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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000006.1:564945..567792+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_186220-T1 ID=ASPNIDRAFT_186220-T1|Name=ASPNIDRAFT_186220-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2848bp|location=Sequence derived from alignment at ACJE01000006.1:564945..567792+ (Aspergillus niger ATCC 1015)
ATGGCAGATTCAAAAAGCAGGAAGCAAGCTACCCTGGGGTATGTTCGGGA
TTCCCAGTTGACTCTTGGGTGCGTCTGTAACTGGACCTCGGATGCATCTG
GAAGTCCTATTCGTTTGGATGCTAACACCGGCTCAATTAATAGGCGATTT
TTCGGCTCGAACTCAGACCCCAAAGAAGCTCCCAAGAAGCAGACAACGCT
ATCATTTTCGAACAAGAAGAGCAAGTCCGCCAAAAAAGATAGTGAATCGG
AAACGGCGCAAGATCCGGAACCCGTCAATGGACATGGAACTAGTGGAGAT
GCGAATGGTGGTGCTGACACGGTAGACTCAGCCATCAAGTCGAAGCAAGA
GGCTGTCAAGGCAGACGAGCCTGTCGATCAGAACAAATTGAAGAGAGAAA
ACAGCAGTGAGGATGAAGATAGTGATGTCCAGCCTGTCAGCAAGCGCCGC
CGCAAGACATCCCGAGGGGACGAAGCTGCCTCCTCTCCCAAACGAAAATC
CCCATCACCTAAAAGCCCCAAGAAGCGGTCGCAGTCAAGAGAGCGCTCGC
CGCCAGCTGTCATCGAGAAGGCATCAGGCGAGAAAACACCGCAAAAAGAA
TTGAGCGTCTCGGATGACGAAGCTGCACAGTCTGCCAGTGAGGACGAAGA
GAAGCCCGAAGTGAAGAAGAAAAAGATTGAGAAGGCTCAGGCTACGTTGA
AGGCTGCTGGAAATGAGCCTTATCCGGATTGGAAAGCTGGCGACCCAGTT
CCGTATGCCGCGCTCTGCACGACCTTTTCCCTTATCGAGATGACCACGAA
GCGATTAGTGATCTTGGCTCATTGCTCTCTGTTCCTTCGCCAAGTATTGC
GACTCACACCCCAAGATCTTCTCCCTACTGTTCAACTTATGATCAACAAG
CTGGCCGCGGATTATGCTGGAATTGAACTGGGCATCGGCGAGTCTTTGAT
TATGAAGGCTATTGGCGAGAGTACCGGACGTAGTCTGGCAGTGATTAAGA
CAGACCAACATGAAATCGGAGATCTTGGCTTGGTGGCCGCCAAGAGTCGG
TCTAACCAGCCAACTATGTTCAAGCCGAAGCCATTGACTGTTCGCGGAGT
GCACGAAGGTCTCCTTGGTATTGCCAAGGTCCAGGGCCATGGTTCCCAGG
ATAAGAAGATTTCCGGTATCAAAAAGCTGCTGTCGGCAGCCGACGCAGCA
ACAGCAGGTAAAGGAAGCAAAGGCATTGATATCACCAAGGACAAAGGCGG
ACCTAGTGAAGCCAAGTACATTGTTCGATTCTTAGAAGGAAAGCTCAGAC
TTGGACTGGCTGAAAAGACCGTGCTTGTTGCCCTTGCCCAAGCTGTCGTC
GCACACGAGGCCGCTATGGAGGGCCACAAGACTCCCTCTGCCGAGAAATT
