EMLSAT00000010815, EMLSAT00000010815-706662 (mRNA) Lepeophtheirus salmonis

Overview


Name	EMLSAT00000010815
Unique Name	EMLSAT00000010815-706662
Type	mRNA
Organism	Lepeophtheirus salmonis (salmon louse)

Associated RNAi Experiments

Nothing found

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
LSalAtl2s718	supercontig	LSalAtl2s718:102476..108918 +

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


Database	Accession
Ensembl Metazoa (transcript)	EMLSAT00000010815 (primary cross-reference)

Relationships

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


Feature Name	Unique Name	Species	Type
EMLSAG00000010815	EMLSAG00000010815-693581	Lepeophtheirus salmonis	gene

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


Feature Name	Unique Name	Species	Type
EMLSAE00000048239	EMLSAE00000048239-757167	Lepeophtheirus salmonis	exon
EMLSAE00000048240	EMLSAE00000048240-757168	Lepeophtheirus salmonis	exon
EMLSAE00000048241	EMLSAE00000048241-757169	Lepeophtheirus salmonis	exon
EMLSAE00000048242	EMLSAE00000048242-757170	Lepeophtheirus salmonis	exon
EMLSAE00000048243	EMLSAE00000048243-757171	Lepeophtheirus salmonis	exon

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


Feature Name	Unique Name	Species	Type
polypeptide-auto772182	auto772182	Lepeophtheirus salmonis	polypeptide
EMLSAP00000010815	EMLSAP00000010815	Lepeophtheirus salmonis	polypeptide

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at LSalAtl2s718:102476..108918+

protein sequence of EMLSAP00000010815

>EMLSAP00000010815 ID=EMLSAP00000010815|Name=EMLSAP00000010815|organism=Lepeophtheirus salmonis|type=polypeptide|length=859bp
MEAYLIFITIFTFCSMSLYFDFLYEVSLNLAFTLFIFAFVNWTALITMDL
LGSILGSMNGPPQTVLSEKEKERRKRQKVYQEKLLEKRRVEMEAFRSKME
KDVEKFLKECLSEKSKTFPTMNQYHRSILKDVCEVAGLVAYSFGEEEVNR
HIVVWKQEFAPSEEELACHRRGEKYDPQEIERRKVILKAQEVQERKEDTK
SKPSQEPKVSYLDKFKGLIETGNPEAVNAKKSYGMVSAESKKDKRTVEEN
ENSYVMKEIKTSQFNEKEREDVSQEVDLLSRLNHSNIVSYYESFSERNCF
YIIMEYCELGDLYTKINRQRGKLFPETLILGYFVQICRAVEYIHERKILH
RDIKSQNILISKNRVCKLGDFGIARIIDGTTDYAKTCVGTPYYLSPEVWE
NKPYNNKSDLWALGCVLYEMTTLKHAFEAGCMKNLILKIIRGSYPPISPT
YTYDLRNLIQALLRKKASDRPSLTSIFRKGFIKKAEQDNLRSLSTHKKIS
KSSGTISSTQSRVQSGLSRPKSSVVNNKSNPTPKVNLNHKKLTKPSKTPV
KQSDDTFTLRVGGNKELSFKNGFPFVQLEEKPANNNTKVNPEPENASKAE
EESERIRKRKEIISERRRKLQSVRESNKNNSGVMWIDFSDSKSETNTISD
GDERLHQNDTFVVPINDISGEETVPEGVNEERGGGVLKVFKKFICTANEG
STVFENHETLKKDSTHSIEETTEVQEYTNDYRSQSLPAYHPYYRKPREEF
REIQLERPDSSDEIWDLSSIPKTPSASFRKTDDIFSTLEGQRAYLERRVG
VDNLLTVYKLISNCVSDTDDDKQLHIMDFQKILGKGNETLIDDIVQLVVA
DQFFQNFEE

mRNA from alignment at LSalAtl2s718:102476..108918+

Legend: polypeptideexon

Hold the cursor over a type above to highlight its positions in the sequence below.

