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Sequences
The following sequences are available for this feature:
mRNA from alignment at An01:2157968..2160031- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_000732-T1 ID=CBS51388_000732-T1|Name=CBS51388_000732-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2064bp|location=Sequence derived from alignment at An01:2157968..2160031- (Aspergillus niger CBS 513.88)
ATGCCGATTCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAAGAG
AAAGCACGGTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGAAGC
CCGCTGTCGAGAATGGAGAGACGACCGAAGTGACGGAGACACCTACGGAA
AAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCC
CAAGAAGCGCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACAGCG
AGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAGGGC
AAGGAGGATGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCT
GCCTCAGACGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCTCTG
AGAAGACGATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACCGAG
ATTCAGCAACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGG
TGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTG
TGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAATGGTGGGTTTTTG
GCCATGTCTACCAGGTGTTCACTCATTGAACGTGTGCTAATATTCCGGTT
CCAGGTACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGCGCTGCA
AATATTCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAACATATG
GTATCGTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAGCTCACC
AAGGGTGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGATCATCT
GCAGAACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTGTTATTG
GTAAGCGTGACGTGATTACGAACACAATAGGAAAACGACTCTAACGTCTG
TGCAGATGAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATGC
GTCAGATTGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTTC
TCTGCCACCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGCG
GCCTGGCCCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAGCACAG
TTGAGGGTTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTTC
CTGCTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTGT
CTTCTTCTCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAACT
ACATCGACCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAAG
CGGACCAACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGAT
TTGCACTGACGTTGCTGCCAGAGGTTTGGATGTGAGTTTCTACCTGCCCA
TGAACAGATCACCCAGAGCATAAACTAACTAGTATAGATTCCGGCTGTGG
ACTGGATTATCCAGTTCGACCCTCCGGATGACACCAGGGATTACGTTCAC
CGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGCAGTTTGAT
GTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTC
GTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCGTCAACGTT
CAATCTCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTGAACAAGGT
AAGTTTACAGGCTACATTTGACTCCTATGTACGATATCGATGCAATACTG
ACTCAACCCACCTAGTCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGC
ATATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACC
TGGTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGCATCGAC
ATCCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGG
ACGCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGC
ACGAGGATGACTGA back to topCoding sequence (CDS) from alignment at An01:2157968..2160031- >CBS51388_000732-T1 ID=CBS51388_000732-T1|Name=CBS51388_000732-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=9105bp|location=Sequence derived from alignment at An01:2157968..2160031- (Aspergillus niger CBS 513.88)
TCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGCATATGCCTCGCACTC
GCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACCTGGTCAAGATTGCCA
AGGGATTCGGATTCTCGACGCCGCCGCGCATCGACATCCAGCTGGGCTCC
AGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGGACGCCGAAACTACGG
CAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGCACGAGGATGACTGAA
TTCCGGCTGTGGACTGGATTATCCAGTTCGACCCTCCGGATGACACCAGG
GATTACGTTCACCGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGG
ACGCAGTTTGATGTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACC
TCAAGGAGGCTCGTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAACAAG
ATCGTCAACGTTCAATCTCAACTTGAGAAGTTGATTGGTCAGAACTACTA
TCTGAACAAGATGAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGA
AATGCGTCAGATTGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGC
TGTTCTCTGCCACCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCG
CTGCGGCCTGGCCCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAG
CACAGTTGAGGGTTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGC
GCTTCCTGCTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATC
ATTGTCTTCTTCTCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCT
CAACTACATCGACCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGC
AGAAGCGGACCAACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACC
CTGATTTGCACTGACGTTGCTGCCAGAGGTTTGGATGTACTGGTGTTCTT
GTTGTTTCCCCCACCAGAGAGTTGGCGCTGCAAATATTCGGTGTGGCCAG
AGAGTTGATGGCGCACCACTCGCAAACATATGGTATCGTTATCGGAGGTG
CCAACCGCCGAGCTGAGGCAGAGAAGCTCACCAAGGGTGTCAACCTGCTT
ATTGCCACCCCTGGACGTTTGCTCGATCATCTGCAGAACACCCCTGGCTT
TGTGTTCAAGAACCTGAAGACACTTGTTATTGATGCCGATTCCTGTGGAT
ACTGCGAAATCCATCAACAAGAAGCGCAAGAGAAAGCACGGTGCGCGCGC
TGCGACCGACGCCGACGATGCTTCTCCGAAGCCCGCTGTCGAGAATGGAG
AGACGACCGAAGTGACGGAGACACCTACGGAAAAGAAGTCGAAGAAGAAG
GCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCCCAAGAAGCGCAAGGTAGA
TGACTCCAGCAACGAGGATGAGAATGACAGCGAGGAAGAAGTCCGTGAGG
CCGATCCCGAAGATGAAGATGATAACGAGGGCAAGGAGGATGGAAATGGT
GCAGACCTTCCTTCTTTGGACGCTGTGCGTCTGCCTCAGACGGATGGCGA
GCCGAAGAAGTTCACGGAATTGAACCTCTCTGAGAAGACGATGAAGGGTA
TTCAGGATATGGGCTTCGAGACTATGACCGAGATTCAGCAACGTACTATT
CCTCCGCTACTTGCTGGTCGTGATGTCCTCGGTGCTGCAAAGACGGGTTC
CGGAAAGACTTTGTCGTTTTTGATCCCTGCTGTGGAGATGTTGAGCGCTC
TGCGGTTTAAGCCTCGCAATGTCCGCCAAGGAAGGTTACAGAGCCTATCT
CCAGGCATATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGC
TTGACCTGGTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGC
ATCGACATCCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCA
GCAAGGACGCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGC
GCAAGCACGAGGATGACTGAATTCCGGCTGTGGACTGGATTATCCAGTTC
GACCCTCCGGATGACACCAGGGATTACGTTCACCGTGTCGGTCGTACGGC
TCGTGGTGTGAACGGAAAGGGACGCAGTTTGATGTTCTTGCAGCCTTCCG
AGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTCGTGTTCCCGTGGTGGAA
TTCGACTTCCCGGCCAACAAGATCGTCAACGTTCAATCTCAACTTGAGAA
GTTGATTGGTCAGAACTACTATCTGAACAAGATGAGGCGGACCGTATCCT
GGAAGTCGGTTTCGAGGACGAAATGCGTCAGATTGTCAAGATCCTGCCCT
CCGAGGAGAGACAGACCATGCTGTTCTCTGCCACCCAGACCACGAAAGTC
GAGGATTTGGCGCGTATATCGCTGCGGCCTGGCCCCTTGTACATCAACGT
TGACCACCGCAAGGAGCACAGCACAGTTGAGGGTTTGGAACAGGGTTATG
TCATCTGTGAGGCTGACAAGCGCTTCCTGCTTCTTTTCTCCTTCCTTAAG
CGCAACCTCAAGAAGAAGATCATTGTCTTCTTCTCCAGCTGTAACTGTGT
GAAGTACCACGCGGAGCTGCTCAACTACATCGACCTGCCGGTGCTTGAAC
TCCACGGCAAGCAGAAGCAGCAGAAGCGGACCAACACATTCTTCGAGTTC
TGCAATGCCAAGCAGGGAACCCTGATTTGCACTGACGTTGCTGCCAGAGG
TTTGGATGTACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGCGCT
GCAAATATTCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAACAT
ATGGTATCGTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAGCTC
ACCAAGGGTGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGATCA
TCTGCAGAACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTGTTA
TTGATGCCGATTCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAA
GAGAAAGCACGGTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGA
AGCCCGCTGTCGAGAATGGAGAGACGACCGAAGTGACGGAGACACCTACG
GAAAAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAA
GCCCAAGAAGCGCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACA
GCGAGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAG
GGCAAGGAGGATGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCG
TCTGCCTCAGACGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCT
CTGAGAAGACGATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACC
GAGATTCAGCAACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCT
CGGTGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTG
CTGTGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAATGTCCGCCAA
GGAAGGTTACAGAGCCTATCTCCAGGCATATGCCTCGCACTCGCTCCGGT
CCGTCTTCGACGTGCACAAGCTTGACCTGGTCAAGATTGCCAAGGGATTC
GGATTCTCGACGCCGCCGCGCATCGACATCCAGCTGGGCTCCAGCCTGAG
TCGGGATAAGAAGCAGCAGCAGCAAGGACGCCGAAACTACGGCAGCCAAC
CGAAGGGGCTGAAGTTTAAGCGCAAGCACGAGGATGACTGAATTCCGGCT
GTGGACTGGATTATCCAGTTCGACCCTCCGGATGACACCAGGGATTACGT
TCACCGTGTCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGCAGTT
TGATGTTCTTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAG
GCTCGTGTTCCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCGTCAA
CGTTCAATCTCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTGAACA
AGATGAGGCGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATGCGTC
AGATTGTCAAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTTCTCT
GCCACCCAGACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGCGGCC
TGGCCCCTTGTACATCAACGTTGACCACCGCAAGGAGCACAGCACAGTTG
AGGGTTTGGAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTTCCTG
CTTCTTTTCTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTGTCTT
CTTCTCCAGCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAACTACA
TCGACCTGCCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAAGCGG
ACCAACACATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGATTTG
CACTGACGTTGCTGCCAGAGGTTTGGATGTACTGGTGTTCTTGTTGTTTC
CCCCACCAGAGAGTTGGCGCTGCAAATATTCGGTGTGGCCAGAGAGTTGA
TGGCGCACCACTCGCAAACATATGGTATCGTTATCGGAGGTGCCAACCGC
CGAGCTGAGGCAGAGAAGCTCACCAAGGGTGTCAACCTGCTTATTGCCAC
CCCTGGACGTTTGCTCGATCATCTGCAGAACACCCCTGGCTTTGTGTTCA
AGAACCTGAAGACACTTGTTATTGATGCCGATTCCTGTGGATACTGCGAA
ATCCATCAACAAGAAGCGCAAGAGAAAGCACGGTGCGCGCGCTGCGACCG
ACGCCGACGATGCTTCTCCGAAGCCCGCTGTCGAGAATGGAGAGACGACC
GAAGTGACGGAGACACCTACGGAAAAGAAGTCGAAGAAGAAGGCCGCCAA
GGAGTCTGAGAAGGAAGAAAAGCCCAAGAAGCGCAAGGTAGATGACTCCA
GCAACGAGGATGAGAATGACAGCGAGGAAGAAGTCCGTGAGGCCGATCCC
GAAGATGAAGATGATAACGAGGGCAAGGAGGATGGAAATGGTGCAGACCT
TCCTTCTTTGGACGCTGTGCGTCTGCCTCAGACGGATGGCGAGCCGAAGA
AGTTCACGGAATTGAACCTCTCTGAGAAGACGATGAAGGGTATTCAGGAT
ATGGGCTTCGAGACTATGACCGAGATTCAGCAACGTACTATTCCTCCGCT
ACTTGCTGGTCGTGATGTCCTCGGTGCTGCAAAGACGGGTTCCGGAAAGA
CTTTGTCGTTTTTGATCCCTGCTGTGGAGATGTTGAGCGCTCTGCGGTTT
AAGCCTCGCAATGTCCGCCAAGGAAGGTTACAGAGCCTATCTCCAGGCAT
ATGCCTCGCACTCGCTCCGGTCCGTCTTCGACGTGCACAAGCTTGACCTG
GTCAAGATTGCCAAGGGATTCGGATTCTCGACGCCGCCGCGCATCGACAT
CCAGCTGGGCTCCAGCCTGAGTCGGGATAAGAAGCAGCAGCAGCAAGGAC
GCCGAAACTACGGCAGCCAACCGAAGGGGCTGAAGTTTAAGCGCAAGCAC
GAGGATGACTGAATTCCGGCTGTGGACTGGATTATCCAGTTCGACCCTCC
GGATGACACCAGGGATTACGTTCACCGTGTCGGTCGTACGGCTCGTGGTG
TGAACGGAAAGGGACGCAGTTTGATGTTCTTGCAGCCTTCCGAGGTTGGT
TTCTTGAAGCACCTCAAGGAGGCTCGTGTTCCCGTGGTGGAATTCGACTT
CCCGGCCAACAAGATCGTCAACGTTCAATCTCAACTTGAGAAGTTGATTG
GTCAGAACTACTATCTGAACAAGATGAGGCGGACCGTATCCTGGAAGTCG
GTTTCGAGGACGAAATGCGTCAGATTGTCAAGATCCTGCCCTCCGAGGAG
AGACAGACCATGCTGTTCTCTGCCACCCAGACCACGAAAGTCGAGGATTT
GGCGCGTATATCGCTGCGGCCTGGCCCCTTGTACATCAACGTTGACCACC
GCAAGGAGCACAGCACAGTTGAGGGTTTGGAACAGGGTTATGTCATCTGT
GAGGCTGACAAGCGCTTCCTGCTTCTTTTCTCCTTCCTTAAGCGCAACCT
CAAGAAGAAGATCATTGTCTTCTTCTCCAGCTGTAACTGTGTGAAGTACC
ACGCGGAGCTGCTCAACTACATCGACCTGCCGGTGCTTGAACTCCACGGC
AAGCAGAAGCAGCAGAAGCGGACCAACACATTCTTCGAGTTCTGCAATGC
CAAGCAGGGAACCCTGATTTGCACTGACGTTGCTGCCAGAGGTTTGGATG
TACTGGTGTTCTTGTTGTTTCCCCCACCAGAGAGTTGGCGCTGCAAATAT
TCGGTGTGGCCAGAGAGTTGATGGCGCACCACTCGCAAACATATGGTATC
GTTATCGGAGGTGCCAACCGCCGAGCTGAGGCAGAGAAGCTCACCAAGGG
TGTCAACCTGCTTATTGCCACCCCTGGACGTTTGCTCGATCATCTGCAGA
ACACCCCTGGCTTTGTGTTCAAGAACCTGAAGACACTTGTTATTGATGCC
GATTCCTGTGGATACTGCGAAATCCATCAACAAGAAGCGCAAGAGAAAGC
ACGGTGCGCGCGCTGCGACCGACGCCGACGATGCTTCTCCGAAGCCCGCT
GTCGAGAATGGAGAGACGACCGAAGTGACGGAGACACCTACGGAAAAGAA
GTCGAAGAAGAAGGCCGCCAAGGAGTCTGAGAAGGAAGAAAAGCCCAAGA
AGCGCAAGGTAGATGACTCCAGCAACGAGGATGAGAATGACAGCGAGGAA
GAAGTCCGTGAGGCCGATCCCGAAGATGAAGATGATAACGAGGGCAAGGA
