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Associated RNAi Experiments
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| LSalAtl2s96 | supercontig | LSalAtl2s96:762138..768998 + |
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 EMLSAP00000012786 >EMLSAP00000012786 ID=EMLSAP00000012786|Name=EMLSAP00000012786|organism=Lepeophtheirus salmonis|type=polypeptide|length=1696bp
MTTKKRKLERQDEPMPKKTHLESETVVKDNFILVDDIRNSKKHIDVLRFI
ATHGEESVKEFVSTGGKSNDITMELDLIDKAKPPLVQAIFEASEKFIVYA
PSAFASELVHNILHDHMSYIITYLSQNSPLALKKTVLRLLTTMVATGNES
SAKDLLLKLNFDHIYFELLFLAEYNEGRKAYIYFLLSFFISQSPPIIKEF
IDKGGKRLAEIFNGLHKDSVELVLFVMEVLKDKLMMNSNISKTSKMKIFN
TSVLKRISNLLCNDNGWTDDDASNVMAXKDSIMEFLITSLTSPKTGLIFL
DESVGNSGQNRNLLLLTFLQTLKTPWENERWEKIVITCLSKCPDQLRPYL
NSLSPSAPRDSNSWFKISNFFRVLINEIELESKVMSSSMNKKFLIATLSN
VAFPEVIIKEVVKPALKASLPVQRSGIDILIDLVYKVEGLLWKTEKAGVT
GSSIRTQLIRRFKERIPPLDDILSFWKYEMSVSELDGEYLCKTAKILDFY
LNFLRLECDAVENLLSDIQKLNKSVETNKATLFFLKYQASSFTIKNHFND
NYIEILFNVALKSEDENLRNLSTTTLYQIFGIQNGLTKRSVEFEIFLSVC
RETDLSYSTIIQILNPKNYIVSDLNDEILELKNKISQPEECSGLTRKNQI
VEQFLDRLIDNDDDNVMDILHDTISPKNSLQNTINFELSPLTMIFLKSYN
HSHHTWIIKYLRYLSYSQEDIENFILCVENFIKDENLTSHFNAFRFGGLN
QLDDEKNIKIESLSALIIITKLSLMYKFNRRTQSEMDIINELKNLLNSSK
DIRKCILTESQVLLNLFKPYSDKHSDLNCMILDVLDGNQCSTEQAVFKKR
FLKDFKECDGLESISAELLDQYLKVFGFDPTDINCMMEVLIQGKKPDNAN
WLLHFTKLLLHHSDSLSTHSLKNMVEVIREAIRAGISSPRSNMFLSSFIG
FFKKNLDFAINDLNLSDFVHPLLKKDEVPTDLLEFLVSNNINSSAKIFRS
IISKDPNLLSSKWESLLTTLVASVKRKAKEKFVCETIVNTLSEAMNNSLL
KNDNNCVFRELIIVILEHFPKLNMIEKLNLDFGSDFIPSLGTACCLMTMA
NNESLSSKHFANKVLIPCLKMYCQKLKDPSGLSVDQMQDCYNCFSKMLRF
DLHKVMAYIVKRKTDFWINTVRIFLKHGLKMDLTLKANLRGLSIMSELIK
FSYTEKHEHLTTIYEMINGHSNFLKLLLSMQAGEDVFSLMKKDLLLLINS
IVSISPELVSQEHIPLYLGAYGSSLSQADQCILSILKIHEKKHSFASFQP
IVWGSLAISRYTIGTSEKKNLWKVPRCSEILGLIDADKMYETAINFPIEM
TLFNENTFYENDPSKYDPRFYLQLFSSLCSSERYIDKHLKLQEYGALALA
LASISSKDEDMRALGYTVLSRIFRQFEATKFAKEKMIWIHFFNLIRNGAR
ESKNSKTDYLRIPSIVSVFLVRTVRILKNPLHYMYKPLSHFLLAKPFLDL
