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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:1264604..1266721+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_46984-T1 ID=ASPNIDRAFT_46984-T1|Name=ASPNIDRAFT_46984-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2118bp|location=Sequence derived from alignment at ACJE01000010.1:1264604..1266721+ (Aspergillus niger ATCC 1015)
ATGAGGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCT
TGAACTTGCAGTGAAACCTGGGAATATATATCGCCACAATGAAGCGCAAG
TTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGACTAAGGAGAC
CTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTGGATCCGCGAC
TGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTACGCCCGTCCAG
GCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCCTTGGTGCGTA
CATCCTGGTGCCTGTGGTGGATGATGAGTATACTAACAATACCAGCTCGT
GCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCTATTCTTCA
GACCATTCTTCAGAAGAAAGCTGTCAGTACTTTCCAGGGAAGATGAATTA
AAAAATTGAGACAAGCTAAATTGTATCATGCTTTAGGCCGACCCCTCGTT
GAAAGCCACCACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAAC
AGGTCCAAAAAGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTC
CGCTCTGTGAACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTAT
GCTCTCTGACTACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTG
CCAACCTCGGAAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTT
ATCGACGAAGCCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAA
TGCGCTTTCCAAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTG
CTACGCTCACCTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGC
CCTGTTGTGCTGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAG
CCAGTTTGTCGTCAAGTAAGCCTCACATGTACACGGCGAAGGATTTGCAA
GCCTCATACTAACTGTTTCGCTCATCAGATGCGCAGAGGATGAGAAATTC
CTCCTGACATATGTTATTTTCAAGCTTCAGCTCATCAAGGGCAAAGTCAT
CATATTCGTCGGAGACATCGACCGTTGCTATCGCCTCAAGCTTTTCCTGG
AACAATTCGGCGTCAAGAGCTGTGTGCTCAACTCTGAGTTGCCAGTGAAC
TCCCGAATCCACGTCGTCCAGGAGTTCAACAAGGGTGTTTACGACATCAT
CATTGCTGCAGATGACCAAGAAGTCCTCGGATCTAAGTCTAAGAAGGCCA
AGAATGCCGGTGCCGATGAGGAGGAGGAAGCTGCTGGTGTCATGGGCTCG
AGTGATGACGAAGAGGCTGAAGACGACAAGAAGTCGAATCGTCCCGATAA
GCGCCGCAAGCTTACCGCGAAAGAAAAGGACTATGGTATCTCTCGTGGTA
TCGACTTCCAGAACGTGGCCTGCGTCTTGAACTTTGACCTCCCCACAACC
GCCAAATCCTACACACACCGCATTGGACGAACCGGCCGTGGCGGCAAGAC
CGGCATGGCGCTCTCGTTCGTCGTCCCGGCAGACCAGTACGGAAAGCACA
AACCCACTTCCTTCCCCACCGCCAAACATGATGAAGCCGTCCTGGCCAAG
ATCGTCAAACGACAATCCAAACATGGCCACGAAGTCAAGCCCTACCACTT
TGAGATGAGTCAAGTCGACGCCTTCCGCTACCGTATGACCGACGGTCTTC
GCGCCATCACCCGACTTGCCGTTCAGGAAGCCCGTGCTCGTGAGATCCGT
CAGGAGCTGGTCAAGAGCGAGAAACTGAAGCGCCACTTCGAAGACAACCC
CGATGAGCTGCGCCAGCTCCGTCACGATGGCGAGTTGCGCTCCGCACGTA
TCCAACCCCACCTCAAACACATCCCCGAATACCTGATGCCGTCCAAGGGT
CGCAAGGGCATTTCCAGTGAGGACGTCGGCTTCGTTGGGTTCCGGAAATC
CAGCGACAACCGTATCCGCAAGGCTAGAGATAAGAACCGCGCCAAGGGCA
AGGGCCGCAAGCCGTCAGGTGTTAGAAAGGTTGATCCGTTGAAGACGTTC
