EMLSAT00000000088, EMLSAT00000000088-695935 (mRNA) Lepeophtheirus salmonis

Overview
NameEMLSAT00000000088
Unique NameEMLSAT00000000088-695935
TypemRNA
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s1013supercontigLSalAtl2s1013:229861..233686 -
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)EMLSAT00000000088 (primary cross-reference)
Relationships

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

Feature NameUnique NameSpeciesType
EMLSAG00000000088EMLSAG00000000088-682854Lepeophtheirus salmonisgene


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

Feature NameUnique NameSpeciesType
EMLSAE00000000390EMLSAE00000000390-709318Lepeophtheirus salmonisexon
EMLSAE00000000391EMLSAE00000000391-709319Lepeophtheirus salmonisexon
EMLSAE00000000392EMLSAE00000000392-709320Lepeophtheirus salmonisexon
EMLSAE00000000393EMLSAE00000000393-709321Lepeophtheirus salmonisexon
EMLSAE00000000394EMLSAE00000000394-709322Lepeophtheirus salmonisexon


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

Feature NameUnique NameSpeciesType
polypeptide-auto774960auto774960Lepeophtheirus salmonispolypeptide
EMLSAP00000000088EMLSAP00000000088Lepeophtheirus salmonispolypeptide


Sequences
The following sequences are available for this feature:

protein sequence of EMLSAP00000000088

>EMLSAP00000000088 ID=EMLSAP00000000088|Name=EMLSAP00000000088|organism=Lepeophtheirus salmonis|type=polypeptide|length=907bp
MASSSKRTKKNTRIGGRTGKEIAGLYDLEDTIGEGHFAVVKMAXHVFTGE
RVAXKVIDKLKFDSSTRVQTLQEVRLMKLVQHPNVVRLYEVIDTPSKLYL
ILELADGGDLYDYIMKHEQGLTETLAKKYFRQIVNAIQYCHKLHVVHRDL
KPENAVFFEKLEMVKLTDFGFSNKFSPGQSLQTSCGNIWSLGVILYMLVC
GAAPFQEANDSETLTMIMDCKYTFPKHISSQCKKCVLPISYFDCFINISF
PIRLISSMLQRNPMHRACLDEIILHPWLDEVKNVDSVPEWEQLPLVSREH
LSEEEHAYIINKMVNGGVGIKEEIIEALDRDDYNHITATYFLLAERKLRA
QRHDLIKKTNSKEVDMTASFPLTPTRNIVEASRKTVQASCSTVESLLSPE
DKQGFSSTGKSYRIRQCSIVEEEEEEENEEIIHEELDDIDFKLPQRGLSH
HSSTSSLASVVASSLHLTLETDKSLIEAPAPFPVTSQIGTGSLSRQGSLR
RSSGSSPCSERKSAPESPDTDNSLGSSPARYSSKLNCQSRKVPIVKSSPQ
HTQSGPVLNQIHEEEAEVDQFPSKFSSATVMRRFEQRRLAHKSRTQSCSS
SEASDDDSEKKRYDKRTPPPKDDDNTDPGGSSGAGGFNNSSSGGSGNNFG
DDMGRGSTRRGSEGSGTGGSGGGRGLPSKADDVNXNRRXRHQSRLRQSHS
LNRISELHEADFASSPSIGPSIYVRNDSLRSSSRDDSSHNSSDGELEPPT
HSGSKSRVNMRILEQKLNKIQEESNNNIHKNAGSEHKFGMKDSLKTIDKV
AIENEINNQKNDAFNNKIPDIFEFSASLTFLSAKNSSSRPLHRAHSCSSL
LTLKERAMIRKKLGSQILELIGKDVGNRKSGVSKQDGLLPINSFLSLPNA
SRCCSLC
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mRNA from alignment at LSalAtl2s1013:229861..233686-