FNVPDFLNLFHSIVNASESDDTPRKWILEVIEDGLKDYLDYYILLKVRII
RVLLSFNGSILSTNEEEIFNIIEKCLRLKDGALDLIQSQGFLIWCLSKRS
SQKKCINLLRTSWNTISTDDSLLTHDLLLQFVCVIKGLLYAGYTDSTLFD
LLGSILNKGKANGIEKSIFSKDEFLQIVPRRENVLDSFNNVLLIMS back to topmRNA from alignment at LSalAtl2s96:762138..768998+ Legend: exonpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000012786-708633 ID=EMLSAT00000012786-708633|Name=EMLSAT00000012786|organism=Lepeophtheirus salmonis|type=mRNA|length=6861bp|location=Sequence derived from alignment at LSalAtl2s96:762138..768998+ (Lepeophtheirus salmonis)
TAGTATTCATTGTTTATATAATATATATATACTCTTTGATTATTACTAAA
GGGCTCAAGGGTAATTGAGTCCTTTAATTACTAGATAGCAAGCTATAATA
AGCTACATTATGATTTATTTGCTCTGCTGCTCTGAAATCAGTTGACCACA
CTGACGTCATCAATATACAAACAATCAAAGCCCAACAAAAATAAATAAAC
TAGGAAGGCACGTGTTTTTTTTTAGTCGTGTCGTGCAAATTAGGAAGTAC
GGATCGCAATGGGTGTCATTCAGCGTGTTGTTAAGCCACGAAATAAGAAA
TCTCGACGAGCACTCGAGGAACGAGAGCCAAAGGCAATCGAGACTCTTAA
ACAAGCTTTGATTATTAGGGGTTCTCATACTTCCGAGACGGTTAGAGAAG
TTCTCAAGGATTTGGCGACTCTTAAAAAACCGCATGCCATTAGTTTTTCT
AAAAAGAATGATTATAGGCCCTTTGAGGATCCAGTACCCATCGAAACAAT
AGGTAATTCCTCTATTTAGCTATTCATTAATTAGTCTATTAAGTCTCTTA
ATTCATTCGTTGTATTGATAAAAATTAATTTTGATTGATTTCTGATTTTT
GCAGGTGTAAGGGCGGACGCGAGTCTCTTTGTCCTTGGCAATAAGACGAA
GAAGCGCCCCAACAATCTCACTTTCGGTCGAACTTTCGATGGGAAACTTC
TGGATATGGTAGAACTAGGAATTGATCACTACGTTCCACTCTCACAGTTT
GACTCTGACTCTAAAATAGACTCTGGAATAAAACCCTGCCTCATATTTAA
TGGACCGCTCTTTGACACTGTCCCCGAGTTAGCACGCCTCAAGTCCATTT
TCATTGATTTTTTCCGTGGCCCTATCGTAAACAAAATACGACTGGCTGGA
ATTGAGCATTGTCTATCCTTTWCTGCTGTTTCGGAAACAAAGGTTTCCTT
ACGGAGCTATAAAATTGCGATGAAGAAATCTGGCACTCGTTTTCCACGTA
TAGAATTAATCGATATGGGACCTCACATAGATTGTTCTCTTCGTAGAACG
CACTTGGCATCTGAGGATCTCATGAAGTCTGCTCTTAAGAAAGTTAAAAA
CATTAACAAAGTCAAGAAAATTAAGAACGTTTCAAAGGATGGTCTTGATA
ATACCTTTGGACGTGTTCATATTCAATCGCAAAAGGTGGGAGAGATTCAA
ACTAGAAAGAGGAGGGCTCTTAAGCCCTCTTTGGAGGAAAAGAAAGAGGC
TGCCTCTCAAAAAGCTAAAGAAGTAGAGGAAGCACATCGGAAAAATGTCG
