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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000008.1:619320..621464+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_29195-T1 ID=CAN33_29195-T1|Name=CAN33_29195-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2145bp|location=Sequence derived from alignment at NKJJ01000008.1:619320..621464+ (Aspergillus niger FDAARGOS_311)
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 NKJJ01000008.1:619320..621464+ >CAN33_29195-T1 ID=CAN33_29195-T1|Name=CAN33_29195-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8880bp|location=Sequence derived from alignment at NKJJ01000008.1:619320..621464+ (Aspergillus niger FDAARGOS_311)
ATGTCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCGTTCTTGA
CACGACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGACCGCATCT
CGAAATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGCCGGTGTT
GCTGTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCGACTCGAA
GCCTGCGGCGAAGAAGCCGGAGGAAGCCTCCGAAGAACTTCCAGAAGTTG
ACGAGGAATCCGTTGCACAGCTGTCGGAAGAGACAAGGAAGGCTTACGCA
GCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGACTACAA
CAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCGACCCAG
TCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTCGGAGTGGGAG
AAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACAGCGAGTACGT
CAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTGGAGAAGTTCA
GCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGACGGCTTCTCC
AACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGTTGCTGA
GAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCCCTAGCC
CGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCACTGCCC
GAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAAGGGCCA
ACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGTGATGGCTATG
AGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGACTTGGGT
GAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCACCTATCTCGA
GGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGTGTTGAGTTGC
AGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTTGCACCTCGAG
CTCGGAAACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCCATCACCCA
CAACAAGGATGACCCCGACATCTACTACCACCGCGCCCAGCTTCACTTCA
TTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAATCCATCGAT
CTCGACCGTACTTTCATCTACTCCCACATCCAACTTGGTGTTACGCAGTA
TAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAGATCCGTGA
AGAACTTTGAAGAAGTGCCCGATGTCTACAACTACTACGGTGAACTTCTT
CTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGACAAGGCCGT
GGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCTGCCCCTGA
TCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCCAGGAGGCT
GAGAACCTCTGCCAGAAAGCCCTGATCATTGATCCTGAATGCGATATCGC
CGTAGGAACGATGGCGCAGCTTCTGCTGCAGCAGGGCAAGGTCTCGCAGG
