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Associated RNAi Experiments
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| LSalAtl2s1031 | supercontig | LSalAtl2s1031:69376..75813 + |
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
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
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 back to topmRNA 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 back to top
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