGCTCCAGCATGCCTTACCAGCTATCCACTCCCTCGG
TGTAACCAGCATCTGGATACCGCCTGGATGCAAGGGCATGGACACAAATG
GAAATGGGTATGATATCTACGATTTATATGATCTAGGCGAATTCGACCAG
AAAGGAGCAGTGCGAACGAAATGGGGCACGCGCGGAGAATTAGAGGATCT
TGTTCGAGATGCAAATGCTCTGGGCGTAGGTGTATTATGGGATGCGGTGT
TGAATCATAAGGCTGGGGCGGATAGCGTGGAGAGGTTCGAGGGTGTGAGG
GTTGATGATGATCGACGAGATATCGAAGATGGTAATCCCCAACAAATCTC
CGGCTGGACGTCCTTCACCTTCCCCGGCCGCGGCACCACATACAGCCCCC
TTCAATACCACTGGCAGCACTTCAGCGGCGTCGACTGGGACGACGCCCAA
CAACGCAAAGCAATCTACAAGATCCTCGACCCTTCCCGCCCCGACAAGAA
CTGGGCCCAGGACGTCGGCACAGACGAGAACGGCAACTATGACTACCTGA
TGTTCGCGGACCTGGACTTCTCACACCCGGAGGTCCGGGAGGATGTACTG
CGCTGGGGGAAGTGGATTATGTCTGTGTTGCCGTTGAGCGGAATGCGGTT
AGATGCGGCGAAGCATTTCTCGACGGCATTTCAGAGGGACTTTATTGATT
GTGTGCGGCAGGAGGCCGGGGACAGGAAGGTATTTGTGATTGGGGAGTAT
TGGAGTGGGGAGTTAAGGGCGCTGCTTAGGTATCTGGAGGAGATGGAGTA
TCGGGTGGCGGCGGTGGATGTGCCGCTGGTAGAGAGGTTCTCGAGGTTGT
CGAGGGTGAAGAGGGCGGATTTGAGGGGAGTGTTGAGGGGGACGTTGGTG
GAGAGCAGGCCGGGGAATGCGTTGACCATCGTCGAGCCCTCCTTCAAACC
CCTAGCCTACGCCCTAATCCTCCTCCGCCAAGGAGGCCATCCATGTGTCT
TCTACGGCGACCTCTACGGCACCTGCGACGGCGACCACCCGCCAACTCCC
GCCTGCGAGGGCCAACTTCCGAATCTGATGCGTGCCCGCAAGCTGTACGC
CTACGGTGAGCAGGAGGACTACTTCGACCAGCCCAACTGTATTGGATTCA
TCCGCTACGGCAACGCCGCCCACCCCTCCGGACTGGCCTGCGTCATGAGC
AACGGCGGACCAGCCACGAAGCGCATGTACGTGGGTCGGAAACATGCCGG
CGAGAAGTGGACGGATCTGCTGCAGCGAGGCGGTGATCACCCGTCTGTCA
CGGTGATTGATGAAATGGGGTACGGGGAGTTTCCGGTTCAGAGTATGAGG
GTGAGTGTCTGGGTGGATAGTGCGGCAGATGGCCGAGAGGGTGTCGGGGC
AGAATTTGACGTCGATATCTACGGCATTCAGGCACTATAAATGTTCAGTT
TCCTCCCCTGCTTCAAAACTCGCCGACAACGCACCAAATCCCAAACTCAA
TCCCAAAAGCAAATAGAGGAAAAAGCCAACGCCATAGAATCCCTCCCCTC
ATGGCACTCCCCCACGGAAAACACCCTCCTATTTCAAGCCTTCGAATGGC
ACGTCCCCGCAACCCCCAACACCGCGGACAAGCGCAGCCACTGGCGCCGG
CTCCAGCATGCCTTACCAGCTATCCACTCCCTCGGTGTAACCAGCATCTG
GATACCGCCTGGATGCAAGGGCATGGACACAAATGGAAATGGGTATGATA
TCTACGATTTATATGATCTAGGCGAATTCGACCAGAAAGGAGCAGTGCGA
ACGAAATGGGGCACGCGCGGAGAATTAGAGGATCTTGTTCGAGATGCAAA
TGCTCTGGGCGTAGGTGTATTATGGGATGCGGTGTTGAATCATAAGGCTG
GGGCGGATAGCGTGGAGAGGTTCGAGGGTGTGAGGGTTGATGATGATCGA
CGAGATATCGAAGATGGTAATCCCCAACAAATCTCCGGCTGGACGTCCTT
CACCTTCCCCGGCCGCGGCACCACATACAGCCCCCTTCAATACCACTGGC
AGCACTTCAGCGGCGTCGACTGGGACGACGCCCAACAACGCAAAGCAATC
TACAAGATCCTCGACCCTTCCCGCCCCGACAAGAACTGGGCCCAGGACGT
CGGCACAGACGAGAACGGCAACTATGACTACCTGATGTTCGCGGACCTGG
ACTTCTCACACCCGGAGGTCCGGGAGGATGTACTGCGCTGGGGGAAGTGG
ATTATGTCTGTGTTGCCGTTGAGCGGAATGCGGTTAGATGCGGCGAAGCA
TTTCTCGACGGCATTTCAGAGGGACTTTATTGATTGTGTGCGGCAGGAGG
CCGGGGACAGGAAGGTATTTGTGATTGGGGAGTATTGGAGTGGGGAGTTA
AGGGCGCTGCTTAGGTATCTGGAGGAGATGGAGTATCGGGTGGCGGCGGT
GGATGTGCCGCTGGTAGAGAGGTTCTCGAGGTTGTCGAGGGTGAAGAGGG
CGGATTTGAGGGGAGTGTTGAGGGGGACGTTGGTGGAGAGCAGGCCGGGG
AATGCGTTGACCATCGTCGAGCCCTCCTTCAAACCCCTAGCCTACGCCCT
AATCCTCCTCCGCCAAGGAGGCCATCCATGTGTCTTCTACGGCGACCTCT