CCCTCAAGTACTTTGAGCGTGCCGCTGAGCTTGCTCGTACCGAGGCGGAG
ATTATCAATGCCATCTCCTATGCTGAGGCCACCCGCACGCAGCTGGAGGT
CCAGGAGAAGTACCCCCAGCTTGCTGCCCGTCTGCAAGGCATGGGTGCTG
GCTTTGCCCCCCCTCCTTCTCTGTAAATGTCAAGCCAGTCGCCATTGCCC
CAGCCTACGAAGAACGTCGTTCTTGACACGACTTCTCTTCCCCCATCTTC
ATCAGCATCAGTTTGGGACCGCATCTCGAAATGGGTGTCGGAAAATAAGG
CCCTTGTTTACACCATTGCCGGTGTTGCTGTGGTTGTGACGAGTGCGGGT
GTCGTCTACTACCTCTCCGACTCGAAGCCTGCGGCGAAGAAGCCGGAGGA
AGCCTCCGAAGAACTTCCAGAAGTTGACGAGGAATCCGTTGCACAGCTGT
CGGAAGAGACAAGGAAGGCTTACGCAGCCAAGCTCAAGGCTGCTGGAAAC
AAGGCGTATGGCTCCAAGGACTACAACAAAGCCATTGAGCTCTACGGAAA
GGCCATTCTCTGCAAGCCCGACCCAGTCTTCTACTCGAACCGTGCCGCCT
GCTACAACGTTCTGTCGGAGTGGGAGAAGGTTGTCGAAGATACCAGTGCC
GCTCTCGCCATGGACAGCGAGTACGTCAAAGCCCTGAACCGGAGAGCTAT
TGCATACGAACACCTGGAGAAGTTCAGCGAGGCTCTTCTTGACTTTACTG
CCAGCTGCATCATTGACGGCTTCTCCAACGAGATCAGCCGTGTTGCTCTG
GAAAGACTCCTGAAGAAGGTTGCTGAGAGGAAAGGAAAGGCCATTATTGA
GGCGAAGGGCAAGAAGCTCCCTAGCCCGACCTTCGTTTCGAACTATCTCC
AGAGCTTCCGCCCCCAGGCACTGCCCGAAGGCCTCGATGAGTCTGTGGAT
CTGAGCGAAGAATCTGGCAAGGGCCAACTCCGCAAGGGTCTGCTTGCAAT
GGCCCTGAAGACTGGTGATGGCTATGAGGAGGCTGCTTCTGCTTTTGAGA
AGGCCCTGGAGCTCGGAGACTTGGGTGAATACGAAGCCCTTGCTCTTAAC
CTGAGAGCCACTTTCACCTATCTCGAGGGTAACGCCCAGGCCGCATTGTT
GGATCTCAACAAGAGTGTTGAGTTGCAGCCGTCGTTGGTTCAGAGCTACA
TCAAGCGTGCCAGCTTGCACCTCGAGCTCGGAAACAAGGACGCCGCTGCC
GACGACTTCGAGCTCGCCATCACCCACAACAAGGATGACCCCGACATCTA
CTACCACCGCGCCCAGCTTCACTTCATTCTCGGAGAGTTCGCCGAGGCTG
CTAAGGATTACCAGAAATCCATCGATCTCGACCGTACTTTCATCTACTCC
CACATCCAACTTGGTGTTACGCAGTATAAGATGGGCTCCGTTGCGTCCGC
TATGGCTACTTTCAGAAGATCCGTGAAGAACTTTGAAGAAGTGCCCGATG
TCTACAACTACTACGGTGAACTTCTTCTCGACCAGCAGAATTTCTCGGAG
GCGATTGAGAAGTTCGACAAGGCCGTGGAGATGGAGAAACAGAGCAAGCC
TATGGGTATCAACGTTCTGCCCCTGATCAACAAGGCTCTCGCCTTGTTCC
AGTGGAAGCACGATTTCCAGGAGGCTGAGAACCTCTGCCAGAAAGCCCTG
ATCATTGATCCTGAATGCGATATCGCCGTAGGAACGATGGCGCAGCTTCT
GCTGCAGCAGGGCAAGGTCTCGCAGGCCCTCAAGTACTTTGAGCGTGCCG
CTGAGCTTGCTCGTACCGAGGCGGAGATTATCAATGCCATCTCCTATGCT
GAGGCCACCCGCACGCAGCTGGAGGTCCAGGAGAAGTACCCCCAGCTTGC
TGCCCGTCTGCAAGGCATGGGTGCTGGCTTTGCCCCCCCTCCTTCTCTGT
AAATGTCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCGTTCTT
GACACGACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGACCGCAT
CTCGAAATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGCCGGTG
TTGCTGTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCGACTCG
AAGCCTGCGGCGAAGAAGCCGGAGGAAGCCTCCGAAGAACTTCCAGAAGT
TGACGAGGAATCCGTTGCACAGCTGTCGGAAGAGACAAGGAAGGCTTACG
CAGCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGACTAC
AACAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCGACCC
AGTCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTCGGAGTGGG
AGAAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACAGCGAGTAC
GTCAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTGGAGAAGTT
CAGCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGACGGCTTCT
CCAACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGTTGCT
GAGAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCCCTAG
CCCGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCACTGC
CCGAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAAGGGC
CAACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGTGATGGCTA
TGAGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGACTTGG
GTGAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCACCTATCTC
GAGGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGTGTTGAGTT
GCAGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTTGCACCTCG
AGCTCGGAAACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCCATCACC
CACAACAAGGATGACCCCGACATCTACTACCACCGCGCCCAGCTTCACTT
CATTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAATCCATCG
ATCTCGACCGTACTTTCATCTACTCCCACATCCAACTTGGTGTTACGCAG
TATAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAGATCCGT
GAAGAACTTTGAAGAAGTGCCCGATGTCTACAACTACTACGGTGAACTTC
TTCTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGACAAGGCC
GTGGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCTGCCCCT
GATCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCCAGGAGG
CTGAGAACCTCTGCCAGAAAGCCCTGATCATTGATCCTGAATGCGATATC
GCCGTAGGAACGATGGCGCAGCTTCTGCTGCAGCAGGGCAAGGTCTCGCA
GGCCCTCAAGTACTTTGAGCGTGCCGCTGAGCTTGCTCGTACCGAGGCGG
AGATTATCAATGCCATCTCCTATGCTGAGGCCACCCGCACGCAGCTGGAG
GTCCAGGAGAAGTACCCCCAGCTTGCTGCCCGTCTGCAAGGCATGGGTGC
TGGCTTTGCCCCCCCTCCTTCTCTGTAAATGTCAAGCCAGTCGCCATTGC
CCCAGCCTACGAAGAACGTCGTTCTTGACACGACTTCTCTTCCCCCATCT
TCATCAGCATCAGTTTGGGACCGCATCTCGAAATGGGTGTCGGAAAATAA
GGCCCTTGTTTACACCATTGCCGGTGTTGCTGTGGTTGTGACGAGTGCGG
GTGTCGTCTACTACCTCTCCGACTCGAAGCCTGCGGCGAAGAAGCCGGAG
GAAGCCTCCGAAGAACTTCCAGAAGTTGACGAGGAATCCGTTGCACAGCT
GTCGGAAGAGACAAGGAAGGCTTACGCAGCCAAGCTCAAGGCTGCTGGAA
ACAAGGCGTATGGCTCCAAGGACTACAACAAAGCCATTGAGCTCTACGGA
AAGGCCATTCTCTGCAAGCCCGACCCAGTCTTCTACTCGAACCGTGCCGC
CTGCTACAACGTTCTGTCGGAGTGGGAGAAGGTTGTCGAAGATACCAGTG
CCGCTCTCGCCATGGACAGCGAGTACGTCAAAGCCCTGAACCGGAGAGCT
ATTGCATACGAACACCTGGAGAAGTTCAGCGAGGCTCTTCTTGACTTTAC
TGCCAGCTGCATCATTGACGGCTTCTCCAACGAGATCAGCCGTGTTGCTC
TGGAAAGACTCCTGAAGAAGGTTGCTGAGAGGAAAGGAAAGGCCATTATT
GAGGCGAAGGGCAAGAAGCTCCCTAGCCCGACCTTCGTTTCGAACTATCT
CCAGAGCTTCCGCCCCCAGGCACTGCCCGAAGGCCTCGATGAGTCTGTGG
ATCTGAGCGAAGAATCTGGCAAGGGCCAACTCCGCAAGGGTCTGCTTGCA
ATGGCCCTGAAGACTGGTGATGGCTATGAGGAGGCTGCTTCTGCTTTTGA
GAAGGCCCTGGAGCTCGGAGACTTGGGTGAATACGAAGCCCTTGCTCTTA
ACCTGAGAGCCACTTTCACCTATCTCGAGGGTAACGCCCAGGCCGCATTG
TTGGATCTCAACAAGAGTGTTGAGTTGCAGCCGTCGTTGGTTCAGAGCTA
CATCAAGCGTGCCAGCTTGCACCTCGAGCTCGGAAACAAGGACGCCGCTG
CCGACGACTTCGAGCTCGCCATCACCCACAACAAGGATGACCCCGACATC
TACTACCACCGCGCCCAGCTTCACTTCATTCTCGGAGAGTTCGCCGAGGC
TGCTAAGGATTACCAGAAATCCATCGATCTCGACCGTACTTTCATCTACT