AAGCGGTTTTCATGGAAACCGACTAAAATTGTTATATAGATATATTCATA
TATAGATATGTATTTTTTTGAACCAATATTCTAAATAAAATATTAATAAA
AACTTGAGGTTTTTTTAAGTAATTAATTAATTTTAATCCATATTTGTATT
GTGTTATGAATTCCTCTCTGAATATCAATATTTTTCCATTTCAGACGAGA
AATGACTACTAAAAAAAGAAAATTGGAAAGGCAAGATGAGCCTATGCCGA
AAAAAACACACCTGGAATCTGAGACAGTTGTAAAAGATAATTTCATTCTT
GTGGATGATATTCGTAATAGCAAGAAGCACATTGATGTCCTTCGTTTTAT
TGCTACTCACGGTGAGGAATCTGTTAAGGAATTTGTCTCCACTGGAGGAA
AGTCGAATGATATAACTATGGAATTGGACTTGATTGATAAAGCTAAACCA
CCTCTTGTTCAAGCCATTTTTGAAGCTTCTGAAAAGTTTATAGTTTATGC
ACCTTCAGCCTTTGCGTCTGAATTGGTGCATAATATACTACACGATCATA
TGAGTTATATCATAACGTATCTGTCCCAAAACAGTCCCTTAGCACTTAAA
AAAACGGTTCTCAGACTATTGACAACCATGGTTGCCACGGGAAATGAGAG
TTCTGCTAAGGATCTACTCCTTAAACTTAATTTCGATCATATTTACTTTG
AGCTATTATTTCTTGCCGAGTATAATGAAGGTCGCAAGGCCTACATATAT
TTTTTACTCTCATTCTTTATCTCTCAAAGTCCTCCCATAATCAAAGAATT
TATAGATAAAGGAGGCAAAAGGCTAGCTGAGATATTTAATGGGCTTCATA
AAGACTCTGTTGAATTAGTTCTTTTCGTTATGGAAGTACTCAAAGACAAA
CTTATGATGAATTCAAATATAAGCAAAACCTCAAAAATGAAAATATTCAA
CACCTCTGTTTTGAAAAGGATATCTAATTTGTTATGTAATGACAATGGAT
GGACTGATGATGACGCTTCCAACGTCATGGCTGKTAAAGACTCGATTATG
GAATTTTTGATAACTTCATTAACCTCTCCTAAAACTGGTCTTATATTTTT
GGATGAGTCAGTGGGAAATTCAGGGCAAAATCGTAATTTACTTTTACTTA
CATTTCTTCAAACATTAAAGACACCGTGGGAGAATGAACGATGGGAGAAA
ATTGTGATTACTTGTTTATCCAAATGTCCAGATCAATTACGGCCTTATTT
GAATTCCTTGAGTCCATCTGCCCCAAGAGATTCAAACAGTTGGTTTAAAA
TTTCAAATTTCTTTCGAGTACTAATTAATGAAATAGAACTAGAGTCCAAA
GTGATGAGTAGTTCAATGAACAAGAAATTCTTGATAGCAACCCTTTCCAA
TGTTGCTTTCCCAGAGGTGATTATAAAAGAGGTAGTTAAACCAGCATTAA
AGGCTAGCTTACCAGTTCAAAGATCAGGGATTGATATTTTGATCGATCTG
GTGTATAAAGTTGAAGGCCTTTTATGGAAAACTGAGAAGGCAGGAGTTAC
AGGATCTTCCATTAGAACACAGCTCATTCGTAGATTTAAAGAGCGTATTC
CTCCCTTGGATGATATTTTGAGCTTTTGGAAGTATGAAATGAGTGTTTCC
GAGCTGGATGGAGAATACTTATGTAAAACAGCTAAAATATTGGATTTTTA
TCTTAATTTCCTTCGCTTGGAGTGTGATGCTGTTGAAAATTTACTAAGTG
ATATTCAGAAGCTCAATAAATCTGTTGAGACGAATAAAGCAACTCTCTTC
TTTTTAAAATACCAAGCCTCATCCTTTACAATCAAAAATCATTTTAACGA
TAACTATATTGAAATTCTATTTAATGTAGCTCTTAAATCCGAAGATGAGA
