EMLSAT00000000233, EMLSAT00000000233-696080 (mRNA) Lepeophtheirus salmonis

Overview
NameEMLSAT00000000233
Unique NameEMLSAT00000000233-696080
TypemRNA
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s1031supercontigLSalAtl2s1031:69376..75813 +
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)EMLSAT00000000233 (primary cross-reference)
Relationships

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

Feature NameUnique NameSpeciesType
EMLSAG00000000233EMLSAG00000000233-682999Lepeophtheirus salmonisgene


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

Feature NameUnique NameSpeciesType
EMLSAE00000001044EMLSAE00000001044-709972Lepeophtheirus salmonisexon
EMLSAE00000001045EMLSAE00000001045-709973Lepeophtheirus salmonisexon
EMLSAE00000001046EMLSAE00000001046-709974Lepeophtheirus salmonisexon
EMLSAE00000001047EMLSAE00000001047-709975Lepeophtheirus salmonisexon
EMLSAE00000001048EMLSAE00000001048-709976Lepeophtheirus salmonisexon


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

Feature NameUnique NameSpeciesType
polypeptide-auto771304auto771304Lepeophtheirus salmonispolypeptide
EMLSAP00000000233EMLSAP00000000233Lepeophtheirus salmonispolypeptide


Sequences
The following sequences are available for this feature:

protein sequence of EMLSAP00000000233

>EMLSAP00000000233 ID=EMLSAP00000000233|Name=EMLSAP00000000233|organism=Lepeophtheirus salmonis|type=polypeptide|length=1765bp
MADFMDQEAVEDSEEEMSAEEXSSRRPKGKKKKKHSRQLSSDEEEEEEDE
DEEKAREDMKGFIDDDDDGVEEEKESVSGSDTGESSSRRRKKKRRKRRSE
DEEDIDEEDMELLQENLGIKIQKKRKRIRMGSGSEEDSDGESRIASQRSS
GDSEGEAHDKRSSSGKNKSIRASSVATSSKAGFIDSEEEAEKAMEEDEDD
GFIVDEDGVPIQKRRKKKKTHIFEDSARQLAEDIFGVAFDYEEFEDDRVE
EESDDEEEDDYDDEEAAEAXRXKKXKKQKRKXAKTIFEIFEPRELELRHF
TDLDNEVRNTDIPERMQLRSIPVTSVPEGSDELDREAEWIFKYGFIKPTI
SKQDGYSRDDCQEWVRKDRTVEKIKKALDFMRQQFHEVPFIAFYRKEYVE
PELKINDLWRVYFMDENWCQLQSRKKNLRKLFKSMQNWQGEQLVADMDKP
IPEGMRILSNEDLQNIDNIESYEELKDMDLFFKLYYSKDLEAMQIAIKQK
RREAREAKRSNRKKKTKIITNEDGEEIQVTDEESPVLDSEDSATDDQDLL
RQASKNDPYSICRKYGLIGMSKRFGLTPEQFAENLRDGYQRHDLDQEPSE
PLEVAAEYVNQKFKDPNDVLKAVKFVVATQLSREPEVRRVTREIFNERAT
ICVAPTKKGLTEIDESHYCYSMKYLKNKLVRNLSGTQWLNLTAAEDQKLI
TITIATEIPSLSGNKQRNHLEEAKELYKHDGFSKHVTEWNNLRAECIETT
FKEIIYPVLRQELRIRLTREAKDGVLRQCKNKMYDYLKTAKYTVSFEEED
EDDWDSSGGCRVMSISYENDTDVASYAVCIGVNGEVIDFLKMEALLMRSN
ISQDSKRNRPSGDRRNKDVDMAKLKSFIIQKRPHVIVVGAIDRDAVRVRY
DVEAVVHELVEGEHQFPKIGVFLMDDNLAKVYSNSTRASQDFRDYPNVLR
QGISLARRMQDPLIEFSQLAGPENEILCLNFHPLQNRLEEEELLEAINIE
FINRTNEVGVDINECVSRPQTSNLVQFVGGLGPRKGAALLKTLRQMQSSQ
RLENRQQLVTLCHMGPKVLINCAGFIKIDTTSLGDSEVYLEVLDGSRIHN
EAYEWARKMAVDALEYDEEEGNPATALEEIINDPEKLAELDLDAFARELE
RQGFGNKSITLYDIRAELYHMYKDLREPYRPPDPEEIFNIVTKENPETFY
IGKLINATVSGFTYKKPQGEELDQAAPIRAGEENVWQCPFCGRDDFPELT
EVWNHFDAGMCPGKATGVKIRIDNGVSGFIPIKNLSDKQVINPEDRVKIG
QTIFCRIVKINPERFSVECISKTSALVDKEHEWKPAKDDFYDEEAQARDM
EQSTMKKKQQERQTYIKRVIVHPSFYNVGYKEAERLIAGMDQSDVVIRPS
SKGEDHLTVTWKVTDGIYEHIDVREEGKLNAFSLGQSLWIGNEEFEDLDE
IIARHINPMAAHARDILNFKYYRDTEGGKREVADEMLKADKAASPGKIHY
FLSVSKAYAGKFMLSYLPRTKTLHEFVTVTPDGFRFRKQVFETLSSLMKW
FKEHFRDPLPGTPNTPGRLTSRTPYMTGGTPGPGTITPGAMSLATGTPYG
TTPGAMSNYGVSVNTPYTPSGQTPFMTPYHTPGPSTTPRPSRGTPGPTPN
RSFPTVPTPRSSSGGGGXVPSSGGRPSGGQXSHQQGRVRSSYSKSPAHGH
RGGDSWQAALDAWPGGSSRRTPRQGDGSNTPRGFDGRQKTPKYGGNNTPK
RTPKAFGDATPLYDE
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mRNA from alignment at LSalAtl2s1031:69376..75813+