GGCCGAAGGTGAGGCCATTCTGAAGACTGTTTACAGCGAACTGCCGGCGT
ATGAAGTGATTATACCAGCCATCCTCGAGCATGGCCTCTCCAACTTGCCA
AAGGTTTGCAAGCTGCAGCCGGGTATTCCCCTCAAACCCATGCTTGCCAA
ACCCACCAAGTCTATCACTGAAGTGCTTGACCGGTTTGAAGGAAAGGAGT
TCACCTGCGAGTACAAGTATGACGGGGAACGAGCACAAATCCACTACGTC
GCTCCTGACTCGATCCATCAATATCCGGGTGCGACAGCCACCTTGAAGAA
AGATGCCAAGGGTCTCAGTGCGATCTTTTCGCGTAATTCTGAAGACCTAT
CGAAGAAATACCCTGACGTTCTAGCCAAGCTTGATGGCTGGATCAAAGAG
GGCGTTCAAAGCTTTGTACTAGACTGCGAGACTGTTGCTTGGGATACGGA
GAACAAGAAGGTTCTGCCATTCCAACAACTCATGACTCGCAAGAGGAAGG
ATGTCAAAGCGGAAGATGTCAAGGTCAAGGTTTGCATATTCGCCTTTGAC
CTTCTATTCCTGAATGGCGAGGTAAGTTGTACGTAGCAGCTGCGTTTCTA
CTTTGCTGACGGTCAGGGTAGCCTACAGTTAAGAAGTCCCTACGAGAACG
CCGTGAGCTGTTACATGAATCCTTTCAGGTGACTGAAGGAGAATTCCAGT
TCGCTCAGTACGGCAACACCAACGTACTGGATGAAATCCAGACTTTACTT
GATGACAGTGTGAAGGCATCGTGTGAAGGTCTGATGGTCAAAATGTTGGA
CACGGAGGAAAGTGGCTACGAGCCTAGTAAACGAAGTCGGAATTGGCTCA
AGGTAAGCCTCACTTGATAGAATCGACGATCTGTCTACTGACAACGGACT
AGGTCAAGAAGGACTACCTCAGTGGGGTTGGTGACTCTCTCGATCTTGTT
GTACTAGGTGCCTATCATGGCCGAGGCAAGCGCACATCGGTCTACGGTGC
GTTCCTTTTGGCTGCGTACAACTCGAGTACACAAACATATGAGACGATCT
GCAACATCGGCACAGGATTCTCGGAAGCGGTCCTGGAAGAGTTCTACAAT
GCACTCTCCCCTTTGACGATTGATCGGCCCAAGCCCTTCTACTCCCATTC
AAACGTACCCAAGGACCAGCCCGATGTATGGTTCGAACCGCGGTTAGTGT
GGGAGGTCAAGACTGCGGATCTGACGCTCAGTCCTCGATACAAGGCAGCG
GCAGATGAATTTATGGGAACGACTGGGGGAGGAAAGGGCGTATCTCTTCG
CTTTCCCCGATTCATCAAGTCCCGAGACGATAAGAAGCCCGAGCAGGCAA
CGACCACGCGGGCCGTGGCGGAGATGTACCGCAAGCAAGAAGCGGTCCAG
AAGGAGAATGCTGGCAAGGGAGGAGTGGATGATGATTTCGAGTACTGA back to topCoding sequence (CDS) from alignment at ACJE01000006.1:564945..567792+ >ASPNIDRAFT_186220-T1 ID=ASPNIDRAFT_186220-T1|Name=ASPNIDRAFT_186220-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8244bp|location=Sequence derived from alignment at ACJE01000006.1:564945..567792+ (Aspergillus niger ATCC 1015)
ATGGCAGATTCAAAAAGCAGGAAGCAAGCTACCCTGGGGTATGTTCGGGA
