EMLSAT00000006690, EMLSAT00000006690-702537 (mRNA) Lepeophtheirus salmonis

Overview


Name	EMLSAT00000006690
Unique Name	EMLSAT00000006690-702537
Type	mRNA
Organism	Lepeophtheirus salmonis (salmon louse)

Associated RNAi Experiments

Nothing found

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
LSalAtl2s371	supercontig	LSalAtl2s371:395392..401754 -

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)	EMLSAT00000006690 (primary cross-reference)

Relationships

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


Feature Name	Unique Name	Species	Type
EMLSAG00000006690	EMLSAG00000006690-689456	Lepeophtheirus salmonis	gene

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


Feature Name	Unique Name	Species	Type
EMLSAE00000029322	EMLSAE00000029322-738250	Lepeophtheirus salmonis	exon
EMLSAE00000029323	EMLSAE00000029323-738251	Lepeophtheirus salmonis	exon
EMLSAE00000029324	EMLSAE00000029324-738252	Lepeophtheirus salmonis	exon
EMLSAE00000029325	EMLSAE00000029325-738253	Lepeophtheirus salmonis	exon
EMLSAE00000029326	EMLSAE00000029326-738254	Lepeophtheirus salmonis	exon

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


Feature Name	Unique Name	Species	Type
polypeptide-auto777247	auto777247	Lepeophtheirus salmonis	polypeptide
EMLSAP00000006690	EMLSAP00000006690	Lepeophtheirus salmonis	polypeptide

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at LSalAtl2s371:395392..401754-

protein sequence of EMLSAP00000006690

>EMLSAP00000006690 ID=EMLSAP00000006690|Name=EMLSAP00000006690|organism=Lepeophtheirus salmonis|type=polypeptide|length=1536bp
MAPKNVEDDEIDLTDGASFPEEPLCLEITDFDAKSVSFKWKAPLSDGGNP
INGYFLQYHEIKGNDTEWTSGEKIKPTKFPNGTLNDLISGTRYEFRVLAQ
NRVGLGPPSEVTIPLLVRAQKSPPEISRKAVPESKSVKVNQQFVIEIPVH
GVPEPDITWWHKEAQVLPSNNIKISYHQDTAKIIFVHAVRALSGVYTIKA
NNIHGEDLVEFIVDIYGPPSSPKGPLNISEITKKTCFLQWSFPEDDGGRT
ISNFEVEKMDVTKGENSWLLCGSPKGLSYRVTNMVEGHKYKFLVRTVNSS
GFESAELYSSEDILAKNPYDPPSTPTKPKVMDWGENWADLEWIXPQEDGG
TEILEYFVEVRNTCKRNWIQGVVTKSTSCQISSNSGLISPGNDYQFRVAA
KNKGGEISEFSSPSSTIKAEVRFIKPKINRDILIAEKNIHAGQTLRLEIE
VTSAPLAKVTWYYPNGSEVCQLQEGPKINSGIDEYGLANLSIENILRSDS
GIFKCIASNSEGLDEVQVRVEVLDVPSPPIGPLNISDVTPSSCKVSFKRP
GDMGGSPITGYQIERRVKDKDVWINCGKTTNKTVLIMRDVECDVKDLIEG
QIYFFRASAININGESDPLESKVPICAKXAIELPFPPFEPAIVDWDKKWV
SLGWNAASDSNIRHFIVEAQEQFLVPKSGESNKKKRKQKKKKRSQEDSDD
EESSSEEDEGYIEEEHSDKKDMNKMLHKEFVEYCTQWTKVLVTEDDSCEA
KISDLSEGTKYRFRVRAVNSAGISMPSEETDEIICRIKKQRPTIDYSSLP
SEVYVPCGQNVIIPVKVEGQPIPKKVWTYGGKIEIKQSMSIDITNKDTSS
KLVLYGGRKDDSGIYTFKASNIHGEDSVDIKDAKLNGISQKMMVGSKITH
YVIEKINKSHSEWSTCGRTSDTKVTIVGLTPSKEYRLRVRAVNNEGESDP
LEGVDSFITENPWGPPSSPGRPILNDYDHDHLNIKWDPPKNDGGSRVTGY
QVQIRPWRGSEWEFAEDVKGQTERTTIDEGLKLGKTYATRVRALNSGGVS
PWSIESDPLTVKYKALPPKIHLTIQHPMENKKIVMKAGETLSIDAMIPSE
PPANDIVWTLANKDVIDDPLSGIYIDSTHDNFSSIRKTGMTRRDAGIVSC
KATNLHGKDICEYEVKVISAPSIPDGTLDVSQIHKSGCRLNWDAPRDNGG
LPIEYHVDVFIVKADAWTSYGSTKNLFMDVNDLEHGHEYEFCVKAXVPLS
PYAPEVTDWSERHMDITWKEPIDDGGAYIHGYHIEAKSKDTGDEWQLWET
IDTNTCNGKLQNLRQGVFYQFRVIAINKAGKSEPILPYIDTKSLHDVTVE
VGSRVKFDLPITGEPKPSIEWLHKDTDTVLSSTTEKSLVIETTDNSSKII
FNSVTRSDAGTYVLNIKNSSGTDTAKFNINVLDKPDAPESITSSVLKSDD
HNDHPKVSLVWKRCKFDGGSPIEYYQIERFEFEKQGWIACGRSKENTIDI
KGIFNPGESYKFKVSGXNLYGESDAIESTVNIPDNY