AATCGGGGTCGGAAATAG back to topCoding sequence (CDS) from alignment at ACJE01000010.1:1264604..1266721+ >ASPNIDRAFT_46984-T1 ID=ASPNIDRAFT_46984-T1|Name=ASPNIDRAFT_46984-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9495bp|location=Sequence derived from alignment at ACJE01000010.1:1264604..1266721+ (Aspergillus niger ATCC 1015)
ATGAGGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCT
TGAACTTGCATTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGA
CTAAGGAGACCTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTG
GATCCGCGACTGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTAC
GCCCGTCCAGGCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCC
TTGCTCGTGCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCT
ATTCTTCAGACCATTCTTCAGAAGAAAGCTGCCGACCCCTCGTTGAAAGC
CACCACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAACAGGTCC
AAAAAGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTCCGCTCT
GTGAACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTATGCTCTC
TGACTACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTGCCAACC
TCGGAAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTTATCGAC
GAAGCCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAATGCGCT
TTCCAAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTGCTACGC
TCACCTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGCCCTGTT
GTGCTGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAGCCAGTT
TGTCGTCAAATGCGCAGAGGATGAGAAATTCCTCCTGACATATGTTATTT
TCAAGCTTCAGCTCATCAAGGGCAAAGTCATCATATTCGTCGGAGACATC
GACCGTTGCTATCGCCTCAAGCTTTTCCTGGAACAATTCGGCGTCAAGAG
CTGTGTGCTCAACTCTGAGTTGCCAGTGAACTCCCGAATCCACGTCGTCC
AGGAGTTCAACAAGGGTGTTTACGACATCATCATTGCTGCAGATGACCAA
GAAGTCCTCGGATCTAAGTCTAAGAAGGCCAAGAATGCCGGTGCCGATGA
GGAGGAGGAAGCTGCTGGTGTCATGGGCTCGAGTGATGACGAAGAGGCTG
AAGACGACAAGAAGTCGAATCGTCCCGATAAGCGCCGCAAGCTTACCGCG
AAAGAAAAGGACTATGGTATCTCTCGTGGTATCGACTTCCAGAACGTGGC
CTGCGTCTTGAACTTTGACCTCCCCACAACCGCCAAATCCTACACACACC
GCATTGGACGAACCGGCCGTGGCGGCAAGACCGGCATGGCGCTCTCGTTC
GTCGTCCCGGCAGACCAGTACGGAAAGCACAAACCCACTTCCTTCCCCAC
CGCCAAACATGATGAAGCCGTCCTGGCCAAGATCGTCAAACGACAATCCA
AACATGGCCACGAAGTCAAGCCCTACCACTTTGAGATGAGTCAAGTCGAC
GCCTTCCGCTACCGTATGACCGACGGTCTTCGCGCCATCACCCGACTTGC
CGTTCAGGAAGCCCGTGCTCGTGAGATCCGTCAGGAGCTGGTCAAGAGCG
AGAAACTGAAGCGCCACTTCGAAGACAACCCCGATGAGCTGCGCCAGCTC
CGTCACGATGGCGAGTTGCGCTCCGCACGTATCCAACCCCACCTCAAACA
CATCCCCGAATACCTGATGCCGTCCAAGGGTCGCAAGGGCATTTCCAGTG
AGGACGTCGGCTTCGTTGGGTTCCGGAAATCCAGCGACAACCGTATCCGC
AAGGCTAGAGATAAGAACCGCGCCAAGGGCAAGGGCCGCAAGCCGTCAGG
TGTTAGAAAGGTTGATCCGTTGAAGACGTTCAATCGGGGTCGGAAATAGA
TGAGGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCTT
GAACTTGCATTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGAC
TAAGGAGACCTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTGG
ATCCGCGACTGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTACG
CCCGTCCAGGCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCCT
TGCTCGTGCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCTA
TTCTTCAGACCATTCTTCAGAAGAAAGCTGCCGACCCCTCGTTGAAAGCC
ACCACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAACAGGTCCA
AAAAGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTCCGCTCTG
TGAACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTATGCTCTCT
GACTACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTGCCAACCT
CGGAAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTTATCGACG
AAGCCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAATGCGCTT
TCCAAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTGCTACGCT
CACCTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGCCCTGTTG
TGCTGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAGCCAGTTT
GTCGTCAAATGCGCAGAGGATGAGAAATTCCTCCTGACATATGTTATTTT
CAAGCTTCAGCTCATCAAGGGCAAAGTCATCATATTCGTCGGAGACATCG
ACCGTTGCTATCGCCTCAAGCTTTTCCTGGAACAATTCGGCGTCAAGAGC
TGTGTGCTCAACTCTGAGTTGCCAGTGAACTCCCGAATCCACGTCGTCCA
GGAGTTCAACAAGGGTGTTTACGACATCATCATTGCTGCAGATGACCAAG
AAGTCCTCGGATCTAAGTCTAAGAAGGCCAAGAATGCCGGTGCCGATGAG
GAGGAGGAAGCTGCTGGTGTCATGGGCTCGAGTGATGACGAAGAGGCTGA
AGACGACAAGAAGTCGAATCGTCCCGATAAGCGCCGCAAGCTTACCGCGA
AAGAAAAGGACTATGGTATCTCTCGTGGTATCGACTTCCAGAACGTGGCC
TGCGTCTTGAACTTTGACCTCCCCACAACCGCCAAATCCTACACACACCG
CATTGGACGAACCGGCCGTGGCGGCAAGACCGGCATGGCGCTCTCGTTCG
TCGTCCCGGCAGACCAGTACGGAAAGCACAAACCCACTTCCTTCCCCACC
GCCAAACATGATGAAGCCGTCCTGGCCAAGATCGTCAAACGACAATCCAA
ACATGGCCACGAAGTCAAGCCCTACCACTTTGAGATGAGTCAAGTCGACG
CCTTCCGCTACCGTATGACCGACGGTCTTCGCGCCATCACCCGACTTGCC
GTTCAGGAAGCCCGTGCTCGTGAGATCCGTCAGGAGCTGGTCAAGAGCGA
GAAACTGAAGCGCCACTTCGAAGACAACCCCGATGAGCTGCGCCAGCTCC
GTCACGATGGCGAGTTGCGCTCCGCACGTATCCAACCCCACCTCAAACAC
ATCCCCGAATACCTGATGCCGTCCAAGGGTCGCAAGGGCATTTCCAGTGA
GGACGTCGGCTTCGTTGGGTTCCGGAAATCCAGCGACAACCGTATCCGCA
AGGCTAGAGATAAGAACCGCGCCAAGGGCAAGGGCCGCAAGCCGTCAGGT
GTTAGAAAGGTTGATCCGTTGAAGACGTTCAATCGGGGTCGGAAATAGAT
GAGGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCTTG
AACTTGCATTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGACT
AAGGAGACCTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTGGA
TCCGCGACTGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTACGC
CCGTCCAGGCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCCTT
GCTCGTGCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCTAT
TCTTCAGACCATTCTTCAGAAGAAAGCTGCCGACCCCTCGTTGAAAGCCA
CCACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAACAGGTCCAA
AAAGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTCCGCTCTGT
GAACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTATGCTCTCTG
ACTACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTGCCAACCTC
GGAAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTTATCGACGA
AGCCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAATGCGCTTT
CCAAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTGCTACGCTC
ACCTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGCCCTGTTGT
GCTGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAGCCAGTTTG
TCGTCAAATGCGCAGAGGATGAGAAATTCCTCCTGACATATGTTATTTTC
AAGCTTCAGCTCATCAAGGGCAAAGTCATCATATTCGTCGGAGACATCGA