GGATGGAAATGGTGCAGACCTTCCTTCTTTGGACGCTGTGCGTCTGCCTC
AGACGGATGGCGAGCCGAAGAAGTTCACGGAATTGAACCTCTCTGAGAAG
ACGATGAAGGGTATTCAGGATATGGGCTTCGAGACTATGACCGAGATTCA
GCAACGTACTATTCCTCCGCTACTTGCTGGTCGTGATGTCCTCGGTGCTG
CAAAGACGGGTTCCGGAAAGACTTTGTCGTTTTTGATCCCTGCTGTGGAG
ATGTTGAGCGCTCTGCGGTTTAAGCCTCGCAATGTCCGCCAAGGAAGGTT
ACAGAGCCTATCTCCAGGCATATGCCTCGCACTCGCTCCGGTCCGTCTTC
GACGTGCACAAGCTTGACCTGGTCAAGATTGCCAAGGGATTCGGATTCTC
GACGCCGCCGCGCATCGACATCCAGCTGGGCTCCAGCCTGAGTCGGGATA
AGAAGCAGCAGCAGCAAGGACGCCGAAACTACGGCAGCCAACCGAAGGGG
CTGAAGTTTAAGCGCAAGCACGAGGATGACTGAATTCCGGCTGTGGACTG
GATTATCCAGTTCGACCCTCCGGATGACACCAGGGATTACGTTCACCGTG
TCGGTCGTACGGCTCGTGGTGTGAACGGAAAGGGACGCAGTTTGATGTTC
TTGCAGCCTTCCGAGGTTGGTTTCTTGAAGCACCTCAAGGAGGCTCGTGT
TCCCGTGGTGGAATTCGACTTCCCGGCCAACAAGATCGTCAACGTTCAAT
CTCAACTTGAGAAGTTGATTGGTCAGAACTACTATCTGAACAAGATGAGG
CGGACCGTATCCTGGAAGTCGGTTTCGAGGACGAAATGCGTCAGATTGTC
AAGATCCTGCCCTCCGAGGAGAGACAGACCATGCTGTTCTCTGCCACCCA
GACCACGAAAGTCGAGGATTTGGCGCGTATATCGCTGCGGCCTGGCCCCT
TGTACATCAACGTTGACCACCGCAAGGAGCACAGCACAGTTGAGGGTTTG
GAACAGGGTTATGTCATCTGTGAGGCTGACAAGCGCTTCCTGCTTCTTTT
CTCCTTCCTTAAGCGCAACCTCAAGAAGAAGATCATTGTCTTCTTCTCCA
GCTGTAACTGTGTGAAGTACCACGCGGAGCTGCTCAACTACATCGACCTG
CCGGTGCTTGAACTCCACGGCAAGCAGAAGCAGCAGAAGCGGACCAACAC
ATTCTTCGAGTTCTGCAATGCCAAGCAGGGAACCCTGATTTGCACTGACG
TTGCTGCCAGAGGTTTGGATGTACTGGTGTTCTTGTTGTTTCCCCCACCA
GAGAGTTGGCGCTGCAAATATTCGGTGTGGCCAGAGAGTTGATGGCGCAC
CACTCGCAAACATATGGTATCGTTATCGGAGGTGCCAACCGCCGAGCTGA
GGCAGAGAAGCTCACCAAGGGTGTCAACCTGCTTATTGCCACCCCTGGAC
GTTTGCTCGATCATCTGCAGAACACCCCTGGCTTTGTGTTCAAGAACCTG
AAGACACTTGTTATTGATGCCGATTCCTGTGGATACTGCGAAATCCATCA
ACAAGAAGCGCAAGAGAAAGCACGGTGCGCGCGCTGCGACCGACGCCGAC
GATGCTTCTCCGAAGCCCGCTGTCGAGAATGGAGAGACGACCGAAGTGAC
GGAGACACCTACGGAAAAGAAGTCGAAGAAGAAGGCCGCCAAGGAGTCTG
AGAAGGAAGAAAAGCCCAAGAAGCGCAAGGTAGATGACTCCAGCAACGAG
GATGAGAATGACAGCGAGGAAGAAGTCCGTGAGGCCGATCCCGAAGATGA
AGATGATAACGAGGGCAAGGAGGATGGAAATGGTGCAGACCTTCCTTCTT
TGGACGCTGTGCGTCTGCCTCAGACGGATGGCGAGCCGAAGAAGTTCACG
GAATTGAACCTCTCTGAGAAGACGATGAAGGGTATTCAGGATATGGGCTT
CGAGACTATGACCGAGATTCAGCAACGTACTATTCCTCCGCTACTTGCTG
GTCGTGATGTCCTCGGTGCTGCAAAGACGGGTTCCGGAAAGACTTTGTCG
TTTTTGATCCCTGCTGTGGAGATGTTGAGCGCTCTGCGGTTTAAGCCTCG
CAATG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003676 | nucleic acid binding |
| GO:0005524 | ATP binding |
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 | BUSCO:EOG09261F73 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR014014 |
| DBxref | InterPro:IPR000629 |
| DBxref | InterPro:IPR011545 |
| DBxref | InterPro:IPR025313 |
| DBxref | InterPro:IPR001650 |
| DBxref | InterPro:IPR014001 |
| DBxref | PFAM:PF00271 |
| DBxref | PFAM:PF13959 |
| DBxref | PFAM:PF00270 |
| Product | ATP-dependent RNA helicase |
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 |
|---|
| An01 | supercontig | An01:2157968..2160031 - |
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