EMLSAT00000001630, EMLSAT00000001630-697477 (mRNA) Lepeophtheirus salmonis

Overview


Name	EMLSAT00000001630
Unique Name	EMLSAT00000001630-697477
Type	mRNA
Organism	Lepeophtheirus salmonis (salmon louse)

Associated RNAi Experiments

Nothing found

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
LSalAtl2s128	supercontig	LSalAtl2s128:1097608..1103548 -

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)	EMLSAT00000001630 (primary cross-reference)

Relationships

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


Feature Name	Unique Name	Species	Type
EMLSAG00000001630	EMLSAG00000001630-684396	Lepeophtheirus salmonis	gene

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


Feature Name	Unique Name	Species	Type
EMLSAE00000007129	EMLSAE00000007129-716057	Lepeophtheirus salmonis	exon
EMLSAE00000007130	EMLSAE00000007130-716058	Lepeophtheirus salmonis	exon
EMLSAE00000007131	EMLSAE00000007131-716059	Lepeophtheirus salmonis	exon
EMLSAE00000007132	EMLSAE00000007132-716060	Lepeophtheirus salmonis	exon
EMLSAE00000007133	EMLSAE00000007133-716061	Lepeophtheirus salmonis	exon
EMLSAE00000007134	EMLSAE00000007134-716062	Lepeophtheirus salmonis	exon
EMLSAE00000007135	EMLSAE00000007135-716063	Lepeophtheirus salmonis	exon

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


Feature Name	Unique Name	Species	Type
polypeptide-auto780411	auto780411	Lepeophtheirus salmonis	polypeptide
EMLSAP00000001630	EMLSAP00000001630	Lepeophtheirus salmonis	polypeptide

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at LSalAtl2s128:1097608..1103548-

protein sequence of EMLSAP00000001630

>EMLSAP00000001630 ID=EMLSAP00000001630|Name=EMLSAP00000001630|organism=Lepeophtheirus salmonis|type=polypeptide|length=689bp
MPKAVNVRVTTIDAELEFAIQPNTTGKQLFDQVVKTIGLREIWFFGLQYT
DTKGFSTWLKLNKKVMVQDVKKETPLQFKFRAKFYPEDVAEELIQDITLR
LFYLQVKNAILSDEIYCPPETSVLLASYAVQSKHGDFQKDFHVAGFLAND
RLLPERVTQQHRLNREQWEKRITEWYSEHKGMMREDAMMEYLKIAQDLEM
YGVNYFEIKNKKGTELWLGVDALGLNIYEKDDRLTPKIGFPWSEIRNISF
NDRKFVIKPIDAKAPNFVFFAPRLRINKRILTLCMGNHELYMRRRKPDTI
EVQQMKAQNKEEKLAKQQEREKLQREIAAREKAERIQAEYEDRLKAMQED
MEKRQKALLEAQEQIKKLESVLRETQDAKQELEESQNELKDMMRRLEDDK
NLEIEERTRLQDEIARKQSEVNDIYTQVQTKEQENMELQKEMDDXRRKHE
EATIALVAATTTPKHHHLEEDDNDDEVSNSERDLHVPSDPIDDPVSDRLL
LVERNERLQNQLKSLKEDLSHTRDEGEETTMDRIHKENVKQGRDKYKTLR
EVRKGNTKRRVDQFENIYVHFRGLYFIWTFGTFEYPLRMNYSSDVPSPIP
FQGFHLNYRPDHHNNSITSMAIYPHLLRSVAEIRRQILELTEEQRQLNRN
YQTSSGIIPNFNIGRGYQCLYQHDIEDDPIGNGSNRLSS

