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Associated RNAi Experiments
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| LSalAtl2s12 | supercontig | LSalAtl2s12:1248538..1252530 + |
Analyses
This mRNA is derived from or has results from the following analyses
| Analysis Name | Date Performed |
|---|
| ensembl | 2013-09-26 .965016 |
Properties
| Property Name | Value |
|---|
| Logic name | ensemblgenomes |
| Biotype | protein_coding |
| Evidence | IEA |
Cross References
External references for this mRNA
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 polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of EMLSAP00000001743 >EMLSAP00000001743 ID=EMLSAP00000001743|Name=EMLSAP00000001743|organism=Lepeophtheirus salmonis|type=polypeptide|length=344bp
MIFLGARGMSSWQMNELLHLDEMISFNPHLLYKQLMDSIMTSGSAGFVKQ
LLVDQKEDPFIEFYKSRIQYFYNGHADQVEFERVSEEFKERVNKLFQDLS
NDKFENLLEDYQIDSDTPMAXMGXSYFKCRLNESHFDVVQPAEINFINLP
SFGRRLVPTRGLTLHGKIQAGYDPELDATSIQIPLKMPLDLSLILILPGK
SSEFKVGGLSTLESKLNLKGWNNLLKRFVPLERAHIYIPALRESSLVNLN
TTFSHMGSTEIFGKEANFMGINGGRDLKLSAFYEFSNVSLNHLIKGATKM
EAQSHEDNKTYIIRFERQFLYVLRHNPTGLITSIGRYVKPKPED back to topmRNA from alignment at LSalAtl2s12:1248538..1252530+ Legend: exonpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000001743-697590 ID=EMLSAT00000001743-697590|Name=EMLSAT00000001743|organism=Lepeophtheirus salmonis|type=mRNA|length=3993bp|location=Sequence derived from alignment at LSalAtl2s12:1248538..1252530+ (Lepeophtheirus salmonis)
TTTGGTTTGGCACACAAAGGATGTAGTCCCGGCATCCCATATTGACATAC
ATTCAAAATACCATAAGCCGTACATCAGAACATCCAAACGTCCCAAACAA
ATCATTGGGGCAAGGTAAGCGATCTATAGAGATGTGAAAATTGTCTAAAT
CCTCGTTTTTGTAAATCAAAAAGAAAGGTATAAGTTGGGAACTTTAATAT
CTGCTGATACAGATCACTATAAAAACTGCTCCTTGCTCGCTGATACGCAT
GACGCATAGGGAGATATAACTAACAAGAGCACCAATTCAAGAGTGACATA
TGCAAAAATATACTTTTTTTTAATTTTGATATGTTTATGAATATTTTTCA
ATTCTTTAAGATGTGATAAGTACGTAAATATATTCTTAGGGATCTAAGTA
TGTCTTATATCCTGCCTCATTTCCCTTCAAGATTTTCAAGAACGCCATTT
TTGTTGATTTTGAGTAGTTTTTGGACAAAATGTATAGATAAAACACGTGA
TTGAATGTCAAAAAAGACATGGCTCTAGTATATAATTACTTTTGAATAAT
CCTTTTTATATATTTTATCATCTAACCACCAAAACTGCCTAGTACAATGA
AGGTAAAGTTAAAAAGCCAAGTGTGCGGATTCAGTACTTAAAATGTATAC
TCACATGTATCAATCTTATTTTCACTTGTATTTATACATCTTGTGGGAAC
AAATTATTAATATTTTCGAAAGATTGTATACTCATCTCAATTTCCTATTT
TTATAAAAAATTTAAACCAMAAAGAAAAATAAGTAGAAACTACATTGGTA
TTTTGATATTTTTAGTCCTACCGTCAGTGCACCTAGCTTTTTCTCCTTAC
CATCATTGTACTGGGCAATTTGATAATAAAATATATAAAATTTATTATTC
AAAAATATGATATTTCAGTTTCATGATTTTTTTGACATTCAATTGCGTGT
TTCATATATACTTTTTGTCCAAAAACTACTCAAAATCATCAAAAATTGGA
TTTTTGAAAATATTTACGGCCAATGAGGCAGGATATAGAACATATTTTGA
TTCCTAAAAGTTAATTTTCGACCTTCCCACATCTTAAAGCAAGGGGGAAA
CGCTATCACAGTTCAAAAAAGTATTTTTTGAATACGTTCATACTTGTAGG
TTACCAGCATATACTTTAAAAAAAAAGTATGCCCTAGGATTTAGGCAATT
TTCACATCTTAGTGATCTATCAACATTACTTTAATTAAATTGTAATATAA
TAAATTTCACCCCTCTTAGCGTTGTTACATCCGTGTCTACTGTTAAAGAC