>EMLSAT00000010815-706662 ID=EMLSAT00000010815-706662|Name=EMLSAT00000010815|organism=Lepeophtheirus salmonis|type=mRNA|length=6443bp|location=Sequence derived from alignment at LSalAtl2s718:102476..108918+ (Lepeophtheirus salmonis)
ATGGAGGCTTATTTAATATTTATTACGATTTTCACAGTATTTTCCACGAG
GAAAGAGCAGGGAAAAGAAATACAGACAGAGATAGGGAGAAAAAAATTCA
TAATTTAATTCCTCTTGTTGTTTCTGTGTGTATCTACATAACAACTGGCA
CCAAATAGTTAAAAATGGCGGGAAATGAACCTCAGTTTTTCATATCAAYC
ATTACGTAATTCTTGGGTATATTTCATATCATAATTCATAGTTCATATCT
ATGCCACAACATCATTTCGTCAAATTCATTTGCTTATTTAATTAATTTTG
CAACTAATTAAAATTAAAACATAATTTAAATTGGTATTTAAAATTATTTC
AAATATAACAAATACTCTCAAATTAATCACATGGTCAAGTATTCCAAGAA
AAATAATATTAATTAATTTAAATTAATATTCTTGTTTATGCAACACTTCG
ACATTTTCTCAACATACTAAGATCGTAGAACGCTCATAATACTACTAAGA
TGTAAAATAGAATTGAAATACCCACCTTTTCTTCGTAAATCATATTATTA
CGATGTGACCTTAAATTTGAAGTAAATTGAGTTATGCTTTTGCACGTTGA
AATACATATTTTTCCGTTCTTAAATGTTAAATATATTTTGTTATTGTGAT
GTATTCACGATTTGAAACATCGAAATAATGTGGTTCAACAAGTCAAAGCA
GAAAGTTGATAGTGAAGTAATACTAAACTTGCACGAATGAATTATAGACA
TTTTTTGAATAAAAAACTTGCTTTCTTTAAAAATATAATTTTTTCGGAAT
ATTTTCTTAACGTATATTACGTGTTTGTCTTCATGGTGAACTATTACCTA
ATATAATTAATTATTAATAAAATGTCGAAGAAATGGAACAAGTTTTCGTA
AATGCCCTTTAATCGATTATAAGATTAAATTAACTCATTTTACAAATGAA
ACTGTTAACATGCTTAGCTATTTATCTGATGAAACTGATCATAAAATTAC
CTCACCCATAGCTAGGAGCTTCAACATCATATTTATGAAAATTGGAAGAT
CTAAAACTTGTCAAACCAAGGAAGACCAAAATAATTATCTATATGGAGAC
ATCTTTTATTTTTGAGAAATAATAATATATTATGGCTACTAACTTTCTCA
AGTATTGTGTAGCAGATCCATCTTATTGCGTTTAATTTCAATTTAGCTCA
TGAGCTTAGAATATACCTATTACAAAAATATATTTTCAAAATGATTTAAG
CATTTTGTTTCATGACAATCCTGCGGACACCCGCCCCAGAGTTGGATTAT
AATGATTCATAAACTTTATTCTATTGATCAATTTATTAACGATAATAGTT
TTGTAGTATGTCATTGTATTTTGATTTCTTATATGAAGTCTCACTCAACC
TCGCGTTTACATTATTTATTTTTGCTTTTGTGAACTGGACTGCATTAATC
ACGATGGACTTATTGGGCTCGATTTTGGGTTCTATGAATGGACCTCCGCA
GACTGTTCTCTCAGAGAAGGAAAAGGAACGTCGTAAGCGACAAAAAGTTT
ATCAGGAAAAGCTCCTAGAAAAGCGCAGAGTCGAAATGGAGGCTTTTCGT
TCAAAAATGGAAAAAGACGTAGAGAAGTTCCTAAAGGAATGTCTTTCCGA
GAAATCAAAGACATTTCCTACGATGAATCAATATCATCGCAGTATTCTTA
AAGATGTTTGTGAAGTTGCTGGACTTGTAGCGTATTCTTTCGGCGAAGAA
GAAGTGAATCGACACATTGTAGTCTGGAAGCAGGAATTTGCACCTTCCGA
AGAGGAACTAGCCTGTCACAGACGTGGAGAAAAGTATGATCCCCAAGAAA
TTGAGCGTCGAAAGGTGATTCTTAAGGTAAATAATTGAACCATAATAGGT
AGTACTTTGTACAGATTTCTTGTTTTACATATTAGATCTATAAAGTATTT
ACTAGTATTAATTGTTAATTATCATATCTTGGGGCTAATGTCATTCTCTC