mRNA from alignment at LSalAtl2s371:395392..401754-

Legend: polypeptideexon

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

>EMLSAT00000006690-702537 ID=EMLSAT00000006690-702537|Name=EMLSAT00000006690|organism=Lepeophtheirus salmonis|type=mRNA|length=6363bp|location=Sequence derived from alignment at LSalAtl2s371:395392..401754- (Lepeophtheirus salmonis)
ATGGCTCCGAAAAATGTAGAAGACGATGAAATAGACTTAACTGACGGAGC
ATCGTTTCCAGAGGAACCTTTATGTTTAGAAATAACTGATTTTGATGCAA
AATCAGTTTCTTTTAAATGGAAAGCTCCCYTATCCGATGGCGGAAATCCT
ATTAATGGTTACTTTTTACAGTATCACGAAATCAAGGGTAATGATACCGA
ATGGACATCTGGTGAAAAAATTAAACCAACCAAATTCCCTAATGGTACAT
TAAATGATTTGATTTCCGGAACAAGATATGAGTTTAGAGTAAGTATTAAA
TAACATTTGAATACAAGTTACTATATATCTTTTTATAAGATTTTTTTTCT
GTGATTTGCTTTTCGTGATGTTAATACACTTGCTTCAGATGTATATAAAT
AGGACTAGACACTTTATTTTGTAGTAATTTTAAACTAATGATCTTACATA
ATTAATAATTCGGTTTCTTGAAAAACATGACATAATAAATATTTTATTTT
TGTGTATAGGTACTTGCTCAAAATCGTGTTGGTTTAGGTCCTCCAAGTGA
GGTAACTATCCCACTACTTGTAAGAGCACAAAAATCTCCACCAGAGATAT
CAAGAAAGGCTGTTCCTGAATCAAAGTCTGTGAAAGTTAATCAACAGTTT
GTAATTGAAATTCCAGTACATGGTGTACCAGAACCTGATATTACATGGTG
GCACAAAGAAGCTCAAGTTTTACCCTCAAATAACATCAAAATATCGTATC
ATCAAGACACAGCTAAAATAATTTTTGTTCATGCTGTTCGTGCTCTTAGT
GGGGTTTATACAATCAAAGCCAATAACATACATGGAGAAGATTTAGTTGA
GTTCATTGTTGACATATATGGACCACCATCATCACCAAAAGGACCTTTGA
ATATCTCTGAAATTACAAAAAAGACTTGTTTTCTCCAGTGGAGTTTTCCA
GAAGACGATGGCGGKCGKACAATCTCAAATTTTGAGGTAGAAAAAATGGA
TGTAACTAAAGGAGAAAACTCATGGTTACTCTGTGGAAGCCCAAAAGGTC
TTTCATATCGAGTAACAAACATGGTAGAAGGACACAAGTACAAATTTCTT
GTTAGAACAGTAAACTCGAGTGGCTTTGAATCAGCAGAATTATACTCAAG
TGAGGATATTTTAGCCAAAAATCCATATGATCCTCCTAGTACTCCTACTA
AGCCAAAGGTTATGGATTGGGGAGAAAATTGGGCTGATTTAGAATGGATA
MCTCCACAGGAGGATGGAGGKACTGAAATATTAGAATATTTCGTTGAAGT
TAGGAATACATGTAAAAGAAACTGGATTCAAGGAGTAGTTACAAAATCTA
