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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000015.1:1056687..1058831- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_213531-T1 ID=ASPNIDRAFT_213531-T1|Name=ASPNIDRAFT_213531-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2145bp|location=Sequence derived from alignment at ACJE01000015.1:1056687..1058831- (Aspergillus niger ATCC 1015)
ATGTCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCGTTCTTGA
CACGACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGACCGCATCT
CGAAATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGCCGGTGTT
GCTGTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCGACTCGAG
TCGGACTACCCCGGCCCCTCCCACAGAGAAGAAGAAGAGTAAGAACCAGA
GAAGAAAGGAGAAGAAGAAGGCAGAAGAGGAGAAGAAGGCCAAGGCTGCC
TCCGTTCAAGAGGGTATGTCGATGAGAACCACACTCTGCCTCTCCCGTCG
ACAAGCATCCGGTTCGGGCTGACGATCTCCTTAGAGCCTGCGGCGAAGAA
GCCGGAGGAAGCCTCCGAAGAACTTCCAGAAGTTGACGAGGAATCCGTTG
CACAGCTGTCGGAAGAGGTGAGTCATTGGTCTTTTACAATGGAAACACCC
AGGCGCCGATACCGCAAATGCTAACACCCGTTTCAAAGACAAGGAAGGCT
TACGCAGCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGA
CTACAACAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCG
ACCCAGTCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTCGGAG
TGGGAGAAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACAGCGA
GTACGTCAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTGGAGA
AGTTCAGCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGACGGC
TTCTCCAACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGT
TGCTGAGAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCC
CTAGCCCGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCA
CTGCCCGAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAA
GGGCCAACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGTGATG
GCTATGAGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGAC
TTGGGTGAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCACCTA
TCTCGAGGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGTGTTG
AGTTGCAGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTTGCAC
CTCGAGCTCGGTATGTCAAACGCCGTTCTTTATGGTAGATGCTTTGCTGA
CAGATCGAAAAGGAAACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCC
ATCACCCACAACAAGGATGACCCCGACATCTACTACCACCGCGCCCAGCT
TCACTTCATTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAAT
CCATCGATCTCGACCGTACTTTCATCTACTCCCACATCCAACTTGGTGTT
ACGCAGTATAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAG
ATCCGTGAAGAACTTTGAAGAAGTGCCCGATGTCTACAACTACTACGGTG
AACTTCTTCTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGAC
AAGGCCGTGGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCT
GCCCCTGATCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCC
AGGAGGCTGAGAACCTCTGCCAGAAAGCCCTGATCAGTAAGTCTTGCGGT
CCTTCGCTATAAAGTGGTGAGAGCTTGGAACACTAACCGGCTTGCAGTTG
ATCCTGAATGCGATATCGCCGTAGGAACGATGGCGCAGCTTCTGCTGCAG
CAGGGCAAGGTCTCGCAGGCCCTCAAGTACTTTGAGCGTGCCGCTGAGCT
TGCTCGTACCGAGGCGGAGATTATCAATGCCATCTCCTATGCTGAGGCCA
CCCGCACGCAGCTGGAGGTCCAGGAGAAGTACCCCCAGCTTGCTGCCCGT