TTCCCAGTTGACTCTTGGGTGCGTCTGTAACTGGACCTCGGATGCATCTG
GAAGTCCTATTCGTTTGGATGCTAACACCGGCTCAATTAATAGGCGATTT
TTCGGCTCGAACTCAGACCCCAAAGAAGCTCCCAAGAAGCAGACAACGCT
ATCATTTTCGAACAAGAAGAGCAAGTCCGCCAAAAAAGATAGTGAATCGG
AAACGGCGCAAGATCCGGAACCCGTCAATGGACATGGAACTAGTGGAGAT
GCGAATGGTGGTGCTGACACGGTAGACTCAGCCATCAAGTCGAAGCAAGA
GGCTGTCAAGGCAGACGAGCCTGTCGATCAGAACAAATTGAAGAGAGAAA
ACAGCAGTGAGGATGAAGATAGTGATGTCCAGCCTGTCAGCAAGCGCCGC
CGCAAGACATCCCGAGGGGACGAAGCTGCCTCCTCTCCCAAACGAAAATC
CCCATCACCTAAAAGCCCCAAGAAGCGGTCGCAGTCAAGAGAGCGCTCGC
CGCCAGCTGTCATCGAGAAGGCATCAGGCGAGAAAACACCGCAAAAAGAA
TTGAGCGTCTCGGATGACGAAGCTGCACAGTCTGCCAGTGAGGACGAAGA
GAAGCCCGAAGTGAAGAAGAAAAAGATTGAGAAGGCTCAGGCTACGTTGA
AGGCTGCTGGAAATGAGCCTTATCCGGATTGGAAAGCTGGCGACCCAGTT
CCGTATGCCGCGCTCTGCACGACCTTTTCCCTTATCGAGATGACCACGAA
GCGATTAGTGATCTTGGCTCATTGCTCTCTGTTCCTTCGCCAAGTATTGC
GACTCACACCCCAAGATCTTCTCCCTACTGTTCAACTTATGATCAACAAG
CTGGCCGCGGATTATGCTGGAATTGAACTGGGCATCGGCGAGTCTTTGAT
TATGAAGGCTATTGGCGAGAGTACCGGACGTAGTCTGGCAGTGATTAAGA
CAGACCAACATGAAATCGGAGATCTTGGCTTGGTGGCCGCCAAGAGTCGG
TCTAACCAGCCAACTATGTTCAAGCCGAAGCCATTGACTGTTCGCGGAGT
GCACGAAGGTCTCCTTGGTATTGCCAAGGTCCAGGGCCATGGTTCCCAGG
ATAAGAAGATTTCCGGTATCAAAAAGCTGCTGTCGGCAGCCGACGCAGCA
ACAGCAGGTAAAGGAAGCAAAGGCATTGATATCACCAAGGACAAAGGCGG
ACCTAGTGAAGCCAAGTACATTGTTCGATTCTTAGAAGGAAAGCTCAGAC
TTGGACTGGCTGAAAAGACCGTGCTTGTTGCCCTTGCCCAAGCTGTCGTC
GCACACGAGGCCGCTATGGAGGGCCACAAGACTCCCTCTGCCGAGAAATT
GGCCGAAGGTGAGGCCATTCTGAAGACTGTTTACAGCGAACTGCCGGCGT
ATGAAGTGATTATACCAGCCATCCTCGAGCATGGCCTCTCCAACTTGCCA
AAGGTTTGCAAGCTGCAGCCGGGTATTCCCCTCAAACCCATGCTTGCCAA
ACCCACCAAGTCTATCACTGAAGTGCTTGACCGGTTTGAAGGAAAGGAGT
TCACCTGCGAGTACAAGTATGACGGGGAACGAGCACAAATCCACTACGTC
GCTCCTGACTCGATCCATCAATATCCGGGTGCGACAGCCACCTTGAAGAA
AGATGCCAAGGGTCTCAGTGCGATCTTTTCGCGTAATTCTGAAGACCTAT
CGAAGAAATACCCTGACGTTCTAGCCAAGCTTGATGGCTGGATCAAAGAG
GGCGTTCAAAGCTTTGTACTAGACTGCGAGACTGTTGCTTGGGATACGGA
GAACAAGAAGGTTCTGCCATTCCAACAACTCATGACTCGCAAGAGGAAGG