CCGTTGCTATCGCCTCAAGCTTTTCCTGGAACAATTCGGCGTCAAGAGCT
GTGTGCTCAACTCTGAGTTGCCAGTGAACTCCCGAATCCACGTCGTCCAG
GAGTTCAACAAGGGTGTTTACGACATCATCATTGCTGCAGATGACCAAGA
AGTCCTCGGATCTAAGTCTAAGAAGGCCAAGAATGCCGGTGCCGATGAGG
AGGAGGAAGCTGCTGGTGTCATGGGCTCGAGTGATGACGAAGAGGCTGAA
GACGACAAGAAGTCGAATCGTCCCGATAAGCGCCGCAAGCTTACCGCGAA
AGAAAAGGACTATGGTATCTCTCGTGGTATCGACTTCCAGAACGTGGCCT
GCGTCTTGAACTTTGACCTCCCCACAACCGCCAAATCCTACACACACCGC
ATTGGACGAACCGGCCGTGGCGGCAAGACCGGCATGGCGCTCTCGTTCGT
CGTCCCGGCAGACCAGTACGGAAAGCACAAACCCACTTCCTTCCCCACCG
CCAAACATGATGAAGCCGTCCTGGCCAAGATCGTCAAACGACAATCCAAA
CATGGCCACGAAGTCAAGCCCTACCACTTTGAGATGAGTCAAGTCGACGC
CTTCCGCTACCGTATGACCGACGGTCTTCGCGCCATCACCCGACTTGCCG
TTCAGGAAGCCCGTGCTCGTGAGATCCGTCAGGAGCTGGTCAAGAGCGAG
AAACTGAAGCGCCACTTCGAAGACAACCCCGATGAGCTGCGCCAGCTCCG
TCACGATGGCGAGTTGCGCTCCGCACGTATCCAACCCCACCTCAAACACA
TCCCCGAATACCTGATGCCGTCCAAGGGTCGCAAGGGCATTTCCAGTGAG
GACGTCGGCTTCGTTGGGTTCCGGAAATCCAGCGACAACCGTATCCGCAA
GGCTAGAGATAAGAACCGCGCCAAGGGCAAGGGCCGCAAGCCGTCAGGTG
TTAGAAAGGTTGATCCGTTGAAGACGTTCAATCGGGGTCGGAAATAGATG
AGGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCTTGA
ACTTGCATTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGACTA
AGGAGACCTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTGGAT
CCGCGACTGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTACGCC
CGTCCAGGCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCCTTG
CTCGTGCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCTATT
CTTCAGACCATTCTTCAGAAGAAAGCTGCCGACCCCTCGTTGAAAGCCAC
CACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAACAGGTCCAAA
AAGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTCCGCTCTGTG
AACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTATGCTCTCTGA
CTACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTGCCAACCTCG
GAAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTTATCGACGAA
GCCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAATGCGCTTTC
CAAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTGCTACGCTCA
CCTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGCCCTGTTGTG
CTGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAGCCAGTTTGT
CGTCAAATGCGCAGAGGATGAGAAATTCCTCCTGACATATGTTATTTTCA
AGCTTCAGCTCATCAAGGGCAAAGTCATCATATTCGTCGGAGACATCGAC
CGTTGCTATCGCCTCAAGCTTTTCCTGGAACAATTCGGCGTCAAGAGCTG
TGTGCTCAACTCTGAGTTGCCAGTGAACTCCCGAATCCACGTCGTCCAGG
AGTTCAACAAGGGTGTTTACGACATCATCATTGCTGCAGATGACCAAGAA
GTCCTCGGATCTAAGTCTAAGAAGGCCAAGAATGCCGGTGCCGATGAGGA
GGAGGAAGCTGCTGGTGTCATGGGCTCGAGTGATGACGAAGAGGCTGAAG
ACGACAAGAAGTCGAATCGTCCCGATAAGCGCCGCAAGCTTACCGCGAAA
GAAAAGGACTATGGTATCTCTCGTGGTATCGACTTCCAGAACGTGGCCTG
CGTCTTGAACTTTGACCTCCCCACAACCGCCAAATCCTACACACACCGCA
TTGGACGAACCGGCCGTGGCGGCAAGACCGGCATGGCGCTCTCGTTCGTC
GTCCCGGCAGACCAGTACGGAAAGCACAAACCCACTTCCTTCCCCACCGC
CAAACATGATGAAGCCGTCCTGGCCAAGATCGTCAAACGACAATCCAAAC
ATGGCCACGAAGTCAAGCCCTACCACTTTGAGATGAGTCAAGTCGACGCC
TTCCGCTACCGTATGACCGACGGTCTTCGCGCCATCACCCGACTTGCCGT
TCAGGAAGCCCGTGCTCGTGAGATCCGTCAGGAGCTGGTCAAGAGCGAGA