CTGCAAGGCATGGGTGCTGGCTTTGCCCCCCCTCCTTCTCTGTAA back to topCoding sequence (CDS) from alignment at ACJE01000015.1:1056687..1058831- >ASPNIDRAFT_213531-T1 ID=ASPNIDRAFT_213531-T1|Name=ASPNIDRAFT_213531-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9450bp|location=Sequence derived from alignment at ACJE01000015.1:1056687..1058831- (Aspergillus niger ATCC 1015)
TTGATCCTGAATGCGATATCGCCGTAGGAACGATGGCGCAGCTTCTGCTG
CAGCAGGGCAAGGTCTCGCAGGCCCTCAAGTACTTTGAGCGTGCCGCTGA
GCTTGCTCGTACCGAGGCGGAGATTATCAATGCCATCTCCTATGCTGAGG
CCACCCGCACGCAGCTGGAGGTCCAGGAGAAGTACCCCCAGCTTGCTGCC
CGTCTGCAAGGCATGGGTGCTGGCTTTGCCCCCCCTCCTTCTCTGTAAGA
AACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCCATCACCCACAACAA
GGATGACCCCGACATCTACTACCACCGCGCCCAGCTTCACTTCATTCTCG
GAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAATCCATCGATCTCGAC
CGTACTTTCATCTACTCCCACATCCAACTTGGTGTTACGCAGTATAAGAT
GGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAGATCCGTGAAGAACT
TTGAAGAAGTGCCCGATGTCTACAACTACTACGGTGAACTTCTTCTCGAC
CAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGACAAGGCCGTGGAGAT
GGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCTGCCCCTGATCAACA
AGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCCAGGAGGCTGAGAAC
CTCTGCCAGAAAGCCCTGATCAACAAGGAAGGCTTACGCAGCCAAGCTCA
AGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGACTACAACAAAGCCATT
GAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCGACCCAGTCTTCTACTC
GAACCGTGCCGCCTGCTACAACGTTCTGTCGGAGTGGGAGAAGGTTGTCG
AAGATACCAGTGCCGCTCTCGCCATGGACAGCGAGTACGTCAAAGCCCTG
AACCGGAGAGCTATTGCATACGAACACCTGGAGAAGTTCAGCGAGGCTCT
TCTTGACTTTACTGCCAGCTGCATCATTGACGGCTTCTCCAACGAGATCA
GCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGTTGCTGAGAGGAAAGGA
AAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCCCTAGCCCGACCTTCGT
TTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCACTGCCCGAAGGCCTCG
ATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAAGGGCCAACTCCGCAAG
GGTCTGCTTGCAATGGCCCTGAAGACTGGTGATGGCTATGAGGAGGCTGC
TTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGACTTGGGTGAATACGAAG
CCCTTGCTCTTAACCTGAGAGCCACTTTCACCTATCTCGAGGGTAACGCC
CAGGCCGCATTGTTGGATCTCAACAAGAGTGTTGAGTTGCAGCCGTCGTT
GGTTCAGAGCTACATCAAGCGTGCCAGCTTGCACCTCGAGCTCGAGCCTG
CGGCGAAGAAGCCGGAGGAAGCCTCCGAAGAACTTCCAGAAGTTGACGAG
GAATCCGTTGCACAGCTGTCGGAAGAGATGTCAAGCCAGTCGCCATTGCC
CCAGCCTACGAAGAACGTCGTTCTTGACACGACTTCTCTTCCCCCATCTT
CATCAGCATCAGTTTGGGACCGCATCTCGAAATGGGTGTCGGAAAATAAG
GCCCTTGTTTACACCATTGCCGGTGTTGCTGTGGTTGTGACGAGTGCGGG
TGTCGTCTACTACCTCTCCGACTCGAGTCGGACTACCCCGGCCCCTCCCA
CAGAGAAGAAGAAGAGTAAGAACCAGAGAAGAAAGGAGAAGAAGAAGGCA
GAAGAGGAGAAGAAGGCCAAGGCTGCCTCCGTTCAAGAGGTTGATCCTGA
ATGCGATATCGCCGTAGGAACGATGGCGCAGCTTCTGCTGCAGCAGGGCA
AGGTCTCGCAGGCCCTCAAGTACTTTGAGCGTGCCGCTGAGCTTGCTCGT
ACCGAGGCGGAGATTATCAATGCCATCTCCTATGCTGAGGCCACCCGCAC
GCAGCTGGAGGTCCAGGAGAAGTACCCCCAGCTTGCTGCCCGTCTGCAAG
GCATGGGTGCTGGCTTTGCCCCCCCTCCTTCTCTGTAAGAAACAAGGACG
CCGCTGCCGACGACTTCGAGCTCGCCATCACCCACAACAAGGATGACCCC
GACATCTACTACCACCGCGCCCAGCTTCACTTCATTCTCGGAGAGTTCGC
CGAGGCTGCTAAGGATTACCAGAAATCCATCGATCTCGACCGTACTTTCA
TCTACTCCCACATCCAACTTGGTGTTACGCAGTATAAGATGGGCTCCGTT