Legend: polypeptideexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAT00000000088-695935 ID=EMLSAT00000000088-695935|Name=EMLSAT00000000088|organism=Lepeophtheirus salmonis|type=mRNA|length=3826bp|location=Sequence derived from alignment at LSalAtl2s1013:229861..233686- (Lepeophtheirus salmonis)
ATGGCATCCTCCTCCAAGCGTACTAAAAAGAATACGAGAATTGGAGGCCG
TACCGGGAAAGAAATCGCTGGCCTCTATGACTTGGAGGATACCATCGGAG
AAGGACACTTTGCCGTTGTGAAAATGGCTCSACATGTATTTACGGGTGAA
AGAGTGGCAGMTAAAGTGATTGACAAATTGAAATTTGATTCTTCGACGCG
GGTTCAAACGCTTCAAGAGGTTCGACTCATGAAGTTGGTTCAACATCCCA
ATGTGGTTCGTCTCTACGAAGTCATTGACACTCCCTCCAAACTATATCTT
ATCCTTGAACTCGCAGATGGGGGAGATCTCTATGACTATATCATGAAGCA
TGAGCAAGGCTTGACTGAAACTCTGGCCAAAAAATACTTTAGGTTCGTTC
GAGAGATGCATCAAAACGGTCTTTTTAATATTGATGTGTTATTCATATAA
TTTAAGTATATTTCATATTGATGAACGATACATCAAACATTCCTATAAAT
GTCAGAAATTCAATTCCTCTCTCTAAGGAAAGGAGGAAAATCAATGATTC
AATAAATGAATGAAAGATTTAGTTTCATTTATTATAGGATATCATCATTT
GATGCATCATTACTTTTGATTCAATAATTCCAAAAAAATATCAAATTATC
AAAGATATATATTATTAAACAGAGTTCATTCATTCATTTGAAAGGAATGT
CGTCATTCGCCCTATACATAAATAATAAATTAGCTTTATATCTGTTATTG
TGGAAATAAAATAGTTGTAAAGGAAACTTTGTAAACATCTTCAAAAAAAG
CTGTGATGTTTCAGAACTTTATTCCTTCTATATCAAATATACCTACTCAA
TATTTCCTACATAGTACTTTGATATAAAATATATCTATCTCCATACTATA
TTGAATATGTGGGTTGATATTTTCATTGATACTTTATTCGTGACACTTTA
ATCACGTATCTTACTCACAATTAATATTTTTCATATAATAATAATTAATG
ATTTATTTAATTACAGACAAATTGTAAATGCAATACAGTACTGTCATAAG
CTTCATGTTGTCCATCGGGATTTGAAACCAGAGAATGCAGTATTTTTTGA
AAAATTAGAAATGGTCAAATTAACGGATTTTGGCTTTTCCAACAAATTTA
GTCCGGGACAGAGTCTTCAAACTAGTTGTGGAAGTCTAGCATATTCTGCT
CCTGAAATTTTATTGGGAGATGCCTACGACGCACCGGCTGTGGGMAAGTT
AAGAATGTGATGGAAAATCCTAAACATGGCGTAAATTGGTGTATATTTAT
TTACAGATATTTGGTCACTGGGTGTGATATTGTATATGCTGGTGTGTGGA
GCAGCTCCTTTTCAAGAGGCCAACGATAGTGAAACTTTAACCATGATCAT
GGATTGTAAATATACCTTCCCAAAACATATTTCATCTCAGTGTAAAAAGT
GTGTACTCCCAATTTCATATTTTGATTGCTTTATTAATATTTCGTTTCCC
ATTAGATTAATCTCAAGCATGCTACAACGCAATCCTATGCATAGAGCTTG
TTTAGATGAAATTATTTTACATCCATGGCTTGATGAAGTTAAAAATGTTG
ATTCAGTACCAGAGTGGGAGCAATTACCCCTAGTTTCTCGAGAGCATTTA
TCTGAAGAGGAGCATGCTTATATTATCAATAAGATGGTCAATGGAGGAGT
AGGAATCAAGGAAGAAATCATTGAGTAAATTCTATTTTTCAACTTTATAA
CCATTCAACTTGGATTTTACCATTTCATTTTATAATGTCGAAACTCAAAT