CATCATGTCAAATTTCTAGTAACAGCGGCTTAATATCACCTGGTAATGAC
TATCAATTTAGAGTTGCAGCCAAGAACAAAGGTGGAGAAATATCAGAATT
CTCAAGTCCTTCAAGTACCATCAAAGCTGAGGTTCGATTTATCAAGCCTA
AAATAAACAGAGATATTCTAATTGCTGAAAAAAATATTCACGCTGGTCAA
ACACTTCGCCTTGAAATAGAAGTTACAAGTGCTCCATTGGCAAAGGTAAC
ATGGTATTATCCTAATGGATCAGAAGTTTGCCAATTGCAAGAAGGACCTA
AAATTAATTCAGGAATAGATGAATATGGTCTAGCAAATTTGTCAATTGAA
AATATTCTACGTAGTGATTCAGGTATATTTAAATGTATTGCCTCCAATTC
AGAAGGTTTGGATGAAGTACAAGTAAGAGTAGAGGTTCTTGATGTACCTT
CACCACCAATTGGACCTTTAAATATAAGTGATGTAACTCCATCATCTTGT
AAGGTTTCCTTTAAAAGACCCGGTGACATGGGGGGATCACCAATAACAGG
ATATCAAATAGAAAGAAGAGTCAAGGACAAAGATGTATGGATTAATTGCG
GAAAGACAACGAATAAAACTGTTCTAATAATGAGAGACGTAGAATGTGAT
GTAAAAGATCTCATAGAAGGACAAATCTATTTTTTTCGGGCATCTGCTAT
TAATATAAACGGAGAAAGTGATCCCCTTGAATCGAAAGTACCCATTTGTG
CAAAAYCAGCCATAGAACTACCCTTCCCACCATTCGAACCTGCTATTGTT
GACTGGGATAAAAAATGGGTAAGTCTAGGTTGGAATGCTGCCTCTGACTC
AAATATTAGACATTTTATTGTTGAGGCTCAAGAACAGTTTTTAGTGCCCA
AAAGTGGAGAAAGTAATAAGAAGAAAAGAAAACAAAAGAAAAAGAAAAGA
TCCCAAGAGGATTCTGATGATGAAGAGTCCTCTTCAGAGGAGGATGAAGG
ATATATTGAGGAGGAACACTCTGATAAAAAAGACATGAACAAAATGTTAC
ATAAGGAATTTGTTGAGTATTGCACACAATGGACCAAAGTATTGGTAACG
GAAGACGACTCCTGTGAAGCTAAAATATCGGATTTATCTGAAGGTACGAA
ATATCGATTTAGAGTACGAGCAGTTAACAGTGCTGGTATTAGTATGCCGT
CGGAAGAAACTGATGAAATTATCTGCAGAATTAAAAAACAACGTCCAACA
ATTGACTATTCATCCTTACCTTCAGAGGTATATGTTCCATGTGGGCAAAA
TGTTATCATCCCTGTTAAAGTTGAAGGACAGCCAATTCCCAAAAAAGTTT
GGACATACGGTGGTAAAATCGAAATAAAACAATCGATGAGTATTGACATT
ACCAATAAAGATACTTCTTCTAAACTTGTGTTGTATGGTGGACGTAAGGA
TGATTCTGGTATTTATACGTTCAAAGCGTCAAATATACATGGAGAGGACT
CGGTTGATATAAAAGTCATTGTTATGGTCWCTCCTGAAAAACCAAAAGGC
CCATTAAAAATATTTGATATCAATGCTGAAGGATGCAAAGCTGAATGGAA
TCTCCCAGAAAATGATGGTNGGATCAAAAATTACTCATTACGTAATTGAA
AAAATAAACAAATCCCACTCTGAATGGAGTACATGTGGAAGAACGAGTGA