CATGATCCGGAAGTCATGAAGCGGCATTATGAGGATGAGTATCGACTCAA
CAATAATAACGCCTCGAGTGCTGTGGTCATGGAACCCAAGTTCTATTTCT
ATTTATACGATGATAAAGGAGATTTGGTGCGTGAGAAACTTTCAATCCAC
GATATTCAAAGCATATTACTCCAAGAAACTCAAATTCAAGGACTAAAAAC
ACGAGGNATGGCTTATCGGGAATAAGGATCAAAAAAGTAATGGAAGTACG
TCCCCATCTCCTGTAACAACAAGTACAACCAAAAAACCCGTCTATCCATC
TCGAAATGCGACCAAAAAAGATGTTGCTGATGTTTTGAATAAAATTCAAA
ACATCATAGAAAATGCCAAGAGTCACAATTCAAATGAGATTGTTATTTCT
AATCAAATTAGTATTTCCGGATTTGATGACGATGGACCGTCCACTCTTGC
ATCAACAGTCTCCCCTACAATGACAACACCATTAACAACAACTAGATTGA
CTCCAACATTGGGCACCTTTGAATCCAAGGCTGGAGACTTCAAACTCTAC
GAAGAACGCTATCATGGTTTGAGCGATTACGAGCATCCTTGGGTTGATTT
TTCAAAGCAACATCAATTGGCGGATTTAGAGCACGGACTATCAGAGCCAG
TTTCTAGAACAAGTTCATTCAATGATGATGATGTCCCTTATTTCCCTGTG
CATCCACAAGTTTACAGAAATAAAGTATTCCAGGACTTTCTGTCCCTTGA
AGAAGCTTCTCCTTATGACGAGGAGGATGGGAGCTCTTCCATTCACATGA
TATCCTTAGGCAATGAGAGTGTGTTAGTTCCTATCGTATACTATGATGAT
GAGGATGATCAAGGAGAGGATCCACCTCTGGAGGCCGAGAGTACAAAAGT
TCATGATTCAACCCCAGATGATTCTCATTCAAATCACGATCACGTGGAAC
ATTCCCCTTCTCATTCAACCCATGAACATGAAGATCATCATCCTTCCAAA
CAAAAAGGGGAGGTGGGAAGCCAGGATCATCATCCCCATAATGAGTCTCA
CCATAATCAAGGTCATCAAACCTCCGGCGAACATGGTGATCATCACGGTG
AGGGACATGGTGATCATCATGGGGAGGGACATCATGAACATCACCACCCC
TCCGGTCATGATGAAATTAAAGATATCCCAAATCCCCCTAAAGGAAATTT
AGGATTGCTTCGATCCACTGTGGGTCTGGATCGTAACATGAAGCACTTTA
TTGAAATCAACAATGAATTGAGTTTGTCTCTCTACTCGAGTATGAGACAA
AAGAATAGTCATAATATGAATGTGANTTTTCTCTCCCTTGTCTGCAATTA
GCACACTCTCCATGATATTTCTTGGAGCTAGAGGAATGTCATCCTGGCAA
ATGAATGAACTTTTACATTTGGACGAAATGATATCCTTCAATCCACATCT
TTTATACAAACAGCTCATGGATTCCATCATGACATCAGGATCAGCTGGAT
TTGTTAAACAGCTATTAGTTGACCAAGTAAGAATAATTTTTACTTACATA
ATAACTAGATTCTTATCCTGATTTGATTTTTAGAAAGAAGATCCATTTAT
AGAATTTTACAAATCAAGGATCCAATACTTTTATAATGGACATGCCGATC
AAGTGGAATTTGAAAGAGTCTCAGAAGAATTTAAAGAAAGAGTTAATAAG
CTTTTTCAAGACCTAAGTAACGATAAATTTGAGAATCTCCTTGAGGATTA
TCAAATCGATTCAGATACTCCCATGGCTGMTATGGGTGSAAGCTATTTTA
AAGTAAGTGACATCTTTATTTTATGGATGTAGCATTAAAATCCTTCATCT
CCTTTAATTTTTAGTGCCGATTGAATGAAAGCCACTTTGATGTCGTTCAA
CCAGCGGAAATAAATTTCATAAATCTTCCATCATTTGGGCGAAGACTCGT
TCCTACAAGGGGATTAACCCTGCATGGAAAAATCCAAGCAGGCTATGATC
CTGAACTCGATGCAACCTCTATTCAAATCCCTCTTAAAATGCCACTAGAT
CTCAGCTTGATTCTGATCCTTCCTGGAAAGTCCTCAGAGTTTAAGGTTGG
TGGACTCTCTACACTTGAGTCTAAATTAAATTTGAAGGGATGGAATAACC
TCTTAAAGAGATTTGTTCCTTTGGAAAGGGCTCATATATATATTCCAGCC
CTTAGAGAAAGCTCTTTAGTGAATCTAAATACCACATTTTCCCACATGGG
ATCAACAGAGATCTTTGGGAAAGAGGCAAATTTTATGGGAATAAATGGAG
GAAGGGACCTAAAGCTCTCGGCTTTCTATGAATTTAGTAATGTTTCTCTA
AACCATCTTATAAAAGGAGCAACAAAGATGGAAGCACAGAGCCATGAAGA
TAATAAAACGTATATAATTCGTTTTGAAAGACAATTCCTCTATGTTTTAA
GACATAACCCTACAGGATTAATTACTTCCATTGGTCGATACGTGAAGCCA
AAACCAGAGGATTGATAAAATTTACAAAAAACACCAACAACATACTCTAA
AAAAGTATACTTTTTTGCCAAAGAAACTCCTCAACTGATGTAATTTTATC
GTTCAAGATGGATAAAAGCGAATCTTCTTTAGATCATAGACAGTTCAACA
ATCAATCATAATGTTAATTAAATTTTTTATTGAAAGGATATAA back to top
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