GCGTCCGCTATGGCTACTTTCAGAAGATCCGTGAAGAACTTTGAAGAAGT
GCCCGATGTCTACAACTACTACGGTGAACTTCTTCTCGACCAGCAGAATT
TCTCGGAGGCGATTGAGAAGTTCGACAAGGCCGTGGAGATGGAGAAACAG
AGCAAGCCTATGGGTATCAACGTTCTGCCCCTGATCAACAAGGCTCTCGC
CTTGTTCCAGTGGAAGCACGATTTCCAGGAGGCTGAGAACCTCTGCCAGA
AAGCCCTGATCAACAAGGAAGGCTTACGCAGCCAAGCTCAAGGCTGCTGG
AAACAAGGCGTATGGCTCCAAGGACTACAACAAAGCCATTGAGCTCTACG
GAAAGGCCATTCTCTGCAAGCCCGACCCAGTCTTCTACTCGAACCGTGCC
GCCTGCTACAACGTTCTGTCGGAGTGGGAGAAGGTTGTCGAAGATACCAG
TGCCGCTCTCGCCATGGACAGCGAGTACGTCAAAGCCCTGAACCGGAGAG
CTATTGCATACGAACACCTGGAGAAGTTCAGCGAGGCTCTTCTTGACTTT
ACTGCCAGCTGCATCATTGACGGCTTCTCCAACGAGATCAGCCGTGTTGC
TCTGGAAAGACTCCTGAAGAAGGTTGCTGAGAGGAAAGGAAAGGCCATTA
TTGAGGCGAAGGGCAAGAAGCTCCCTAGCCCGACCTTCGTTTCGAACTAT
CTCCAGAGCTTCCGCCCCCAGGCACTGCCCGAAGGCCTCGATGAGTCTGT
GGATCTGAGCGAAGAATCTGGCAAGGGCCAACTCCGCAAGGGTCTGCTTG
CAATGGCCCTGAAGACTGGTGATGGCTATGAGGAGGCTGCTTCTGCTTTT
GAGAAGGCCCTGGAGCTCGGAGACTTGGGTGAATACGAAGCCCTTGCTCT
TAACCTGAGAGCCACTTTCACCTATCTCGAGGGTAACGCCCAGGCCGCAT
TGTTGGATCTCAACAAGAGTGTTGAGTTGCAGCCGTCGTTGGTTCAGAGC
TACATCAAGCGTGCCAGCTTGCACCTCGAGCTCGAGCCTGCGGCGAAGAA
GCCGGAGGAAGCCTCCGAAGAACTTCCAGAAGTTGACGAGGAATCCGTTG
CACAGCTGTCGGAAGAGATGTCAAGCCAGTCGCCATTGCCCCAGCCTACG
AAGAACGTCGTTCTTGACACGACTTCTCTTCCCCCATCTTCATCAGCATC
AGTTTGGGACCGCATCTCGAAATGGGTGTCGGAAAATAAGGCCCTTGTTT
ACACCATTGCCGGTGTTGCTGTGGTTGTGACGAGTGCGGGTGTCGTCTAC
TACCTCTCCGACTCGAGTCGGACTACCCCGGCCCCTCCCACAGAGAAGAA
GAAGAGTAAGAACCAGAGAAGAAAGGAGAAGAAGAAGGCAGAAGAGGAGA
AGAAGGCCAAGGCTGCCTCCGTTCAAGAGGTTGATCCTGAATGCGATATC
GCCGTAGGAACGATGGCGCAGCTTCTGCTGCAGCAGGGCAAGGTCTCGCA
GGCCCTCAAGTACTTTGAGCGTGCCGCTGAGCTTGCTCGTACCGAGGCGG
AGATTATCAATGCCATCTCCTATGCTGAGGCCACCCGCACGCAGCTGGAG
GTCCAGGAGAAGTACCCCCAGCTTGCTGCCCGTCTGCAAGGCATGGGTGC
TGGCTTTGCCCCCCCTCCTTCTCTGTAAGAAACAAGGACGCCGCTGCCGA
CGACTTCGAGCTCGCCATCACCCACAACAAGGATGACCCCGACATCTACT
ACCACCGCGCCCAGCTTCACTTCATTCTCGGAGAGTTCGCCGAGGCTGCT
AAGGATTACCAGAAATCCATCGATCTCGACCGTACTTTCATCTACTCCCA
CATCCAACTTGGTGTTACGCAGTATAAGATGGGCTCCGTTGCGTCCGCTA
TGGCTACTTTCAGAAGATCCGTGAAGAACTTTGAAGAAGTGCCCGATGTC
TACAACTACTACGGTGAACTTCTTCTCGACCAGCAGAATTTCTCGGAGGC
GATTGAGAAGTTCGACAAGGCCGTGGAGATGGAGAAACAGAGCAAGCCTA
TGGGTATCAACGTTCTGCCCCTGATCAACAAGGCTCTCGCCTTGTTCCAG
TGGAAGCACGATTTCCAGGAGGCTGAGAACCTCTGCCAGAAAGCCCTGAT
CAACAAGGAAGGCTTACGCAGCCAAGCTCAAGGCTGCTGGAAACAAGGCG
TATGGCTCCAAGGACTACAACAAAGCCATTGAGCTCTACGGAAAGGCCAT
TCTCTGCAAGCCCGACCCAGTCTTCTACTCGAACCGTGCCGCCTGCTACA
ACGTTCTGTCGGAGTGGGAGAAGGTTGTCGAAGATACCAGTGCCGCTCTC
GCCATGGACAGCGAGTACGTCAAAGCCCTGAACCGGAGAGCTATTGCATA
CGAACACCTGGAGAAGTTCAGCGAGGCTCTTCTTGACTTTACTGCCAGCT
GCATCATTGACGGCTTCTCCAACGAGATCAGCCGTGTTGCTCTGGAAAGA
CTCCTGAAGAAGGTTGCTGAGAGGAAAGGAAAGGCCATTATTGAGGCGAA
GGGCAAGAAGCTCCCTAGCCCGACCTTCGTTTCGAACTATCTCCAGAGCT
TCCGCCCCCAGGCACTGCCCGAAGGCCTCGATGAGTCTGTGGATCTGAGC
GAAGAATCTGGCAAGGGCCAACTCCGCAAGGGTCTGCTTGCAATGGCCCT
GAAGACTGGTGATGGCTATGAGGAGGCTGCTTCTGCTTTTGAGAAGGCCC
TGGAGCTCGGAGACTTGGGTGAATACGAAGCCCTTGCTCTTAACCTGAGA
GCCACTTTCACCTATCTCGAGGGTAACGCCCAGGCCGCATTGTTGGATCT
CAACAAGAGTGTTGAGTTGCAGCCGTCGTTGGTTCAGAGCTACATCAAGC
GTGCCAGCTTGCACCTCGAGCTCGAGCCTGCGGCGAAGAAGCCGGAGGAA