ACGGCACCTGCGACGGCGACCACCCGCCAACTCCCGCCTGCGAGGGCCAA
CTTCCGAATCTGATGCGTGCCCGCAAGCTGTACGCCTACGGTGAGCAGGA
GGACTACTTCGACCAGCCCAACTGTATTGGATTCATCCGCTACGGCAACG
CCGCCCACCCCTCCGGACTGGCCTGCGTCATGAGCAACGGCGGACCAGCC
ACGAAGCGCATGTACGTGGGTCGGAAACATGCCGGCGAGAAGTGGACGGA
TCTGCTGCAGCGAGGCGGTGATCACCCGTCTGTCACGGTGATTGATGAAA
TGGGGTACGGGGAGTTTCCGGTTCAGAGTATGAGGGTGAGTGTCTGGGTG
GATAGTGCGGCAGATGGCCGAGAGGGTGTCGGGGCAGAATTTGACGTCGA
TATCTACGGCATTCAGGCACTATAAATGTTCAGTTTCCTCCCCTGCTTCA
AAACTCGCCGACAACGCACCAAATCCCAAACTCAATCCCAAAAGCAAATA
GAGGAAAAAGCCAACGCCATAGAATCCCTCCCCTCATGGCACTCCCCCAC
GGAAAACACCCTCCTATTTCAAGCCTTCGAATGGCACGTCCCCGCAACCC
CCAACACCGCGGACAAGCGCAGCCACTGGCGCCGGCTCCAGCATGCCTTA
CCAGCTATCCACTCCCTCGGTGTAACCAGCATCTGGATACCGCCTGGATG
CAAGGGCATGGACACAAATGGAAATGGGTATGATATCTACGATTTATATG
ATCTAGGCGAATTCGACCAGAAAGGAGCAGTGCGAACGAAATGGGGCACG
CGCGGAGAATTAGAGGATCTTGTTCGAGATGCAAATGCTCTGGGCGTAGG
TGTATTATGGGATGCGGTGTTGAATCATAAGGCTGGGGCGGATAGCGTGG
AGAGGTTCGAGGGTGTGAGGGTTGATGATGATCGACGAGATATCGAAGAT
GGTAATCCCCAACAAATCTCCGGCTGGACGTCCTTCACCTTCCCCGGCCG
CGGCACCACATACAGCCCCCTTCAATACCACTGGCAGCACTTCAGCGGCG
TCGACTGGGACGACGCCCAACAACGCAAAGCAATCTACAAGATCCTCGAC
CCTTCCCGCCCCGACAAGAACTGGGCCCAGGACGTCGGCACAGACGAGAA
CGGCAACTATGACTACCTGATGTTCGCGGACCTGGACTTCTCACACCCGG
AGGTCCGGGAGGATGTACTGCGCTGGGGGAAGTGGATTATGTCTGTGTTG
CCGTTGAGCGGAATGCGGTTAGATGCGGCGAAGCATTTCTCGACGGCATT
TCAGAGGGACTTTATTGATTGTGTGCGGCAGGAGGCCGGGGACAGGAAGG
TATTTGTGATTGGGGAGTATTGGAGTGGGGAGTTAAGGGCGCTGCTTAGG
TATCTGGAGGAGATGGAGTATCGGGTGGCGGCGGTGGATGTGCCGCTGGT
AGAGAGGTTCTCGAGGTTGTCGAGGGTGAAGAGGGCGGATTTGAGGGGAG
TGTTGAGGGGGACGTTGGTGGAGAGCAGGCCGGGGAATGCGTTGACCATC
GTCGAGCCCTCCTTCAAACCCCTAGCCTACGCCCTAATCCTCCTCCGCCA
AGGAGGCCATCCATGTGTCTTCTACGGCGACCTCTACGGCACCTGCGACG
GCGACCACCCGCCAACTCCCGCCTGCGAGGGCCAACTTCCGAATCTGATG
CGTGCCCGCAAGCTGTACGCCTACGGTGAGCAGGAGGACTACTTCGACCA
GCCCAACTGTATTGGATTCATCCGCTACGGCAACGCCGCCCACCCCTCCG
GACTGGCCTGCGTCATGAGCAACGGCGGACCAGCCACGAAGCGCATGTAC
GTGGGTCGGAAACATGCCGGCGAGAAGTGGACGGATCTGCTGCAGCGAGG
CGGTGATCACCCGTCTGTCACGGTGATTGATGAAATGGGGTACGGGGAGT
TTCCGGTTCAGAGTATGAGGGTGAGTGTCTGGGTGGATAGTGCGGCAGAT
GGCCGAGAGGGTGTCGGGGCAGAATTTGACGTCGATATCTACGGCATTCA
GGCACTATAA 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:0004553 | hydrolase activity, hydrolyzing O-glycosyl compounds |
| GO:0005509 | calcium ion binding |
| GO:0003824 | catalytic activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | CAZy:GH13_36 |
| Note | CAZy:GH13 |
| Note | CAZy:GH13_5 |
| DBxref | InterPro:IPR017853 |
| DBxref | InterPro:IPR013780 |
| DBxref | InterPro:IPR013776 |
| DBxref | InterPro:IPR006047 |
| DBxref | PFAM:PF00128 |
| 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 | An09:703518..705667 + |
|