CACTAAAGTGACGATTGTTGGTTTAACGCCTAGTAAAGAATATCGTCTTA
GAGTCCGAGCAGTTAACAATGAAGGAGAGTCGGATCCTCTTGAAGGAGTA
GATTCTTTCATAACTGAAAATCCATGGGGTCCTCCATCTTCTCCAGGTCG
TCCTATTCTAAATGACTATGATCATGATCATTTGAATATTAAGTGGGATC
CTCCTAAAAATGATGGGGGATCACGAGTTACAGGATATCAAGTTCAAATA
CGACCATGGAGAGGGTCTGAATGGGAATTTGCAGAAGATGTAAAGGGCCA
GACTGAGCGAACAACAATTGATGAAGGACTAAAATTAGGAAAAACTTATG
CCACAAGAGTAAGAGCTTTGAACTCTGGTGGAGTAAGCCCCTGGTCAATT
GAATCGGATCCTTTGACTGTAAAGTATAAGGCACTTCCACCAAAAATACA
TCTTACCATACAACATCCAATGGAGAATAAAAAAATTGTAATGAAAGCTG
GTGAAACACTGAGTATTGATGCAATGATTCCATCTGAGCCCCCGGCGAAT
GATATAGTATGGACTTTAGCAAATAAAGATGTAATAGACGATCCATTATC
AGGAATATATATTGATAGTACACATGACAATTTTTCATCTATTCGTAAAA
CTGGAATGACACGACGTGATGCAGGCATTGTGTCCTGCAAGGCAACTAAC
CTTCATGGAAAAGATATATGTGAATATGAGGTAAAAGTAATTAGTGCACC
CTCAATCCCAGATGGTACGTTAGATGTGTCCCAAATACATAAATCTGGAT
GCAGACTCAATTGGGATGCTCCCAGGGACAATGGTGGGTTGCCGATTGAG
TATCATGTGGATGTATTTATTGTCAAAGCAGATGCTTGGACTTCTTATGG
TAGCACTAAAAATCTATTTATGGACGTAAATGATTTAGAACATGGGCATG
AATACGAATTTTGTGTTAAAGCANGTTAATAGTATTGGAGAGAGTTCTAG
ATTAATCAACGCTAAACCAATATTAATTAAAGACCAATTCAGTAAGTTCA
ATAATAATTATTATGTCAGCAACAAAAATTGAACAAAATATAATTACATT
ATTTACCTTCTTTTGATGCTATAAAATTAACTTCCTTTAAGGCCATTCAA
TATCAAGTAACCTGCAAATACAGGAACTTTTGACCCAACGACTTTGAGAA
AATTTATTATACAAGCTAAAATGAAAGTAATTCTGGAAAAGTAAAAAAAA
CAACACATATTTTTACTTTTCTAAAATACTTTGTATGTTGAAATTGAACC
CTATCTTCCAAAGATACGACTAATAAAAATTTGATTTACAACATAGTTCT
TTTACCTTTTCCAGAATTCTTTTATTTTAGCTTTTTTTTTACGATGATCT
TATATTATAACCTCGTGGGTCAAGTTTTAACTAAATCAAATTGAATGTAT
TCTTAGCTCTAAGTGGCGCATATAATATACCAATTGTGGAGAGGCCATTT
TTTTTATTTGTGTTAAAATTAAAATGCAGTCTTCAATATAGGTATTKATT
TCAAAATGASTATMTCTTAAAATATACTGAAAAAACTCGTTAAAGTTAAT
ATAATTGTATATTTATATAATATGTATCCCATTTCATTTTTAATACAAAT