GCCTCCGAAGAACTTCCAGAAGTTGACGAGGAATCCGTTGCACAGCTGTC
GGAAGAGATGTCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCG
TTCTTGACACGACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGAC
CGCATCTCGAAATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGC
CGGTGTTGCTGTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCG
ACTCGAGTCGGACTACCCCGGCCCCTCCCACAGAGAAGAAGAAGAGTAAG
AACCAGAGAAGAAAGGAGAAGAAGAAGGCAGAAGAGGAGAAGAAGGCCAA
GGCTGCCTCCGTTCAAGAGGTTGATCCTGAATGCGATATCGCCGTAGGAA
CGATGGCGCAGCTTCTGCTGCAGCAGGGCAAGGTCTCGCAGGCCCTCAAG
TACTTTGAGCGTGCCGCTGAGCTTGCTCGTACCGAGGCGGAGATTATCAA
TGCCATCTCCTATGCTGAGGCCACCCGCACGCAGCTGGAGGTCCAGGAGA
AGTACCCCCAGCTTGCTGCCCGTCTGCAAGGCATGGGTGCTGGCTTTGCC
CCCCCTCCTTCTCTGTAAGAAACAAGGACGCCGCTGCCGACGACTTCGAG
CTCGCCATCACCCACAACAAGGATGACCCCGACATCTACTACCACCGCGC
CCAGCTTCACTTCATTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACC
AGAAATCCATCGATCTCGACCGTACTTTCATCTACTCCCACATCCAACTT
GGTGTTACGCAGTATAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTT
CAGAAGATCCGTGAAGAACTTTGAAGAAGTGCCCGATGTCTACAACTACT
ACGGTGAACTTCTTCTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAG
TTCGACAAGGCCGTGGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAA
CGTTCTGCCCCTGATCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACG
ATTTCCAGGAGGCTGAGAACCTCTGCCAGAAAGCCCTGATCAACAAGGAA
GGCTTACGCAGCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCA
AGGACTACAACAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAG
CCCGACCCAGTCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTC
GGAGTGGGAGAAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACA
GCGAGTACGTCAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTG
GAGAAGTTCAGCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGA
CGGCTTCTCCAACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGA
AGGTTGCTGAGAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAG
CTCCCTAGCCCGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCA
GGCACTGCCCGAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTG
GCAAGGGCCAACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGT
GATGGCTATGAGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGG
AGACTTGGGTGAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCA
CCTATCTCGAGGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGT
GTTGAGTTGCAGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTT
GCACCTCGAGCTCGAGCCTGCGGCGAAGAAGCCGGAGGAAGCCTCCGAAG
AACTTCCAGAAGTTGACGAGGAATCCGTTGCACAGCTGTCGGAAGAGATG
TCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCGTTCTTGACAC
GACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGACCGCATCTCGA
AATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGCCGGTGTTGCT
GTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCGACTCGAGTCG
GACTACCCCGGCCCCTCCCACAGAGAAGAAGAAGAGTAAGAACCAGAGAA
GAAAGGAGAAGAAGAAGGCAGAAGAGGAGAAGAAGGCCAAGGCTGCCTCC
GTTCAAGAGGTTGATCCTGAATGCGATATCGCCGTAGGAACGATGGCGCA
GCTTCTGCTGCAGCAGGGCAAGGTCTCGCAGGCCCTCAAGTACTTTGAGC
GTGCCGCTGAGCTTGCTCGTACCGAGGCGGAGATTATCAATGCCATCTCC
TATGCTGAGGCCACCCGCACGCAGCTGGAGGTCCAGGAGAAGTACCCCCA