ATGTCAAAGCGGAAGATGTCAAGGTCAAGGTTTGCATATTCGCCTTTGAC
CTTCTATTCCTGAATGGCGAGCCTACAGTTAAGAAGTCCCTACGAGAACG
CCGTGAGCTGTTACATGAATCCTTTCAGGTGACTGAAGGAGAATTCCAGT
TCGCTCAGTACGGCAACACCAACGTACTGGATGAAATCCAGACTTTACTT
GATGACAGTGTGAAGGCATCGTGTGAAGGTCTGATGGTCAAAATGTTGGA
CACGGAGGAAAGTGGCTACGAGCCTAGTAAACGAAGTCGGAATTGGCTCA
AGGTCAAGAAGGACTACCTCAGTGGGGTTGGTGACTCTCTCGATCTTGTT
GTACTAGGTGCCTATCATGGCCGAGGCAAGCGCACATCGGTCTACGGTGC
GTTCCTTTTGGCTGCGTACAACTCGAGTACACAAACATATGAGACGATCT
GCAACATCGGCACAGGATTCTCGGAAGCGGTCCTGGAAGAGTTCTACAAT
GCACTCTCCCCTTTGACGATTGATCGGCCCAAGCCCTTCTACTCCCATTC
AAACGTACCCAAGGACCAGCCCGATGTATGGTTCGAACCGCGGTTAGTGT
GGGAGGTCAAGACTGCGGATCTGACGCTCAGTCCTCGATACAAGGCAGCG
GCAGATGAATTTATGGGAACGACTGGGGGAGGAAAGGGCGTATCTCTTCG
CTTTCCCCGATTCATCAAGTCCCGAGACGATAAGAAGCCCGAGCAGGCAA
CGACCACGCGGGCCGTGGCGGAGATGTACCGCAAGCAAGAAGCGGTCCAG
AAGGAGAATGCTGGCAAGGGAGGAGTGGATGATGATTTCGAGTACTGAAT
GGCAGATTCAAAAAGCAGGAAGCAAGCTACCCTGGGGTATGTTCGGGATT
CCCAGTTGACTCTTGGGTGCGTCTGTAACTGGACCTCGGATGCATCTGGA
AGTCCTATTCGTTTGGATGCTAACACCGGCTCAATTAATAGGCGATTTTT
CGGCTCGAACTCAGACCCCAAAGAAGCTCCCAAGAAGCAGACAACGCTAT
CATTTTCGAACAAGAAGAGCAAGTCCGCCAAAAAAGATAGTGAATCGGAA
ACGGCGCAAGATCCGGAACCCGTCAATGGACATGGAACTAGTGGAGATGC
GAATGGTGGTGCTGACACGGTAGACTCAGCCATCAAGTCGAAGCAAGAGG
CTGTCAAGGCAGACGAGCCTGTCGATCAGAACAAATTGAAGAGAGAAAAC
AGCAGTGAGGATGAAGATAGTGATGTCCAGCCTGTCAGCAAGCGCCGCCG
CAAGACATCCCGAGGGGACGAAGCTGCCTCCTCTCCCAAACGAAAATCCC
CATCACCTAAAAGCCCCAAGAAGCGGTCGCAGTCAAGAGAGCGCTCGCCG
CCAGCTGTCATCGAGAAGGCATCAGGCGAGAAAACACCGCAAAAAGAATT
GAGCGTCTCGGATGACGAAGCTGCACAGTCTGCCAGTGAGGACGAAGAGA
AGCCCGAAGTGAAGAAGAAAAAGATTGAGAAGGCTCAGGCTACGTTGAAG
GCTGCTGGAAATGAGCCTTATCCGGATTGGAAAGCTGGCGACCCAGTTCC
GTATGCCGCGCTCTGCACGACCTTTTCCCTTATCGAGATGACCACGAAGC
GATTAGTGATCTTGGCTCATTGCTCTCTGTTCCTTCGCCAAGTATTGCGA
CTCACACCCCAAGATCTTCTCCCTACTGTTCAACTTATGATCAACAAGCT
GGCCGCGGATTATGCTGGAATTGAACTGGGCATCGGCGAGTCTTTGATTA