ACCTTCGAAATCTATCTACAACAACTTTATATCAAATTTTTGGAATTCAG
AACGGGTTGACAAAGAGATCTGTTGAATTTGAAATATTTTTATCTGTCTG
TAGAGAAACGGATCTAAGTTACTCCACGATTATACAAATTCTTAACCCAA
AAAATTACATTGTTTCGGATTTAAATGATGAAATCTTAGAATTGAAAAAT
AAAATTAGCCAACCAGAAGAGTGTTCAGGATTGACAAGAAAAAATCAGAT
TGTTGAACAATTTCTTGATCGATTAATCGACAACGATGACGATAATGTTA
TGGACATACTCCATGATACTATAAGTCCAAAAAATAGTTTACAAAACACT
ATTAACTTTGAGTTGAGTCCGCTAACAATGATCTTTCTAAAGAGTTACAA
TCACTCACATCACACATGGATAATTAAGTATCTTCGTTATTTAAGTTATT
CCCAGGAGGATATTGAGAACTTCATTTTGTGTGTGGAAAACTTTATAAAA
GATGAAAATTTAACATCACACTTCAATGCATTCAGATTCGGAGGATTAAA
TCAATTAGATGATGAAAAAAATATTAAGATTGAGTCCCTCTCCGCTCTCA
TTATCATTACAAAGCTTAGTCTCATGTATAAATTTAATCGTCGGACTCAA
AGTGAAATGGATATAATTAATGAACTTAAAAATTTGCTCAATTCCTCAAA
AGATATACGCAAATGTATATTGACTGAAAGTCAAGTCCTTTTAAATTTAT
TCAAACCTTATTCAGATAAACATTCCGACTTAAACTGCATGATTTTAGAT
GTTTTGGATGGTAATCAATGCTCAACAGAACAAGCCGTGTTTAAAAAGAG
GTTCCTTAAAGATTTTAAGGAATGCGATGGCCTTGAGTCAATTTCTGCAG
AACTGCTTGACCAATACTTAAAAGTGTTTGGATTTGATCCAACTGATATC
AATTGTATGATGGAAGTTCTTATCCAAGGGAAAAAACCGGATAATGCTAA
TTGGCTACTTCATTTCACAAAGTTACTCCTCCATCACTCAGACTCACTGA
GTACTCATTCTTTAAAAAATATGGTTGAAGTAATACGTGAAGCAATTCGT
GCTGGGATTTCTTCGCCTCGTTCAAATATGTTTTTGAGCTCATTTATAGG
ATTCTTTAAGAAAAACTTAGATTTTGCAATCAATGATTTAAATTTGAGTG
ATTTTGTTCATCCACTTCTGAAAAAAGATGAAGTTCCTACTGATCTATTG
GAATTCCTTGTTTCCAACAATATAAATTCATCGGCTAAAATATTTAGAAG
TATAATTTCTAAGGATCCGAATCTACTTTCATCCAAATGGGAAAGTCTTT
TAACAACCTTAGTAGCTTCTGTTAAACGTAAAGCTAAAGAGAAATTTGTT
TGTGAGACAATTGTGAATACACTTAGTGAAGCCATGAACAATTCTCTCCT
AAAAAATGATAACAATTGTGTCTTTCGAGAATTAATTATCGTCATCTTGG
AACATTTTCCAAAACTGAATATGATTGAAAAACTTAATCTGGATTTTGGT
AGTGACTTTATTCCAAGTCTTGGCACTGCTTGCTGTTTAATGACTATGGC
CAATAATGAATCATTATCTTCCAAGCATTTTGCAAATAAAGTGCTGATTC
CTTGTTTAAAAATGTACTGTCAAAAGCTGAAAGATCCTTCAGGGCTCTCC
GTTGATCAGATGCAAGATTGCTATAATTGTTTTTCCAAAATGTTGAGATT
CGATTTACATAAAGTTATGGCTTACATTGTTAAGCGCAAAACAGATTTTT
GGATTAATACTGTTCGAATTTTTTTAAAACATGGACTCAAAATGGACTTA