AACTGAAGCGCCACTTCGAAGACAACCCCGATGAGCTGCGCCAGCTCCGT
CACGATGGCGAGTTGCGCTCCGCACGTATCCAACCCCACCTCAAACACAT
CCCCGAATACCTGATGCCGTCCAAGGGTCGCAAGGGCATTTCCAGTGAGG
ACGTCGGCTTCGTTGGGTTCCGGAAATCCAGCGACAACCGTATCCGCAAG
GCTAGAGATAAGAACCGCGCCAAGGGCAAGGGCCGCAAGCCGTCAGGTGT
TAGAAAGGTTGATCCGTTGAAGACGTTCAATCGGGGTCGGAAATAGATGA
GGAAAACTTTCCAGTCGTTCACCAGCTTCCCCAGACTCTCTTCCCTTGAA
CTTGCATTGGATGCTAACGATGTTCCCTCCCCCGAAGTTGCGGAGACTAA
GGAGACCTCCGATGCGGACGAGGCCGACTTTGAAAGCCTCAACCTGGATC
CGCGACTGCGCCAAGCCTTGATCAAAGAGAAGTTCACCAAGCCTACGCCC
GTCCAGGCCAAGGCTATTCCTCTGGCGCTCGCAGGCAAAGATATCCTTGC
TCGTGCAAAGACCGGCTCCGGAAAGACCGCCGCATATGTCCTCCCTATTC
TTCAGACCATTCTTCAGAAGAAAGCTGCCGACCCCTCGTTGAAAGCCACC
ACTGGCCTCATCCTCGTCCCCACTCGAGAGCTTGCAGAACAGGTCCAAAA
AGTCGTCACCACATTCGCTGCTTTCTGCGGAAAGGATGTCCGCTCTGTGA
ACTTGACTCAGAAGGTTTCCGAGGCCGTACAGCGGACTATGCTCTCTGAC
TACCCTGATATCGTCATCTCCACCCCCGCTCGTGTGATTGCCAACCTCGG
AAACTCCTCTCTTTCGCTGGATAACCTGACGCACCTCGTTATCGACGAAG
CCGACTTGGTCCTTTCATACGGATACGATGAAGACATCAATGCGCTTTCC
AAGGCGATCCCCCGTGGCGTACAGACCTTCCTCATGAGTGCTACGCTCAC
CTCGGAAGTGGATACCTTGAAGGGATTGTTCTGTCGCAGCCCTGTTGTGC
TGAAGTTGGAGGATAAGGAGGAGAAAGGCGCCGGTGTTAGCCAGTTTGTC
GTCAAATGCGCAGAGGATGAGAAATTCCTCCTGACATATGTTATTTTCAA
GCTTCAGCTCATCAAGGGCAAAGTCATCATATTCGTCGGAGACATCGACC
GTTGCTATCGCCTCAAGCTTTTCCTGGAACAATTCGGCGTCAAGAGCTGT
GTGCTCAACTCTGAGTTGCCAGTGAACTCCCGAATCCACGTCGTCCAGGA
GTTCAACAAGGGTGTTTACGACATCATCATTGCTGCAGATGACCAAGAAG
TCCTCGGATCTAAGTCTAAGAAGGCCAAGAATGCCGGTGCCGATGAGGAG
GAGGAAGCTGCTGGTGTCATGGGCTCGAGTGATGACGAAGAGGCTGAAGA
CGACAAGAAGTCGAATCGTCCCGATAAGCGCCGCAAGCTTACCGCGAAAG
AAAAGGACTATGGTATCTCTCGTGGTATCGACTTCCAGAACGTGGCCTGC
GTCTTGAACTTTGACCTCCCCACAACCGCCAAATCCTACACACACCGCAT
TGGACGAACCGGCCGTGGCGGCAAGACCGGCATGGCGCTCTCGTTCGTCG
TCCCGGCAGACCAGTACGGAAAGCACAAACCCACTTCCTTCCCCACCGCC
AAACATGATGAAGCCGTCCTGGCCAAGATCGTCAAACGACAATCCAAACA
TGGCCACGAAGTCAAGCCCTACCACTTTGAGATGAGTCAAGTCGACGCCT
TCCGCTACCGTATGACCGACGGTCTTCGCGCCATCACCCGACTTGCCGTT
CAGGAAGCCCGTGCTCGTGAGATCCGTCAGGAGCTGGTCAAGAGCGAGAA
ACTGAAGCGCCACTTCGAAGACAACCCCGATGAGCTGCGCCAGCTCCGTC
ACGATGGCGAGTTGCGCTCCGCACGTATCCAACCCCACCTCAAACACATC
CCCGAATACCTGATGCCGTCCAAGGGTCGCAAGGGCATTTCCAGTGAGGA
CGTCGGCTTCGTTGGGTTCCGGAAATCCAGCGACAACCGTATCCGCAAGG
CTAGAGATAAGAACCGCGCCAAGGGCAAGGGCCGCAAGCCGTCAGGTGTT
AGAAAGGTTGATCCGTTGAAGACGTTCAATCGGGGTCGGAAATAG 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 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 | antiSMASH:Cluster_10000101.3 |
| Note | SMCOG1122:ATP-dependent RNA helicase |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR014014 |
| DBxref | InterPro:IPR011545 |
| DBxref | InterPro:IPR001650 |
| DBxref | InterPro:IPR014001 |
| DBxref | PFAM:PF04851 |
| DBxref | PFAM:PF00271 |
| DBxref | PFAM:PF00270 |
| Product | ATP-dependent DNA/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 |
|---|
| ACJE01000010.1 | supercontig | ACJE01000010.1:1264604..1266721 + |
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