mRNA from alignment at LSalAtl2s128:1097608..1103548-

Legend: exonpolypeptide

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

>EMLSAT00000001630-697477 ID=EMLSAT00000001630-697477|Name=EMLSAT00000001630|organism=Lepeophtheirus salmonis|type=mRNA|length=5941bp|location=Sequence derived from alignment at LSalAtl2s128:1097608..1103548- (Lepeophtheirus salmonis)
CTACTTTTTGCTCCATCCTACTTGAATTTCAAAATGCCGAAAGCAGTTAA
CGTTCGTGTCACGACGATCGACGCAGAGTTGGAATTCGCGATCCAGCCCA
ACACAACAGGGAAGCAGCTCTTTGATCAAGTTGTTAAAACCATTGGACTT
CGAGAGATTTGGTTTTTTGGACTTCAATACACGGACACTAAAGGCTTTTC
CACATGGCTTAAGCTCAACAAAAAAGTCATGGTCCAGGATGTGAAGAAGG
AGACGCCTCTTCAATTCAAATTTAGAGCCAAATTCTATCCAGAGGATGTC
GCGGAGGAGCTCATTCAGGACATTACTCTAAGGCTATTCTATCTACAGGT
AATTTAATCTAGACTTGTGCCTCGGGTCGTCACCAACCATTCTGGATGCC
ATCCTTGTCGCGCTCACGCAATCCTTCTTTTCCCTGCTGCTCGTTCCTTC
CTTCCTTCCTTCCTTMCCCCTCCCTCCCTCCTTCCTTCCTTCCTTCCTTC
CTCCCTCTCTTCTCTCTTACACATTATTTCAAATATACCCCATGTTCTCA
ACTACGCGTTTTTTGCTACTTCTTTAACAACTCATCAACGAATTCTTCCT
CGTCCTCTTCATTCTTTTGCAAAAAAAATATATAAAGAATTTCCTTTATT
TCTCATCATAAAAGAGGTATCAAAAGCTAATAGCTAGCATGGAGGTCCCG
CTAAGAAAAAAAACATATCTCCCATGATGAAATATCCCGAGTCCTTATTT
CTCCTCTTCATCATTGCAATCTTCCATGATATCCCTTCTTTACCATTCAT
TGATATGTGTACATACTTCAAAACGTAGTCCTATCTATTCCAAAAAGGAA
AAATAAAAAAACGACTAAAAATAGTTGATCATTCATTGTCCTTGACGACT
AAGGTTATTCCTGACTTGGGTCATTCTTTATTTTCTTAAAGAGAAGAAAC
GTCTACTAATGCATTTTTTAAATTAATATTTTTTTTGCAATTCTTTTATT
AGTATGTTGTTTATTTCAAAACTTTTTAAGTATCTCCCTAAGGAGACATT
TCCGTATCAACCAGAACAACAGGTCGACAACCTTAATAATATATCATTTA
ATTGTCTTATTTTTGTTTTAAATTGTAAGGTCAAATATGCGTACAGATGT
TTCTTAAGTAATTGATTTATCCCATGTCGTCGTTGTCGTCATGTTCATTA
ATTTTGATTTTTTGATCTACTGTTTWTACGAGTWTTTRWTATATATATAT
ATATATANNNNNNNNNNNNNNTTATATTGTAGATTGTATGGTTTCATGAT
TTAAAAAAAAAAAAACACAATTTATTTTTCCGTTGTAGAAACTTAAAAGA
TTTAATTTTTTTAAATATATGTACTTTATCTTAAAAATACTGTGGTTTTG
TACATATAAATTATATATGTATATATATTACAACTTTCATATTTTTTGTT
CAAGAGCTCGACTACTTGTTGATTCATATCCCATCGATTTCTCTTGATAT
TATTATTATTATTTATTTATTTTTGATAATTTAGGTCAAAAACGCTATTT
TAAGTGATGAAATTTACTGTCCACCTGAAACATCTGTTCTTCTTGCAAGC
TACGCTGTTCAATCCAAGCATGGTGACTTCCAAAAAGACTTCCATGTTGC
AGGATTCTTAGCAAATGATAGATTATTGCCAGAAAGAGTAACTCAACAAC
ACAGACTAAATAGAGAACAGTGGGAAAAGCGAATCACGGAGTGGTATTTA