TTCCTTCGTTAAATGAGATTGGTATTTAGACAAAATAAGATAAAATGCTG
ATATATTTAGTTAAATAGTCTCTCACTTTAATTTGTCATTTTTCAGGCAC
AAGAAGTCCAAGAACGAAAAGAAGATACAAAATCGAAACCGTCTCAAGAG
CCTAAAGTATCCTATTTAGATAAGTTCAAAGGTCTGATAGAAACTGGTAA
TCCAGAAGCTGTGAATGCAAAAAAGTCCTATGGTATGGTATCAGCTGAAA
GTAAAAAAGATAAAAGAACTGTGGAAGAAGTACAAGCGGAAATCCGAGCT
AAAAAACGGGCCAAATTGGACGAGTCTTGAACCTATATTGAAAAAAATAG
ACTTATTATTAAATATATGAATATATTTTGATCCTATTCATACCTTTGTC
TGTTTAATTAAGTTATAATTCATTCACTTTCATGTATTTAGGTTGTAGGA
AGGAATTTTGGACTCAAATGTTAGTTTTTTTTGTTTTTTTCTTTACAGTT
ATTATCTCGATCAAAATATACTATTACTCTAATGGATTTTTTTAAATTAT
GTACTTATTCAAAGTCTAATATAAATATTATGGGAAATTGTAAAGAATAA
TAACCCGAAGTATTAAATAAGGATTTTCCTTACATAATATTGTATTGCTG
TTGAAAATCACATTATACAAAGGACCTTCGAGTTTGTGTTATCCTTGTAA
CTTATGAAATTCCCTACATATATTATGGTTTTTAATAGGATAGGTGATTA
TTTTTTTGTTTGTTAATATGAGTGTGTATATAGCCGGGATGATGATTGTA
TGTAAATAGAGTCAATAGAAGAAAATGACTCATGAAAATGGCTACATCTT
TTAAAATGTTAGTGAAATAATACGAATATTTGTTTCTTCTAATTTCATGT
TTACATGTATACAATAGGGCGGTTTGTTTTTCAACTTTTTTCGAATGTCG
ATCACGGCTAGTTCGGAAAAGTTGTGATCTGTTAAGAAATTCACCTAAGC
AAAATTTCATTTTCTTACGATGTCATCTTTTCGTAGCAAATTTAATTCAA
ATTTTGAAAGGAGACAACCATTATTTATTTCTTCAATAAGTATTAAAATA
CAGCATTAATCTTTATTTTGCATAGATTTGTTATGATAGACATTTTTCTA
CCCTATATTAAATATGTATTTATAAAGTTTTTTTATAGCTGCTCTATAGA
GCAAAAAGGGAAAATAACAAGAAAATTTTGATCTTTTCTTTCTGAAAATG
TCAGAAAATGATGCACGTTATACACAGTACAACTAATGTTCCTAACTTCT
TTTTTTTTTTTTTTGTTGCATATGATAATTTTAGAAATACACTTTTGATA
GGTTAATAAAATGTCTATTGAAATTATTTTATGCAAAATAACTAAACATC
ATTTCTTAGTACCTATATCTATTCACTAAGTAAAGAGTTTTTCCCTTTTT
CATAATTTGATGGAGATGTGGGACTAAACATGACCTCGTTGGATAAAGCA
AATTTCATACKAAATACACTTTTTGCACTAGCCGTAATCGAAATTCGAAA
AAAGTTGAAAATAAACCACTCTTTTAAACATATAAAAATGATTTTTTCAT
GCAGAGATAGAAATACATAATATATGAAAAGATATCATCTGCAAAAATTT
CATTATTTATAGCATTTCAAGGTACAATCATGTACAATTTATTTATGCAT
TACATCTTCAGAAAAAGAAAGAAGGAATGAATTATTTTTAAAGGCAAATT
GTCAAGGTAAATTTCTTGTTTACAAATGAAAATAAATAACTAAAACATTT
GTGATGTCAATTTTGGTATTCGTTAATAATAAAAAAAGATAAATCGTTCA
TAATTAGACAGGTAGTTTTAATTCACAAATACTATCATTGTTGACACTTC
GATGATTTTAATCAGTTCCATCCTCACTGATTAATATTCAGCCATAAACT
TATACTTTAATAACGTGTATGCATTAAAAAAATGTATTGATCAAACTTCA
AGTAATGTGTGTGTATTGTATTACTATTGTATAACTTCTGCGAACTCTTC
AGTAAGTTTGTTCGGGCATGCTCCGCCTACGTAGATTTCAAATTAATTTT
TAATATTCTTTTGCCAACCAGAAGGAGCACAACTACTTAATCTTTTACTT
ATGATTGAATATGGATAATTATGAAATTGTTCGTAAAATTGGACAAGGCT
CTTTTGGGAATGTTTACATTGTGTCTTCAAATTGTAAAAAGAATGAAAAT