GCTTGCTGCCCGTCTGCAAGGCATGGGTGCTGGCTTTGCCCCCCCTCCTT
CTCTGTAAGAAACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCCATCA
CCCACAACAAGGATGACCCCGACATCTACTACCACCGCGCCCAGCTTCAC
TTCATTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAATCCAT
CGATCTCGACCGTACTTTCATCTACTCCCACATCCAACTTGGTGTTACGC
AGTATAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAGATCC
GTGAAGAACTTTGAAGAAGTGCCCGATGTCTACAACTACTACGGTGAACT
TCTTCTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGACAAGG
CCGTGGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCTGCCC
CTGATCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCCAGGA
GGCTGAGAACCTCTGCCAGAAAGCCCTGATCAACAAGGAAGGCTTACGCA
GCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGACTACAA
CAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCGACCCAG
TCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTCGGAGTGGGAG
AAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACAGCGAGTACGT
CAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTGGAGAAGTTCA
GCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGACGGCTTCTCC
AACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGTTGCTGA
GAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCCCTAGCC
CGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCACTGCCC
GAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAAGGGCCA
ACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGTGATGGCTATG
AGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGACTTGGGT
GAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCACCTATCTCGA
GGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGTGTTGAGTTGC
AGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTTGCACCTCGAG
CTCGAGCCTGCGGCGAAGAAGCCGGAGGAAGCCTCCGAAGAACTTCCAGA
AGTTGACGAGGAATCCGTTGCACAGCTGTCGGAAGAGATGTCAAGCCAGT
CGCCATTGCCCCAGCCTACGAAGAACGTCGTTCTTGACACGACTTCTCTT
CCCCCATCTTCATCAGCATCAGTTTGGGACCGCATCTCGAAATGGGTGTC
GGAAAATAAGGCCCTTGTTTACACCATTGCCGGTGTTGCTGTGGTTGTGA
CGAGTGCGGGTGTCGTCTACTACCTCTCCGACTCGAGTCGGACTACCCCG
GCCCCTCCCACAGAGAAGAAGAAGAGTAAGAACCAGAGAAGAAAGGAGAA
GAAGAAGGCAGAAGAGGAGAAGAAGGCCAAGGCTGCCTCCGTTCAAGAGG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005741 | mitochondrial outer membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006886 | intracellular protein transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0015450 | P-P-bond-hydrolysis-driven protein transmembrane transporter activity |
| GO:0005515 | protein 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 |
|---|
| DBxref | InterPro:IPR013026 |
| DBxref | InterPro:IPR001440 |
| DBxref | InterPro:IPR005687 |
| DBxref | InterPro:IPR011990 |
| DBxref | InterPro:IPR019734 |
| DBxref | PFAM:PF13181 |
| DBxref | PFAM:PF13176 |
| DBxref | PFAM:PF07719 |
| DBxref | PFAM:PF13432 |
| DBxref | PFAM:PF13414 |
| DBxref | PFAM:PF00515 |
| Product | TOM (translocase of outer membrane) complex component |
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 |
|---|
| ACJE01000015.1 | supercontig | ACJE01000015.1:1056687..1058831 - |
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