TATTTTTATTTAAAAGAAACTAAACTAAACAAAATTGAGTATAAATATTA
TTCCAATTGTTCTAACAATCTCTTAGTAAGCTATGGGTATCCTTGTCCCA
ACTATAAAAGAAATTCGTTTCAAGGAACTCATCCTCAAATGTTTTTATCT
CTCTTAGATACAATAGGAAAATAATTATCCTTAATTCGTACAGTTCCCAC
GTATTCTAAATAATTATTATATACAATTATTGCATACATGACGTTTGATA
CGTTTTAATTTCCTGTCAAATGCTATTAAAACAGTTTAATTTGTCATTGG
ATTAAATGCTAAGTTATTTTGAATCCTGTCCTATTTATAAATAAATGCTC
TAAGCAATGAATAAATGACTTATAGAGGAGATGTTGTTAGAAATGATGTA
GAATATTATACTGATTCAAACTAATATAAAAGGGTTATTTTTTGAAGCAT
TATTAACGTGTAAATATATGTATCTGCATATTAGCAAGTCAAAAGTTATA
ATTTGATTAATTTTGTAGGTACTCAGAGCATAAAGGTATGATGAGGGAAG
ATGCTATGATGGAGTATCTAAAGATAGCTCAAGATCTCGAGATGTATGGT
GTAAACTACTTTGAAATCAAAAATAAGAAAGGAACAGAGCTTTGGCTTGG
TGTTGATGCCTTAGGTCTCAATATCTATGAAAAAGACGATCGATTAACCC
CAAAAATTGGGTTTCCATGGTCTGAAATCCGTAATATTTCCTTCAACGAT
CGTAAATTTGTTATTAAACCCATTGATGCTAAAGCCCCTAACTTTGTATT
TTTCGCTCCCCGACTCCGTATCAACAAAAGAATTTTAACTCTCTGCATGG
GAAATCACGAGCTCTACATGAGAAGACGCAAGCCCGATACGATTGAGGTA
TATTCAATTAAACTTGCCTTTTACATAAATATTTATATGTATATCATGAT
AACTCCCCTTTTTACATGCAAAAGTACGTTCAATTATATACGTCGTCTTC
GCATGTTTGTTTAGACCAGGGGTTCTCAACCTTCAGTAACAGAAGGCACA
CTTGTGATTGTCAAAACATTTCAGGGTACATCTTCCTAAATAAATTTGCT
TAATAGTCATAATAAAACAATCTAGTACATCTGCTTTTTCGGAACGCAGG
TTGAGAATCCCTGGTTTAGACTATGATGTCTGACATTATATTTCTTTGAG
TTTAATTAGAATGATACTAATGTACTTAACTTTTACTGGAATTACTGTAT
AATAACTTTAGTTGGATAACTACTTGATGAACGTGATACTATTCGCTAAA
AAATAATCAACCATGCCATTCAATTAGTAATTAGTGTATGAACATATATG
AGAAGTGTTTGAGTTTTCTGACTTTTCATTTGTTGTATATTTTTTGTTTT
CATTCATAGGTTCAACAAATGAAAGCTCAGAATAAAGAGGAAAAACTCGC
GAAACAGCAAGAACGTGAAAAATTGCAAAGAGAAATTGCAGCGAGAGAAA
AGGCAGAGAGAATTCAAGCCGAATATGAGGATCGCCTCAAAGCAATGCAG
GAGGATATGGAAAAGAGACAGAAGGCTCTTTTGGAAGCCCAAGAGCAAAT
TAAAAAGTTGGAATCCGTCCTCCGGGAAACTCAAGTATGTTTAAGTCAAT
CCTGTTTTTATATGATAAATTTCCTCGGATKCCTCCACTTTTTTAATAGC
TGAAAATTTATTTTGAAAATCAACTTTCCTTTTTTTTTTTTTTTTTTTTT
TTTACTACATTAATTTTTGGAACTCATTGCCGAGTGGTGCTATTAATAGT
CGAGTATTAATTATTTTTTTTGTTATATTAATTTATAGGATGCTAAACAA
GAGTTAGAAGAGAGTCAAAATGAATTGAAGGATATGATGAGGCGATTAGA
GGATGACAAGAACTTGGAAATTGAAGAAAGAACTCGTCTTCAAGATGAGA
TTGCTAGGAAACAAAGTGAAGTCAATGATATCTACACTCAAGTCCAGACA
AAGGAACAAGAAAATATGGAACTACAGAAAGAAATGGATGACSCCCGACG
TAAGCATGAAGAGGCAACTATTGCTCTCGTAGCTGCGACAACGACTCCTA
AACATCATCATCTTGAAGAAGACGACAATGATGATGAAGTTAGTAACTCT