ACGTTGAAGGCAAATCTTAGAGGTCTTTCAATCATGTCAGAGTTAATTAA
ATTCTCTTATACAGAGAAGCATGAGCACTTGACCACCATTTATGAAATGA
TTAACGGACATTCTAATTTTCTGAAGCTATTATTATCCATGCAAGCTGGG
GAGGATGTTTTTAGCTTGATGAAGAAAGATTTACTTCTTCTCATTAACTC
TATTGTTTCTATTTCTCCAGAGTTAGTATCTCAGGAACATATTCCATTGT
ATTTAGGAGCCTACGGATCATCTCTAAGTCAAGCAGATCAGTGTATTTTG
TCTATTTTAAAGATCCATGAGAAAAAGCATAGCTTTGCCTCTTTTCAACC
TATTGTTTGGGGTTCTCTTGCAATATCGAGATATACGATTGGAACTTCTG
AAAAGAAAAATTTATGGAAAGTCCCACGATGTTCTGAAATCCTTGGTTTA
ATAGATGCTGATAAAATGTACGAAACTGCAATTAACTTTCCCATAGAAAT
GACTCTATTTAACGAAAATACTTTTTACGAAAACGATCCTAGTAAATATG
ATCCTCGCTTTTATCTACAATTATTTTCCTCTTTATGTTCGTCTGAAAGA
TATATTGATAAACATTTGAAATTGCAAGAATATGGAGCTTTGGCTTTAGC
TCTAGCCTCAATAAGTTCTAAAGATGAAGATATGCGAGCCCTTGGTTATA
CTGTTCTATCCAGGATATTTCGTCAATTTGAAGCTACAAAGTTTGCTAAA
GAAAAAATGATTTGGATACATTTTTTTAATCTTATTCGAAATGGAGCTCG
TGAATCCAAGAACTCTAAAACTGATTATTTGCGTATTCCATCCATTGTAT
CTGTCTTCCTCGTTCGAACTGTTCGAATCCTCAAAAATCCTTTGCACTAC
ATGTATAAGCCCTTGTCTCATTTCTTATTAGCCAAGCCCTTCCTCGACTT
GTTCAACGTCCCAGACTTTTTAAATTTGTTTCATTCTATAGTAAATGCGA
GTGAGTCAGATGATACTCCGAGAAAGTGGATACTAGAAGTTATAGAAGAT
GGATTAAAAGACTACCTCGACTATTACATCTTGTTAAAAGTACGAATTAT
TAGAGTTCTTCTATCCTTTAATGGTTCAATTTTATCTACTAATGAGGAGG
AAATATTTAATATTATAGAGAAATGTCTCAGACTTAAAGATGGAGCACTA
GATCTTATTCAGTCGCAAGGGTTTTTGATTTGGTGCTTAAGTAAGCGCTC
TTCTCAAAAGAAGTGTATTAATCTCCTTCGCACCTCCTGGAACACAATAT
CTACAGATGATTCATTGTTAACTCATGATTTATTATTACAATTTGTTTGT
GTTATAAAAGGACTACTCTACGCAGGTTATACAGATTCGACTTTGTTTGA
TCTACTAGGATCCATTTTGAATAAAGGGAAGGCAAATGGAATCGAAAAAT
CAATTTTTTCAAAAGATGAATTTCTTCAAATTGTGCCACGCAGGGAGAAC
GTGTTGGATTCTTTTAATAATGTTTTGTTGATTATGAGTTAAATATAAAT
ACTTATATTAATAATTACATAATGATCAATTGTTTAATTACAGGATAAAT
CAAACTATTCAATAATTAAAATATCCTTCGATCGAAATAGGAAAAATCTA
ATAGAGTTTGTTCTCCTAATTTCAAATACGGCTTTACTTTTTCTCAATAA
ACCTTGAATTTTTCAGATATAGACCAAAACGTTTTCGGTATTTTTTTGTG
ATTTTTAAAGAAGGATTCAAAGCTTTTTTAAGCACCTAATGTTGGTGATG
GAGATAAATGA back to top
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