Legend: exonpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAT00000000233-696080 ID=EMLSAT00000000233-696080|Name=EMLSAT00000000233|organism=Lepeophtheirus salmonis|type=mRNA|length=6438bp|location=Sequence derived from alignment at LSalAtl2s1031:69376..75813+ (Lepeophtheirus salmonis)
CATCAATATACAACTTTATATTATGGAGGGAAGTCATACTTATTAGTATA TATCCTCTGAGAGACAGGCTACTAAAAAGTAAGCTACCAAAATTTAATAA AAATAACATCAAATGAGAGTTATAATCAAAGAAAACGAACATACATGTGT AATATTATAGTTAATCTTAATAGTAATATACCTATATAATGTAAAATGTT AGCGCGCATAGTAATAGTAGTTCGAACTCTTTGAAACCGTTGCAGTACTA GTAGTAAATGAATTTATAAAGTAGCGAGTGAATCAGGAGCCAAAACTGCC TTGAGACWRGCAGASCAGCCGTAAACATTAAATATTATTTATTAAATAAT TCAACTCTTCCATTTAGTACCCCGGAATTAAATAGGATTTCTGGGGTTAA GGAGGGAGCATTGAAGGAGAGAAACTCGCTGTTCTACTCTTCTTGATTCC TAGGGACTTTTTCGGGGTAAGCATTTGGAGCTCCTTTAGTAAATGTTTAA TGTGCGTCTTTGTTGTTGAACGTGATTAGATACGTACGTCTCATTGAGGC GAGGATCGAGGAGTGTGATGGCAGACTTTATGGATCAAGAGGCAGTGGAA GACTCTGAGGAGGAGATGTCGGCAGAGGAGKCTTCTTCCCGTCGGCCCAA AGGGAAGAAGAAGAAGAAGCATAGCCGGCAGTTGAGTTCGGATGAGGAGG AGGAAGAGGAGGATGAGGACGAGGAGAAGGCCCGTGAGGACATGAAGGGC TTCATTGACGACGATGACGATGGTGTGGAAGAGGAGAAGGAGTCTGTGAG TGGGTCGGACACTGGGGAGTCCTCCTCGCGGCGACGTAAGAAGAAGCGTC GGAAACGGCGCTCCGAGGACGAAGAGGACATTGATGAAGAAGATATGGAG CTGCTTCAAGAGAATTTGGGTATCAAAATCCAAAAGAAGCGCAAACGTAT CCGAATGGGATCTGGATCTGAAGAGGACTCTGATGGAGAGTCCCGCATTG CTTCTCAGCGCAGTAGTGGGGACTCTGAGGGAGAGGCTCATGACAAGAGA AGTAGCAGTGGAAAGAACAAATCCATTCGAGCCTCTTCCGTGGCCACAAG TTCCAAGGCTGGCTTTATTGACTCTGAGGAAGAGGCGGAAAAGGCCATGG AAGAGGATGAAGACGATGGATTTATCGTGGATGAGGACGGTGTTCCTATT CAGAAACGGAGAAAAAAGAAGAAGACTCATATATTTGAAGATAGTGCAAG ACAACTTGCCGAGGATATTTTTGGAGTGGCCTTCGACTATGAAGAGTTTG AGGATGATAGAGTTGAAGAAGAATCCGACGACGAGGAGGAAGATGACTAC GATGACGAGGAAGCAGCAGAGGCTCSMAGAMTCAARAAAMTTAAAAAGCA