AGTTATGTGATGAAAGAAATTAAAACATCTCAGTTCAATGAAAAGGAACG
TGAGGATGTGAGCCAGGAAGTGGATTTATTGAGTCGTCTTAATCATTCTA
ATATTGTGTCATATTATGAGTCATTCAGTGAGCGCAATTGTTTCTATATC
ATCATGGAGTACTGTGAGTTGGGTGATCTATATACGAAGATTAACCGTCA
AAGAGGAAAACTATTTCCAGAAACCCTTATTCTTGGATACTTTGTTCAAA
TATGTCGAGCAGTGGAGTACATTCATGAACGAAAAATTCTTCATAGGGAT
ATTAAATCTCAAAATATATTAATAAGTAAGAATAGAGTTTGTAAATTAGG
GGATTTTGGTATCGCTCGCATCATTGATGGAACAACAGATTACGCTAAAA
CATGTGTAGGAACTCCATACTATCTTAGTCCAGAGGTTTGGGAAAACAAG
CCGTATAACAATAAATCAGATCTTTGGGCTCTTGGTGAGTGTAAAATTTA
CTTGCTTTTAAGACATTGTATCTAGACAAATTTGGTAATCATGTAAAAGA
TAAAACAATCAATAATTACCTCATTATTAATAAATATATCTACTTATTTT
TTTAAAGTAAAAAACATTATGTAATTCTAATATGTGAAACGATTTACTCA
AGGCCATTTTTATTCTAGCTAAGCAATTAAATCTTAAAAAATAAGTTTAA
TGAAACTTTGGTACTAATTACTTTTATTTAAATCACTTTTACAGGATGTG
TTCTTTATGAAATGACGACTTTAAAGCATGCATTTGAAGCTGGTTGTATG
AAAAACTTAATTTTAAAAATTATCAGAGGGTCGTACCCGCCTATATCACC
GACATACACTTACGATCTACGAAATTTAATACAAGCTTTATTGCGTAAAA
AAGCATCTGATCGGCCAAGTCTAACTTCAATTTTTCGTAAAGGATTTATA
AAAAAAGCGGAACAAGATAACTTACGTAGTTTATCAACGCATAAGAAAAT
TTCAAAAAGTTCCGGTACAATATCATCCACGCAAAGTAGAGTTCAAAGTG
GCTTATCCCGACCCAAATCTTCTGTGGTCAACAACAAAAGTAATCCTACT
CCTAAAGTAAACTTAAATCATAAAAAACTTACCAAACCTTCCAAAACTCC
TGTAAAACAATCTGACGATACTTTTACACTCCGAGTTGGTGGTAATAAGG
AACTTTCTTTTAAAAATGGTTTTCCATTTGTACAATTAGAAGAAAAACCA
GCGAATAATAATACAAAAGTAAACCCTGAACCAGAAAATGCATCTAAAGC
TGAAGAAGAATCAGAGAGAATTCGGAAGCGAAAAGAAATCATAAGTGAAA
GAAGACGGAAACTTCAGTCTGTCCGTGAATCCAACAAGAACAATAGCGGT
GTTATGTGGATTGATTTTTCAGATTCTAAAAGTGAAACAAACACGATCTC
AGATGGAGATGAAAGACTGCACCAAAATGATACTTTCGTAGTTCCCATCA
ATGACATTAGTGGAGAAGAGACTGTTCCAGAAGGTGTCAATGAAGAGAGG
GGAGGAGGGGTTCTAAAAGTCTTTAAAAAATTTATTTGCACCGCTAATGA
AGGATCAACTGTTTTTGAGAACCATGAAACTCTTAAAAAAGATTCTACAC
ATTCTATAGAGGAAACCACAGAAGTACAAGAATATACAAATGACTATCGT
TCTCAGTCATTACCTGCGTATCATCCATACTATCGTAAACCTAGAGAAGA
ATTTAGGGAAATTCAATTAGAAAGGCCAGACTCGTCTGATGAAATATGGG
ATTTATCATCTATTCCAAAAACTCCTAGTGCATCTTTCAGAAAAACAGAT
GATATCTTTTCCACATTGGAAGGGCAAAGAGCCTATTTAGAAAGACGAGT
TGGAGTAGATAACTTATTGACTGTGTATAAATTAATATCTAATTGTGTGT
CAGATACTGATGATGATAAACAACTTCATATCATGGACTTCCAAAAGATT
TTAGGCAAAGGAAATGAAACTCTCATAGACGATATTGTACAACTAGTTGT
TGCAGATCAGTTTTTTCAAAATTTTGAAGAATAATATTCATTTATAATTC
ACAATTTTAATATTGAATATGTATGTATAAGATTGAAACTTCATTAAATA
TTGCATATACTGTTTTTTTAAAGGCAATCCTTAACATTATGCA

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