EMLSAT00000000438, EMLSAT00000000438-696285 (mRNA) Lepeophtheirus salmonis

Overview
NameEMLSAT00000000438
Unique NameEMLSAT00000000438-696285
TypemRNA
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s1068supercontigLSalAtl2s1068:427399..431694 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
ensembl2013-09-26 .965016
Properties
Property NameValue
Logic nameensemblgenomes
Biotypeprotein_coding
EvidenceIEA
Cross References
External references for this mRNA
DatabaseAccession
Ensembl Metazoa (transcript)EMLSAT00000000438 (primary cross-reference)
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
EMLSAG00000000438EMLSAG00000000438-683204Lepeophtheirus salmonisgene


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
EMLSAE00000001938EMLSAE00000001938-710866Lepeophtheirus salmonisexon
EMLSAE00000001939EMLSAE00000001939-710867Lepeophtheirus salmonisexon
EMLSAE00000001940EMLSAE00000001940-710868Lepeophtheirus salmonisexon
EMLSAE00000001941EMLSAE00000001941-710869Lepeophtheirus salmonisexon
EMLSAE00000001942EMLSAE00000001942-710870Lepeophtheirus salmonisexon


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
polypeptide-auto777567auto777567Lepeophtheirus salmonispolypeptide
EMLSAP00000000438EMLSAP00000000438Lepeophtheirus salmonispolypeptide


Sequences
The following sequences are available for this feature:

protein sequence of EMLSAP00000000438

>EMLSAP00000000438 ID=EMLSAP00000000438|Name=EMLSAP00000000438|organism=Lepeophtheirus salmonis|type=polypeptide|length=883bp
MSKKDKDLPSVELLLELGHKASVKDQLWNHPEKVTKSGQFTHDWEFYIKG
KDNGRCEXYFEKVVFYLHETFKNPVRVVKEPPYRIQEQGYAGFLINVEVY
FKGTTDKDAFRKLSFXDLCQDFYNVSFFFLSLSFTYDIFLSSFPPEKGMS
KDAIKKDCRFHRLESVMIKTANKDFVRNLVKGGGVLKNEKDLEPVQPVSK
SKPNDTFTNLFGEPIQKDKKGSSSSKKEKTTSKEDKVRSSLPTTTVNNGT
GLNPNSSSYSYSNSITPSPSVIPSSSSTSSSKSKNDKSLSKXPXPPPPPP
TSTSSSSKSKSHKSSSKDRDWEKEKHKREKEHREKRHKEKEERRKREKEE
RLKKVKEQEVKEKLEDEEKERRRLEEELQLHRIKLKEQKERLEKEAREKK
ERDLKEKELRDRLQKEKERKEKKERERKEKEKRKKKEAAEEQKKLARAAA
XAAAAEEXAAALKRKKEEEKERAAAAERDAKLAKERYEKSLKEKKLEEER
KLISSSSKRKEKSKGYGTVLGILKSKAKEDASVKRLSDSDQGGGRGVESG
SPLVPSESSDEEKEVLKRKEKKKKKDKKKKKEKEKKRKRKEKEESPSRSP
SHSHSPSPVPVPSPPVSPIPSPVSIHSKSPIHSDSSYRSSSSPPRSVSIT
PPSSPPGIKEGSXPASSIXSSSSSTPASFPTSSNNSPNYSQDEEKGKDNN
NVVEVEEVEVEVEEKKQEEDEDIHMTSSLIEPPQLVNSPVSPMSEDENII
PMEEEDVEHEEEVTLVEPEYHHPSSESYKKSWLNNSPTHPHVLLNLYSSK
SPVQKVHQDYLPIEELSGDYFETLKLIQERINNPTESDNIGNIVRIVQQT
GXYACDDEDNFDFDLCLLDKLTIKKIQKYLGLK
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mRNA from alignment at LSalAtl2s1068:427399..431694+