TGAAGGCTATTGGCGAGAGTACCGGACGTAGTCTGGCAGTGATTAAGACA
GACCAACATGAAATCGGAGATCTTGGCTTGGTGGCCGCCAAGAGTCGGTC
TAACCAGCCAACTATGTTCAAGCCGAAGCCATTGACTGTTCGCGGAGTGC
ACGAAGGTCTCCTTGGTATTGCCAAGGTCCAGGGCCATGGTTCCCAGGAT
AAGAAGATTTCCGGTATCAAAAAGCTGCTGTCGGCAGCCGACGCAGCAAC
AGCAGGTAAAGGAAGCAAAGGCATTGATATCACCAAGGACAAAGGCGGAC
CTAGTGAAGCCAAGTACATTGTTCGATTCTTAGAAGGAAAGCTCAGACTT
GGACTGGCTGAAAAGACCGTGCTTGTTGCCCTTGCCCAAGCTGTCGTCGC
ACACGAGGCCGCTATGGAGGGCCACAAGACTCCCTCTGCCGAGAAATTGG
CCGAAGGTGAGGCCATTCTGAAGACTGTTTACAGCGAACTGCCGGCGTAT
GAAGTGATTATACCAGCCATCCTCGAGCATGGCCTCTCCAACTTGCCAAA
GGTTTGCAAGCTGCAGCCGGGTATTCCCCTCAAACCCATGCTTGCCAAAC
CCACCAAGTCTATCACTGAAGTGCTTGACCGGTTTGAAGGAAAGGAGTTC
ACCTGCGAGTACAAGTATGACGGGGAACGAGCACAAATCCACTACGTCGC
TCCTGACTCGATCCATCAATATCCGGGTGCGACAGCCACCTTGAAGAAAG
ATGCCAAGGGTCTCAGTGCGATCTTTTCGCGTAATTCTGAAGACCTATCG
AAGAAATACCCTGACGTTCTAGCCAAGCTTGATGGCTGGATCAAAGAGGG
CGTTCAAAGCTTTGTACTAGACTGCGAGACTGTTGCTTGGGATACGGAGA
ACAAGAAGGTTCTGCCATTCCAACAACTCATGACTCGCAAGAGGAAGGAT
GTCAAAGCGGAAGATGTCAAGGTCAAGGTTTGCATATTCGCCTTTGACCT
TCTATTCCTGAATGGCGAGCCTACAGTTAAGAAGTCCCTACGAGAACGCC
GTGAGCTGTTACATGAATCCTTTCAGGTGACTGAAGGAGAATTCCAGTTC
GCTCAGTACGGCAACACCAACGTACTGGATGAAATCCAGACTTTACTTGA
TGACAGTGTGAAGGCATCGTGTGAAGGTCTGATGGTCAAAATGTTGGACA
CGGAGGAAAGTGGCTACGAGCCTAGTAAACGAAGTCGGAATTGGCTCAAG
GTCAAGAAGGACTACCTCAGTGGGGTTGGTGACTCTCTCGATCTTGTTGT
ACTAGGTGCCTATCATGGCCGAGGCAAGCGCACATCGGTCTACGGTGCGT
TCCTTTTGGCTGCGTACAACTCGAGTACACAAACATATGAGACGATCTGC
AACATCGGCACAGGATTCTCGGAAGCGGTCCTGGAAGAGTTCTACAATGC
ACTCTCCCCTTTGACGATTGATCGGCCCAAGCCCTTCTACTCCCATTCAA
ACGTACCCAAGGACCAGCCCGATGTATGGTTCGAACCGCGGTTAGTGTGG
GAGGTCAAGACTGCGGATCTGACGCTCAGTCCTCGATACAAGGCAGCGGC
AGATGAATTTATGGGAACGACTGGGGGAGGAAAGGGCGTATCTCTTCGCT
TTCCCCGATTCATCAAGTCCCGAGACGATAAGAAGCCCGAGCAGGCAACG
ACCACGCGGGCCGTGGCGGAGATGTACCGCAAGCAAGAAGCGGTCCAGAA
GGAGAATGCTGGCAAGGGAGGAGTGGATGATGATTTCGAGTACTGAATGG