AAAAAGAAAGWCGGCTAAAACCATTTTTGAGATATTTGAACCACGAGAAT TGGAGCTTCGTCACTTCACAGATCTTGATAATGAAGTGAGGAATACGGAT ATTCCAGAGAGAATGCAACTACGCTCCATTCCTGTGACTTCAGTTCCTGA GGGTTCAGATGAACTGGATAGGGAAGCAGAATGGATCTTCAAATATGGAT TCATCAAACCAACAATATCGAAACAAGATGGCTATAGTAGAGACGATTGT CAAGAATGGGTTCGAAAAGATCGGACAGTTGAAAAAATTAAAAAGGCACT TGACTTTATGAGACAGCAATTTCATGAAGTTCCCTTTATTGCATTTTATC GCAAGGAATATGTTGAACCGGAGCTAAAGATAAATGATCTTTGGAGAGTA TATTTTATGGATGAAAATTGGTGTCAATTACAAAGTCGAAAGAAAAATTT AAGGAAATTATTCAAGAGCATGCAAAATTGGCAAGGAGAACAGTTGGTGG CTGATATGGATAAACCCATTCCTGAAGGAATGCGCATACTATCAAATGAG GATCTTCAAAATATTGATAATATTGAAAGTTATGAAGAGCTTAAAGACAT GGATCTTTTTTTCAAACTCTACTATTCCAAGGATCTCGAAGCCATGCAAA TAGCAATAAAACAAAAGAGGCGTGAAGCTAGAGAAGCTAAACGTTCAAAT CGCAAGAAAAAAACAAAAATTATAACGAATGAAGACGGTGAAGAAATTCA AGTCACAGATGAAGAAAGTCCGGTTCTAGACTCTGAAGATTCGGCTACAG ATGACCAAGATTTGCTCAGACAAGCGAGTAAAAATGATCCATACTCAATT TGTAGAAAATATGGACTGATTGGTATGTCTAAAAGGTTTGGACTTACGCC TGAACAGTTTGCAGAAAACTTACGAGATGGATATCAAAGGCATGATTTAG ATCAGGAGCCTTCTGAACCTCTTGAAGTAGCTGCAGAATATGTCAATCAA AAATTCAAGGTAATTACATAGTATATATTATTACTATTATGTGGTATTTA AAATGTGTATTCCTTTCTTTTTCTTCCTACAGGACCCTAATGATGTCCTT AAAGCCGTCAAGTTTGTTGTTGCAACGCAATTAAGCAGAGAGCCGGAGGT TAGACGTGTTACTCGAGAGATTTTCAATGAGAGAGCCACGATATGTGTTG CTCCTACAAAAAAAGGATTGACGGAAATTGATGAGAGTCACTACTGCTAC TCTATGAAGTATCTCAAGAACAAGTTAGTTCGAAATTTGAGTGGTACACA ATGGTTAAATTTGACTGCTGCAGAGGATCAAAAGCTGATAACAATAACCA TTGCAACGGAAATACCTTCTTTATCTGGAAACAAACAAAGAAATCACTTG GAAGAAGCCAAAGAGCTATATAAGCATGATGGTTTTTCTAAACATGTGAC CGAGTGGAATAATCTAAGGGCGGAATGTATTGAAACAACGTTCAAGGAAA TAATTTATCCTGTTCTTCGACAAGAGCTTCGTATACGACTCACTCGTGAG GCCAAGGACGGTGTTTTACGGCAATGCAAAAACAAAATGTACGATTATTT AAAAACCGCCAAGTATACAGTTTCATTTGAAGAGGAAGATGAGGATGACT GGGATTCATCAGGAGGGTGTCGTGTTATGTCCATTTCCTACGAGAATGAT