Legend: exonpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAT00000000438-696285 ID=EMLSAT00000000438-696285|Name=EMLSAT00000000438|organism=Lepeophtheirus salmonis|type=mRNA|length=4296bp|location=Sequence derived from alignment at LSalAtl2s1068:427399..431694+ (Lepeophtheirus salmonis)
GGCTATTTGATGACGTCAAGGGAGGTAAATGTTTTGAAGAGTGTAACGCC
TCAACCTGAACAGCTATACAGTACAGAATACGTCCACATAGTATTTAATA
GTAGTGTAGCTAGCTAGGGAATGAGCAGCTCGAGTTGGTAGCACTGAGTC
TCATTTTCTCTCCAATGTTTATTTTTTAACACATACTGTACATTGATACA
TTTCCATCCTGGATCGAGAAGAAACATCCTTGGTTTATAAAACTAAAAGG
ACTGCATCTCGCCCTTGCCCTTCTCGAGATTCGGATCGCAGTGATGTCCA
AGAAGGATAAAGACGTAAGTTATTTTCATTTCCCCTGAGTTACTATAATT
TTCACACCGACTTCTGTTTCCATGGATGAATTAAGCAGCTCCCTTCTGTT
GAGCTTCTATTAGAGCTTGGCCATAAAGCCAGTGTAAAGGATCAATTGTG
GAATCATCCCGAGAAAGTGACCAAGTCAGGGCAATTCACACACGATTGGG
AGTTTTATATCAAGGGCAAAGATAATGGAAGGTGCGAATYTTACTTCGAA
AAAGTCGTATTTTATCTCCATGAGACATTTAAAAACCCCGTTCGAGGTAA
CTCAGTGGACTTTGAGCTTCTTTATATCATTCCAAATTTATGTTTTCATT
ATTTTCTAGTTGTGAAAGAACCTCCCTACAGAATTCAAGAGCAAGGCTAC
GCTGGCTTCCTCATTAATGTGGAGGTGTATTTTAAAGGAACGACGGACAA
AGATGCTTTTAGAAAAGTAACTTGGGGTTCATAGATCTATGTCAGGATTT
CTATAATGTGTCTTTTTTTTTTTTWAGCTCTCCTTTNTAGATCTATGTCA
GGATTTCTATAATGTGTCTTTTTTTTTTTTAAGTCTCTCCTTTACCTATG
ACATTTTTTTATCATCATTCCCTCCCGAAAAAGGCATGTCCAAGGATGCC
ATAAAAAAAGATTGCCGGTTTCATCGCCTAGAAAGTGTCATGATAAAGAC
TGCTAATAAGGATTTCGTCCGAAATCTTGTTAAAGGAGGAGGTGTTCTCA
AAAATGAAAAAGATCTTGTTAGTTGGATTATCTTTTTTTCAACTCAAAAT
TTATCCTATCTCATTTTATAGGTATACTCAAATTCAAAACATCGTTCATC
CTCGACCTCATCCTCATCTCGACGGGAAAAAGGAGGAGGCCACTCTACGT
CTATTTCCTCATCCTCTTCGTCTAAAACCAAAGAAAAGGACCATAAAAAT
GAAAAAGAAAGGAGAAAAGAATCGTCCAAGTCATCATCGAGATCTTCTTC
TTCAACTCGAGAGAAAGAGTTACGAAAAGTGCCTAAGTTAAATGAGCCAA
TTAAAAAGATAAAGGTAAAACTTTTAATTAGTTTTCTATAACAGTGATTC
CCAACCTTTTCATACCTGCGGAGCTCTTAGTTCTTTTTTTTTTATGGGGA
GCCTATGTATTTTGATCAAATATCAAATTTTAGGGTCTTCTTAAACATTT
TTTTTTAGAAAATACATTTTTTAATGACCTTGGGGAGTTCCGGGTTGGTG
AAAAAGTTGTTTTAAATGTTTGAATATTATAAAGGATTTTTATATTCATT
ATAGGAACCCGTTCAACCAGTCTCTAAATCTAAGCCGAACGATACTTTTA
CAAACTTGTTCGGTGAACCTATTCAAAAGGATAAAAAAGGATCCAGTTCA
AGTAAAAAAGAAAAAACTACTTCTAAAGAAGATAAAGTAAGAAGTAGTTT
GCCCACCACGACTGTGAATAACGGCACTGGCCTCAACCCTAACTCTTCAT
CCTACTCTTATTCTAACTCAATTACGCCCTCTCCTTCCGTAATACCATCA
TCTTCATCAACATCATCCTCTAAGTCAAAGAATGACAAATCTTTATCAAA
ARCCCCGCAKCCACCACCACCACCACCAACTTCCACTTCTTCATCCTCGA
AAAGCAAAAGTCATAAGTCCTCATCCAAAGATAGAGATTGGGAAAAAGAA
AAGCATAAGCGGGAAAAGGAACATCGGGAGAAAAGGCATAAAGAAAAAGA