CCCACATCCAACTTGGTGTTACGCAGTATAAGATGGGCTCCGTTGCGTCC
GCTATGGCTACTTTCAGAAGATCCGTGAAGAACTTTGAAGAAGTGCCCGA
TGTCTACAACTACTACGGTGAACTTCTTCTCGACCAGCAGAATTTCTCGG
AGGCGATTGAGAAGTTCGACAAGGCCGTGGAGATGGAGAAACAGAGCAAG
CCTATGGGTATCAACGTTCTGCCCCTGATCAACAAGGCTCTCGCCTTGTT
CCAGTGGAAGCACGATTTCCAGGAGGCTGAGAACCTCTGCCAGAAAGCCC
TGATCATTGATCCTGAATGCGATATCGCCGTAGGAACGATGGCGCAGCTT
CTGCTGCAGCAGGGCAAGGTCTCGCAGGCCCTCAAGTACTTTGAGCGTGC
CGCTGAGCTTGCTCGTACCGAGGCGGAGATTATCAATGCCATCTCCTATG
CTGAGGCCACCCGCACGCAGCTGGAGGTCCAGGAGAAGTACCCCCAGCTT
GCTGCCCGTCTGCAAGGCATGGGTGCTGGCTTTGCCCCCCCTCCTTCTCT
GTAAATGTCAAGCCAGTCGCCATTGCCCCAGCCTACGAAGAACGTCGTTC
TTGACACGACTTCTCTTCCCCCATCTTCATCAGCATCAGTTTGGGACCGC
ATCTCGAAATGGGTGTCGGAAAATAAGGCCCTTGTTTACACCATTGCCGG
TGTTGCTGTGGTTGTGACGAGTGCGGGTGTCGTCTACTACCTCTCCGACT
CGAAGCCTGCGGCGAAGAAGCCGGAGGAAGCCTCCGAAGAACTTCCAGAA
GTTGACGAGGAATCCGTTGCACAGCTGTCGGAAGAGACAAGGAAGGCTTA
CGCAGCCAAGCTCAAGGCTGCTGGAAACAAGGCGTATGGCTCCAAGGACT
ACAACAAAGCCATTGAGCTCTACGGAAAGGCCATTCTCTGCAAGCCCGAC
CCAGTCTTCTACTCGAACCGTGCCGCCTGCTACAACGTTCTGTCGGAGTG
GGAGAAGGTTGTCGAAGATACCAGTGCCGCTCTCGCCATGGACAGCGAGT
ACGTCAAAGCCCTGAACCGGAGAGCTATTGCATACGAACACCTGGAGAAG
TTCAGCGAGGCTCTTCTTGACTTTACTGCCAGCTGCATCATTGACGGCTT
CTCCAACGAGATCAGCCGTGTTGCTCTGGAAAGACTCCTGAAGAAGGTTG
CTGAGAGGAAAGGAAAGGCCATTATTGAGGCGAAGGGCAAGAAGCTCCCT
AGCCCGACCTTCGTTTCGAACTATCTCCAGAGCTTCCGCCCCCAGGCACT
GCCCGAAGGCCTCGATGAGTCTGTGGATCTGAGCGAAGAATCTGGCAAGG
GCCAACTCCGCAAGGGTCTGCTTGCAATGGCCCTGAAGACTGGTGATGGC
TATGAGGAGGCTGCTTCTGCTTTTGAGAAGGCCCTGGAGCTCGGAGACTT
GGGTGAATACGAAGCCCTTGCTCTTAACCTGAGAGCCACTTTCACCTATC
TCGAGGGTAACGCCCAGGCCGCATTGTTGGATCTCAACAAGAGTGTTGAG
TTGCAGCCGTCGTTGGTTCAGAGCTACATCAAGCGTGCCAGCTTGCACCT
CGAGCTCGGAAACAAGGACGCCGCTGCCGACGACTTCGAGCTCGCCATCA
CCCACAACAAGGATGACCCCGACATCTACTACCACCGCGCCCAGCTTCAC
TTCATTCTCGGAGAGTTCGCCGAGGCTGCTAAGGATTACCAGAAATCCAT
CGATCTCGACCGTACTTTCATCTACTCCCACATCCAACTTGGTGTTACGC
AGTATAAGATGGGCTCCGTTGCGTCCGCTATGGCTACTTTCAGAAGATCC
GTGAAGAACTTTGAAGAAGTGCCCGATGTCTACAACTACTACGGTGAACT
TCTTCTCGACCAGCAGAATTTCTCGGAGGCGATTGAGAAGTTCGACAAGG
CCGTGGAGATGGAGAAACAGAGCAAGCCTATGGGTATCAACGTTCTGCCC
CTGATCAACAAGGCTCTCGCCTTGTTCCAGTGGAAGCACGATTTCCAGGA
GGCTGAGAACCTCTGCCAGAAAGCCCTGATCATTGATCCTGAATGCGATA
TCGCCGTAGGAACGATGGCGCAGCTTCTGCTGCAGCAGGGCAAGGTCTCG
CAGGCCCTCAAGTACTTTGAGCGTGCCGCTGAGCTTGCTCGTACCGAGGC
GGAGATTATCAATGCCATCTCCTATGCTGAGGCCACCCGCACGCAGCTGG
AGGTCCAGGAGAAGTACCCCCAGCTTGCTGCCCGTCTGCAAGGCATGGGT
GCTGGCTTTGCCCCCCCTCCTTCTCTGTAA 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 exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR013026 |
| DBxref | InterPro:IPR005687 |
| DBxref | InterPro:IPR001440 |
| 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 |
|---|
| NKJJ01000008.1 | supercontig | NKJJ01000008.1:619320..621464 + |
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