GAAAGGGATCTACATGTCCCATCAGATCCTATTGACGATCCTGTTTCTGA
TCGTCTACTTTTGGTCGAAAGAAATGAAAGACTTCAGAATCAACTCAAGT
CACTCAAAGAAGATCTTTCCCATACTCGCGATGAAGGCGAAGAAACAACG
ATGGATCGTATTCATAAGGAAAACGTGAAACAGGGTCGAGACAAATACAA
GACCTTGAGAGAAGTTCGCAAAGGAAATACTAAACGAAGAGTCGATCAAT
TTGAAAATATGTAAATCTAAGAAAAAAGAAGAAAAAAATGTTTGTATGAT
TATTAAAGTGCTAGGAAGACTTAACTAAACAAATTATAAGTAAAAAAAGA
AAAAGGAATTAAAAAACAGTAAAATTGATGATGAGTCAACAACCATTTCT
CTCTCTCCATCTCAATATTATTAAGTGGAAATATTTTTCTCATAGAAAAA
TGCTCTGACATCAACAACAACAACAACAACCGACCCCGTCGAAATTACCA
TCGGAATAAATAGTTGAACCCCCGGACTTTACTGCTGTTGCTACTACTAG
AACTGCAATGTGTATCATCCAACCTCTTTGTATTATCTTTTGAAAGCCTT
TCCTTCATTTGGCCTGAACTCTGTTACTGTGTTAATTTCGGAAGGAGGAA
ATAATTCAAAGCCATTATTATTATTATTGTGTTGTTTCATAGTTTATTAC
GGTCAAGAAAGTGAACACTGCACATATAAGCATACATCCTTCATTCATTA
TCATTTATGTGTCTTAAAGTGTAACTACCCACCCACCCGTATGTGCTATA
TATAACTGCCATTTCTTTGGGAAATAATTGATGCCGTCGCATATATATAT
ATATATACAATACATAGTTAAGAGATAGTGCCTTATGGAATTGTAACGAA
AAAAAGTAATTTGGCCCCKCTTCTTTATTTTTTTTTTTTTTTTTAATGTT
CCACGATAGGAGTATGTTTATTTATTTATAAATATTTTTTTCTTTGTCAA
TCAAACAGAGGCAATTACTTCGTCTTATTATTTTTATATTAAAATTGGCT
TTCAGTAATAATTATAATAATAAAAGCTACTNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNGTCTCAAAAGTAAAATATCTACGGTAGCAG
GCTATTTCATGTTATTGAATAATAGTTGGAGAAGTGACTTGGAAATAAAA
TTTGACACTTTTAATAATATTGAAACTCAACACCTCTTGAATATTAATAG
GATATACAATATAATATGCAATATATGGAATTCTTCCTTATTTTTGTCTT
TCTTATATTAAGCTATAGTCTGTTACTCATGTTTATTTTTTCAAAGTCAA
TGGAGTAGTGCTTAAGGGGGTTGTACATGAGTGAAGTAGTTGCTTGGATA
GGAGGAGCATGATGATTATGGCATTGCAGAAAAAAGGTAGTATGCAATTC
GGTATTCGTGGAATGATTGTTAAAGGGACATTAAATTGCAGATGAAGACA
GAGCGCCATCTGACGATTGCATTTTTTAGGAGGGTGTCTGTGCTGATATT
TATAGTAGTGTGCGAAATAGTTAACACCAAAACTTAAACAACATTAACAC
TAATGTTGTTCTTCTAGCTACGTACACTTCCGAGGGTTGTATTTCATTTG
GACATTTGGCACTTTCGAATATCCTCTAAGGATGAACTACAGTTCGGATG
GTAAGTCCTGTATTTTTTGTTTCCTTTTCTAGTATACTAAATTATCACTT
ACAGTACCAAGTCCTATTCCTTTTCAAGGTTTTCATTTGAATTATCGTCC
TGATCATCATAATAATAGTATCACGAGCATGGCAATATATCCCCATTTAT
TGCGCTCCGTTGCGGAAATTCGTAGGCAAATACTCGAATTAACGGAGGAG
CAACGACAATTAAACAGAAATTATCAAACTTCCAGTGGAATTATTCCTAA
TTTCAATATTGGAAGAGGATATCAGTGTCTTTATCAACACGATATCGAGG
ATGATCCAATAGGAAATGGATCTAATAGACTCTCCTCATGA

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