GGAGAGACGGAAAAGGGAGAAGGAGGAGAGACTCAAAAAAGTGAAGGAAC
AGGAAGTTAAGGAAAAGTTGGAGGATGAAGAAAAAGAGCGTCGAAGATTG
GAAGAAGAGCTGCAACTTCATCGAATAAAGCTAAAAGAACAAAAAGAGCG
TTTGGAAAAAGAAGCCCGAGAGAAGAAAGAAAGGGATTTGAAGGAAAAGG
AGCTTAGGGATCGCCTCCAAAAGGAGAAGGAGCGTAAAGAAAAGAAGGAA
AGAGAAAGGAAGGAAAAAGAAAAGCGTAAAAAGAAAGAAGCAGCAGAAGA
GCAGAAAAAGCTTGCTCGTGCCGCGGCTSCTGCCGCTGCTGCTGAAGAAG
MTGCAGCAGCACTTAAACGGAAAAAGGAGGAGGAAAAGGAGAGAGCCGCC
GCCGCGGAAAGGGATGCAAAGCTAGCCAAAGAGAGATATGAAAAGAGCCT
TAAGGAAAAGAAACTTGAGGAAGAAAGGAAATTAATATCATCCTCGTCCA
AAAGGAAGGAAAAGTCAAAAGGCTATGGAACTGTTCTGGGTATACTCAAG
TCCAAAGCCAAAGAAGATGCCAGCGTAAAGAGATTATCTGATTCTGATCA
GGGTGGAGGGCGAGGTGTGGAGTCTGGGTCTCCACTGGTCCCTTCTGAGT
CCTCTGACGAAGAGAAAGAAGTACTCAAGAGAAAGGAAAAGAAGAAGAAG
AAAGACAAGAAGAAGAAAAAAGAGAAGGAGAAGAAGAGAAAGAGAAAGGA
GAAGGAGGAGTCCCCCTCTCGATCCCCTTCTCACTCTCACTCACCTTCAC
CAGTCCCCGTTCCCTCACCACCTGTTAGTCCCATCCCATCACCTGTTTCA
ATTCATTCTAAATCACCTATCCACAGTGACTCTTCTTATCGGTCTTCTTC
TTCTCCTCCTAGATCGGTCTCCATCACACCCCCTTCATCRCCTCCGGGAA
TCAAGGAAGGCTCCSCTCCAGCCTCATCCATTCKCTCTTCCTCCTCCTCC
ACTCCGGCCTCCTTTCCTACCTCAAGCAACAACTCTCCCAACTATTCCCA
AGATGAGGAAAAGGGGAAGGATAATAATAATGTTGTCGAGGTCGAAGAAG
TCGAGGTGGAGGTGGAGGAGAAGAAGCAGGAGGAAGATGAGGACATTCAC
ATGACCAGTAGCTTAATTGAACCTCCTCAATTAGTCAATTCTCCCGTTAG
TCCCATGTCAGAAGATGAAAACATCATTCCCATGGAAGAGGAGGATGTGG
AGCATGAGGAAGAGGTGACTCTCGTTGAACCCGAGTATCATCATCCCAGT
TCCGAATCCTATAAAAAGTCCTGGCTCAATAATTCACCCACCCATCCTCA
TGTTCTTCTGAATCTCTACTCCTCAAAAAGTCCTGTTCAAAAGGTTCATC
AAGACTATTTGCCCATTGAAGAGCTTAGTGGGGATTATTTTGAGACCCTT
AAACTCATACAAGAACGGATTAATAACCCCACTGAGAGTGATAACATTGG
CAATATTGTTCGAATTGTGCAACAAACCGGCTGMTATGCCTGTGATGATG
AAGATAACTTTGACTTTGATCTGTGTTTATTAGATAAATTGACTATTAAG
AAAATTCAAAAGTACTTAGGTTTAAAATAATAAGAAAGACGTGATACATA
CAACATGAACCACTGTTCATACAATCAACCTCATTGCCTATTGATGATAA
CTTTAACTTCATTTGTTTGTTTTTCTTCTTCTTCTCCTCTTCAAATGAAG
AAGAAATTACGCTTATTACTTACAATACCTGTGGTATTGTTTTATCTTTC
ATTTCAGATATTTACATATGCATACATACACACTTTCCAAGAATACCTAT
AATAATATTCGAAAAAGTATTGATTATTATTATGTAGACGTAATTCGTGT
ATTGAAAATTATTTTATATTTTTGTTTATGTTATAAATATTATTATTACA
TAGTAGTAGTACTATATATTGATTCAGAGAGTAAAGCCGATAAAATGGCA
ACGCATACATAAATAAAGCATAATAAGATGCCCTTACAAAAATCCATCTC
TCTCTTTTGCTCCTGGAATTGAATCTCATACATATTTAATTAGTACGTAA
TATGTACGATCTAGAAAAATAATTAGGGGCCTTAGCTGGGGTGGACTGGA
TGAGCTGTAGCTGTTTTTGTCAATAGCTGTGGATTTTTGATTTTTTTTTT
CTCGAAAAAGCTTAATATTTGAAATGTAATTCTTATAATTTTTGTG
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