CAGATTCAAAAAGCAGGAAGCAAGCTACCCTGGGGTATGTTCGGGATTCC
CAGTTGACTCTTGGGTGCGTCTGTAACTGGACCTCGGATGCATCTGGAAG
TCCTATTCGTTTGGATGCTAACACCGGCTCAATTAATAGGCGATTTTTCG
GCTCGAACTCAGACCCCAAAGAAGCTCCCAAGAAGCAGACAACGCTATCA
TTTTCGAACAAGAAGAGCAAGTCCGCCAAAAAAGATAGTGAATCGGAAAC
GGCGCAAGATCCGGAACCCGTCAATGGACATGGAACTAGTGGAGATGCGA
ATGGTGGTGCTGACACGGTAGACTCAGCCATCAAGTCGAAGCAAGAGGCT
GTCAAGGCAGACGAGCCTGTCGATCAGAACAAATTGAAGAGAGAAAACAG
CAGTGAGGATGAAGATAGTGATGTCCAGCCTGTCAGCAAGCGCCGCCGCA
AGACATCCCGAGGGGACGAAGCTGCCTCCTCTCCCAAACGAAAATCCCCA
TCACCTAAAAGCCCCAAGAAGCGGTCGCAGTCAAGAGAGCGCTCGCCGCC
AGCTGTCATCGAGAAGGCATCAGGCGAGAAAACACCGCAAAAAGAATTGA
GCGTCTCGGATGACGAAGCTGCACAGTCTGCCAGTGAGGACGAAGAGAAG
CCCGAAGTGAAGAAGAAAAAGATTGAGAAGGCTCAGGCTACGTTGAAGGC
TGCTGGAAATGAGCCTTATCCGGATTGGAAAGCTGGCGACCCAGTTCCGT
ATGCCGCGCTCTGCACGACCTTTTCCCTTATCGAGATGACCACGAAGCGA
TTAGTGATCTTGGCTCATTGCTCTCTGTTCCTTCGCCAAGTATTGCGACT
CACACCCCAAGATCTTCTCCCTACTGTTCAACTTATGATCAACAAGCTGG
CCGCGGATTATGCTGGAATTGAACTGGGCATCGGCGAGTCTTTGATTATG
AAGGCTATTGGCGAGAGTACCGGACGTAGTCTGGCAGTGATTAAGACAGA
CCAACATGAAATCGGAGATCTTGGCTTGGTGGCCGCCAAGAGTCGGTCTA
ACCAGCCAACTATGTTCAAGCCGAAGCCATTGACTGTTCGCGGAGTGCAC
GAAGGTCTCCTTGGTATTGCCAAGGTCCAGGGCCATGGTTCCCAGGATAA
GAAGATTTCCGGTATCAAAAAGCTGCTGTCGGCAGCCGACGCAGCAACAG
CAGGTAAAGGAAGCAAAGGCATTGATATCACCAAGGACAAAGGCGGACCT
AGTGAAGCCAAGTACATTGTTCGATTCTTAGAAGGAAAGCTCAGACTTGG
ACTGGCTGAAAAGACCGTGCTTGTTGCCCTTGCCCAAGCTGTCGTCGCAC
ACGAGGCCGCTATGGAGGGCCACAAGACTCCCTCTGCCGAGAAATTGGCC
GAAGGTGAGGCCATTCTGAAGACTGTTTACAGCGAACTGCCGGCGTATGA
AGTGATTATACCAGCCATCCTCGAGCATGGCCTCTCCAACTTGCCAAAGG
TTTGCAAGCTGCAGCCGGGTATTCCCCTCAAACCCATGCTTGCCAAACCC
ACCAAGTCTATCACTGAAGTGCTTGACCGGTTTGAAGGAAAGGAGTTCAC
CTGCGAGTACAAGTATGACGGGGAACGAGCACAAATCCACTACGTCGCTC
CTGACTCGATCCATCAATATCCGGGTGCGACAGCCACCTTGAAGAAAGAT
GCCAAGGGTCTCAGTGCGATCTTTTCGCGTAATTCTGAAGACCTATCGAA
GAAATACCCTGACGTTCTAGCCAAGCTTGATGGCTGGATCAAAGAGGGCG