ACTGACGTTGCTTCTTATGCCGTGTGCATTGGAGTGAATGGTGAAGTAAT CGATTTTTTAAAAATGGAGGCCTTGCTTATGAGAAGTAACATTTCTCAAG ACTCTAAGAGGAACAGACCATCTGGTGATCGTCGAAATAAGGATGTCGAT ATGGCTAAATTAAAAAGTTTTATTATTCAAAAGAGACCTCATGTTATTGT TGTTGGGGCAATTGATAGAGATGCTGTGCGAGTAAGGTATGATGTGGAAG CAGTGGTTCACGAGCTAGTTGAAGGAGAGCATCAGTTCCCAAAGATTGGC GTATTTCTCATGGATGACAACCTTGCTAAAGTATATTCAAATTCTACTCG AGCATCCCAAGATTTCAGAGACTATCCCAATGTATTAAGGCAAGGTATTA GCCTCGCTCGTCGTATGCAGGATCCTTTGATAGAGTTCAGCCAATTGGCA GGRCCAGAAAATGAAATACTCTGTTTAAATTTCCATCCTCTTCAAAATAG ACTTGAAGAAGAAGAACTTTTAGAGGCAATCAATATTGAATTTATAAATC GGACTAATGAAGTTGGTGTTGACATCAATGAGTGTGTGAGTCGACCACAG ACCTCGAATCTTGTTCAGTTTGTTGGTGGGCTAGGTCCACGAAAAGGTGC TGCTCTTCTCAAAACTTTAAGACAAATGCAGTCATCTCAAAGACTGGAAA ATCGACAACAACTCGTTACCCTTTGTCATATGGGTCCTAAAGTGCTTATT AATTGTGCGGGTTTCATAAAAATTGATACAACCTCCTTGGGAGACTCGGA GGTGTACTTGGAAGTGCTTGATGGATCCCGTATTCACAATGAAGCATATG AATGGGCAAGAAAGATGGCTGTGGATGCCCTTGAATACGACGAGGAAGAG GGGAACCCCGCAACTGCGTTGGAGGAAATTATAAACGACCCTGAAAAATT AGCTGAATTGGATTTGGATGCATTTGCTCGGGAGTTGGAAAGACAGGGTT TTGGAAATAAATCTATTACCCTTTATGATATTCGTGCAGAACTTTACCAC ATGTATAAGGACTTACGTGAGCCATACCGGCCTCCAGATCCGGAAGAAAT TTTTAATATCGTAACTAAAGAGAATCCCGAGACTTTTTACATTGGCAAAT TGATAAATGCTACCGTGTCAGGATTCACTTATAAAAAACCTCAAGGGGAA GAGCTTGATCAAGCTGCTCCTATAAGAGCGGGAGAAGAAAACGTTTGGCA GTGTCCATTTTGTGGTCGTGATGACTTTCCCGAGTTGACAGAAGTGTGGA ATCACTTTGATGCTGGAATGTGTCCAGGAAAAGCTACTGGCGTCAAAATA CGGATCGATAATGGTGTATCTGGATTTATTCCAATCAAAAACTTGTCAGA CAAGCAAGTAATTAATCCAGAAGATCGAGTCAAAATAGGACAAACCATCT TTTGTCGTATCGTAAAAATTAATCCCGAGCGTTTTTCTGTGGAATGTATA TCCAAAACATCTGCTTTAGTGGATAAAGAGCATGAGTGGAAGCCCGCCAA GGATGATTTCTACGATGAAGAAGCTCAAGCTCGTGATATGGAACAGAGTA CTATGAAGAAAAAACAACAAGAAAGGCAAACTTATATTAAACGAGTAATT GTTCATCCTAGCTTTTATAATGTTGGCTATAAGGAAGCTGAAAGGCTTAT