TTTGTTTATTTTTCAGAGCTCTTGATCGAGATGATTATAATCATATTACA
GCCACGTATTTTTTATTGGCTGAAAGGAAATTGCGAGCTCAAAGGCATGA
TTTGATTAAGAAAACGAATTCTAAAGAAGTGGACATGACAGCAAGTTTTC
CTCTCACACCAACGTAATTTACTTTTAAAATACTTATGATATGTTATAAT
ACTGAGTTAGGTATTTTAGGAAACATATATGTATGATTCTGAGTAGGTGT
TTCATGTTTTAGACTTACATGATGTTTGTTATGTCTTGTTATTTGATTGT
TATCAAAATCCTTGCCATAATCCATTTTCAATAATCAAATATCTTATTGA
CTCCACTAATATGATTTGAATTGTACAATAGGGCTTTGTTCAAGATTTTT
TATTATATTTTTGTAATTCCATTTAGGCGAAATATTGTCGAAGCTTCTCG
GAAGACAGTTCAAGCCTCATGCTCTACGGTCGAAAGCTTATTATCTCCTG
AAGATAAACAAGGCTTCTCATCTACTGGGAAGTCTTATCGAATACGCCAA
TGTTCTATTGTTGAAGAAGAAGAGGAAGAAGAAAATGAAGAGATCATTCA
TGAAGAACTTGATGATATCGATTTTAAATTGCCACAAAGAGGATTATCTC
ATCATTCATCAACTTCATCTCTTGCTTCAGTTGTCGCCAGTTCTTTACAT
TTGACCTTAGAAACTGATAAGTCCTTAATTGAAGCTCCTGCTCCATTCCC
AGTGACTTCTCAAATTGGAACTGGAAGCTTAAGTCGTCAAGGTTCTCTTC
GTCGTTCATCTGGTTCGTCCCCGTGTTCTGAAAGGAAGTCCGCCCCTGAA
TCTCCAGATACAGATAATAGTTTAGGCTCCTCACCCGCTAGATATTCTTC
AAAGTTGAACTGTCAAAGTAGAAAAGTACCTATTGTCAAAAGTTCCCCAC
AACATACTCAATCGGGACCAGTACTAAATCAAATCCACGAAGAAGAAGCT
GAAGTGGATCAGTTTCCCTCAAAATTCTCATCGGCAACTGTAATGAGACG
ATTTGAACAGCGTAGACTTGCTCACAAATCCAGAACACAATCTTGTTCCA
GTTCAGAAGCATCAGACGATGATTCTGAGAAGAAACGCTACGATAAAAGA
ACTCCACCTCCAAAAGATGATGATAATACAGATCCAGGAGGATCCTCCGG
TGCTGGTGGTTTTAATAACTCCAGTAGTGGTGGATCTGGAAATAACTTTG
GCGATGACATGGGACGTGGATCAACTCGTAGAGGATCAGAAGGMAGTGGA
ACAGGAGGAAGTGGTGGMGGAAGAGGGTTACCATCTAAGGCTGATGATGT
AAACRCCAACAGGCGKCKCCGCCACCAATCCCGTCTCCGTCAATCTCACA
GTTTGAATCGTATTAGTGAACTCCATGAAGCAGATTTTGCTTCAAGCCCT
AGTATCGGCCCTTCAATCTATGTCAGAAATGATTCTTTGCGCTCTTCCTC
AAGAGATGATTCTTCTCATAATTCCTCAGATGGAGAGTTGGAGCCCCCTA
CTCATTCAGGTTCAAAGAGTCGAGTAAATATGAGGATATTGGAGCAGAAA
TTGAATAAAATACAGGAAGAATCAAATAACAACATTCATAAAAACGCAGG
TAGTGAACATAAATTTGGAATGAAAGACTCACTCAAGACTATAGATAAAG
TCGCCATCGAAAATGAAATAAATAACCAGAAAAATGATGCGTTTAATAAT
AAAATACCAGATATTTTTGAGTTTTCCGCTTCTTTAACGTTTTTATCAGC
AAAAAATAGCTCTAGTCGACCCTTACATCGTGCCCACTCATGTAGTTCGT
TACTTACTTTGAAAGAAAGAGCCATGATTCGAAAGAAACTAGGCTCTCAA
ATTTTAGAATTGATTGGAAAGGATGTTGGAAATAGAAAATCCGGTGTTTC
CAAGCAAGACGGTCTCCTTCCCATTAATTCCTTTCTTTCCTTACCAAATG
CATCCAGATGTTGTAGTCTTTGTTGA
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