TTCAAAGCTTTGTACTAGACTGCGAGACTGTTGCTTGGGATACGGAGAAC
AAGAAGGTTCTGCCATTCCAACAACTCATGACTCGCAAGAGGAAGGATGT
CAAAGCGGAAGATGTCAAGGTCAAGGTTTGCATATTCGCCTTTGACCTTC
TATTCCTGAATGGCGAGCCTACAGTTAAGAAGTCCCTACGAGAACGCCGT
GAGCTGTTACATGAATCCTTTCAGGTGACTGAAGGAGAATTCCAGTTCGC
TCAGTACGGCAACACCAACGTACTGGATGAAATCCAGACTTTACTTGATG
ACAGTGTGAAGGCATCGTGTGAAGGTCTGATGGTCAAAATGTTGGACACG
GAGGAAAGTGGCTACGAGCCTAGTAAACGAAGTCGGAATTGGCTCAAGGT
CAAGAAGGACTACCTCAGTGGGGTTGGTGACTCTCTCGATCTTGTTGTAC
TAGGTGCCTATCATGGCCGAGGCAAGCGCACATCGGTCTACGGTGCGTTC
CTTTTGGCTGCGTACAACTCGAGTACACAAACATATGAGACGATCTGCAA
CATCGGCACAGGATTCTCGGAAGCGGTCCTGGAAGAGTTCTACAATGCAC
TCTCCCCTTTGACGATTGATCGGCCCAAGCCCTTCTACTCCCATTCAAAC
GTACCCAAGGACCAGCCCGATGTATGGTTCGAACCGCGGTTAGTGTGGGA
GGTCAAGACTGCGGATCTGACGCTCAGTCCTCGATACAAGGCAGCGGCAG
ATGAATTTATGGGAACGACTGGGGGAGGAAAGGGCGTATCTCTTCGCTTT
CCCCGATTCATCAAGTCCCGAGACGATAAGAAGCCCGAGCAGGCAACGAC
CACGCGGGCCGTGGCGGAGATGTACCGCAAGCAAGAAGCGGTCCAGAAGG
AGAATGCTGGCAAGGGAGGAGTGGATGATGATTTCGAGTACTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0051103 | DNA ligation involved in DNA repair |
| GO:0071897 | DNA biosynthetic process |
| GO:0006310 | DNA recombination |
| GO:0006281 | DNA repair |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003909 | DNA ligase activity |
| GO:0003677 | DNA binding |
| GO:0005524 | ATP binding |
| GO:0003910 | DNA ligase (ATP) activity |
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:IPR012340 |
| DBxref | InterPro:IPR016059 |
| DBxref | InterPro:IPR012308 |
| DBxref | InterPro:IPR012309 |
| DBxref | InterPro:IPR000977 |
| DBxref | InterPro:IPR036599 |
| DBxref | InterPro:IPR012310 |
| DBxref | PFAM:PF04675 |
| DBxref | PFAM:PF01068 |
| DBxref | PFAM:PF04679 |
| 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 |
|---|
| ACJE01000006.1 | supercontig | ACJE01000006.1:564945..567792 + |
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