TGCCGGAATGGATCAGAGTGATGTTGTAATTAGGCCTAGTTCTAAGGGGG AAGATCATCTCACCGTTACCTGGAAAGTGACTGATGGAATATATGAACAC ATTGATGTTCGGGAAGAAGGAAAACTTAATGCATTCTCCTTGGGACAGTC TCTTTGGATTGGCAATGAAGAATTTGAAGATTTAGATGAAATAATTGCAC GTCACATCAATCCAATGGCGGCACATGCCAGAGACATATTAAACTTCAAG TATTACAGGGATACAGAGGGTGGAAAGCGAGAAGTAGCAGATGAAATGCT CAAGGCAGACAAAGCTGCAAGTCCTGGTAAGATCCACTATTTCTTATCTG TCAGTAAGGCCTATGCGGGTAAATTCATGCTGAGTTACCTTCCACGAACA AAAACTCTTCATGAGTTTGTGACTGTTACTCCTGATGGGTTCAGATTTCG GAAGCAGGTTTTTGAAACGCTTTCATCCCTCATGAAGTGGTTTAAGGAAC ATTTTCGAGATCCTCTTCCAGGTACACCAAATACTCCTGGTCGCTTAACA TCTCGAACTCCTTATATGACCGGGGGTACTCCAGGGCCAGGAACTATAAC GCCTGGTGCCATGAGTCTCGCTACAGGAACTCCATATGGTACAACTCCTG GAGCCATGTCCAATTATGGAGTAAGTGTGAATACTCCATATACTCCATCT GGACAAACTCCATTCATGACGCCTTATCACACTCCAGGCCCCTCAACAAC ACCTCGGCCATCTCGTGGAACACCTGGACCAACTCCAAATAGGTCATTTC CTACAGTACCTACTCCAAGAAGTAGTAGCGGGGGKGGTGGKAAWGTTCCT TCTTCTGGTGGTCGCCCAAGTGGAGGRCAGKCCTCACATCAACAAGGTCG TGTAAGATCCTCTTATAGTAAAAGTCCAGCGCATGGTCATCGCGGAGGAG ATAGTTGGCAAGCTGCACTTGATGCATGGCCTGGTGGATCTTCAAGGCGT ACTCCTCGACAAGGCGACGGATCAAACACGCCCAGAGGTATGTCAAAATA TAACGTTCTTTCTATCAAATTCATTCACGTAATTTGTTTCATTTTCAGGA TTTGATGGTCGCCAAAAGACTCCAAAGTACGGGGGAAATAACACTCCTAA GAGAACTCCTAAGGCCTTTGGAGATGCTACACCCTTATACGACGAGTAGA AAGAAAGTGCTGTACTTAAAACTATGTATTTTGATACCTTTTTATTATTA TAAAAAATATACAATGAATATATTTATATATTTGCGGATATATAACGTAT GATTAAATATATACATATATATTTATAAAGGTATATATTTTTTTTTAGTA TTGTACTTGATGTACCTAATGTTTAATTAATTATCTTTCAATTCGTCAAT ATAATTCCTTTTGTCAGTGCATCATACATGATTAATTATATAGGACTTAA CATTGTACAACATAAAGATTTGATATACATTTCTCAGGGGAAGGATTTAT GCTAATAATAATTAAAACATTTTAAATGGATGATTGTTTCCTCTTCTCTA ATTTAATGTTTATATTAATATTTATTTCCGAATTACAATAAATATAGGTC TGAATTATTATAATTTATAATAAAATTCCAACTGGATT
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