TGATACATCCCAAAAATTTAATATTCCATCCTCTTCATTATTTATTCCAT
TTATATTTGTACTTTTTTAGAAATAATTTATTTTTGGGAATTGAATATAT
TTAAAATTTGATGCAGGTCACAGTTTTTTTTTTCAAAACATCCCCAAATT
TTGATTCCTTATCTTAGGAGCCAATCATTTAATTTGAAAGAAAATAATAA
ATTTAGAATTTGAAATCAGTATTTTCTTCAAATTTTCCGATGAACAGCTC
ATTTTTCCTAACGCTGATAAGATGAGACTTTCTCTTAATATAAGAACGGG
CCCTTACAATTTTTTCCTTCAATTAATATAAAACCTTTGTGATAAATAAC
TTAATAAATTTATCAATTTCTAAAAAGTTATTTGTCTGAAAACGAGTATA
TTTTATTTCTTCTAAATTTTTTTTTTTCAATTCACTAGTTATTAAAAATT
CCGAGAGACATCACATTTTTTTCCACTAAGATATTCCAAGGAGGATGTGA
CCCCAACCCCATAATGGCCCTGTTGCAATTTAGAGTCTAAATTACATTAT
TATCTATTCTGAGGAGGTTGTTTGAAAATTTTCTTTTTTGGCGAAGGGGC
TAATTGATGTAAAATGACCCCAATAATATTTTATTTCTTGAACATTAAAT
AACCTAGAAATTACAATAACTCATTTATTTCTTTACTCAGCTGTGCCTCT
ATCCCCATATGCACCTGAAGTAACAGATTGGTCTGAGAGACATATGGATA
TCACTTGGAAAGAACCAATCGATGACGGAGGAGCATATATTCATGGGTAT
CACATTGAAGCAAAATCTAAAGACACAGGGGATGAATGGCAATTGTGGGA
GACTATTGATACAAACACATGTAACGGAAAGTTACAAAATTTAAGACAAG
GAGTTTTTTACCAATTTCGAGTTATTGCTATCAATAAAGCAGGGAAATCG
GAGCCTAGTCTTCCATCAAGATGTCAAGAAGCTAAACCCAAATATTGTAA
GTAATGTTTCACAACAATTGTATCACTTCTTAATTCATATTTTACCCTTG
TTTAGTACTTCCATACATCGATACTAAATCCCTGCATGATGTTACTGTAG
AAGTAGGGAGTCGAGTAAAATTTGATTTGCCCATCACTGGAGAGCCAAAG
CCATCAATTGAATGGCTACACAAGGATACAGACACAGTACTCAGCTCAAC
AACTGAAAAATCATTAGTCATTGAAACCACTGATAATTCCAGCAAAATTA
TTTTCAATTCTGTTACTAGATCCGATGCAGGAACTTATGTTTTAAACATT
AAGAATAGTTCCGGAACTGATACAGCAAAATTTAATATAAATGTTTTGGA
TAAACCTGATGCTCCTGAAAGTATAACGTCATCTGTTCTCAAGAGTGATG
ATCATAATGATCATCCAAAGGTATCATTAGTTTGGAAAAGATGCAAATTC
GATGGAGGTTCTCCTATTGAATATTATCAAATTGAAAGATTTGAATTTGA
GAAACAAGGTTGGATTGCGTGTGGACGTTCTAAAGAGAACACAATTGATA
TTAAAGGAATTTTTAACCCCGGCGAATCATATAAATTCAAAGTGTCTGGA
GMTAATTTGTATGGAGAATCCGACGCAATTGAAAGCACTGTAAATATACC
AGACAACTATTAG

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