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Associated RNAi Experiments
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| LSalAtl2s574 | supercontig | LSalAtl2s574:555424..559146 + |
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 EMLSAP00000009119 >EMLSAP00000009119 ID=EMLSAP00000009119|Name=EMLSAP00000009119|organism=Lepeophtheirus salmonis|type=polypeptide|length=297bp
MSSLESPLDVLSRAATMVEKSSISSNLKQSDKGCERSSSFKERHPKFRKS
STPEYLLAAGNKRRNSREFHPLPSSSEGEMETTDEEGPLDMSIKKRDRSP
PPPYPINFSSGSPPSISLRDLPPPPSYEVAISKRYSDSLHRPGSTESNKE
NEDTRPIREITIITDSCADPLLDEHFRRSLGANYKSLFKKSPVSQEDGEN
ESSPENDSNVKQSSSNNNSPSSRKTDLDDDERVRVINAEDTERDHIVEMD
QEGSTVEDHFAKALGETWIKLQAAASKSSSSSPPPRRTNTPQLLTTS back to topmRNA from alignment at LSalAtl2s574:555424..559146+ Legend: exonpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000009119-704966 ID=EMLSAT00000009119-704966|Name=EMLSAT00000009119|organism=Lepeophtheirus salmonis|type=mRNA|length=3723bp|location=Sequence derived from alignment at LSalAtl2s574:555424..559146+ (Lepeophtheirus salmonis)
CTCCTATGACGGGCAGGCTTATTCAACTCTCCTCAGGAAAAAGATTTATA
CAAAAAATAACACAATCTAACCCCTCAGTTCAATTTGTGCTTAAGGCCGG
AGTAGAAGTGGAAAGATTGTGAGGCGTGTCTTATCTGTTCTCGTCTTCTT
GACTGTTGTGTGTTTATTATAATTGTCTCCTTGTTTTTTACTCCTAAGAT
ACACTCAGCAATAGATTTACGTATACAAAGTCTTTTATTGTACGACTTTA
CATAGAACTCTCAAGCATCTTCTTGCTGCTCCCTGGGATGTGCACCCTTC
CTAATCGTTAAAAACTCTGTCACGAATATTAATCTTCAAGTTATTCACGT
ATTTCATCACACCAAGGATTGCACGACAAATTATTTGGTAAGGAAATGTT
GTGTATTATATTTATTTTCTTATGTATCAAAGTACATTGATTGAATGAAA
ACCTTGAATCAGGGATGGAAGCTTATTTAATTGTAATATTCTCTTTTATA
AGTAATGTATGTATATATATTTCTTCCTTTTTCTTATTATTTGTCTTCCT
CTTTTTGCTGCTACTTTGCTGTCGACTACTACGTGATAGTTGAAAAAGAA
AAGAAGTGTCTCCACTCAAACAGCCCCATGTCCCTATAATTAGCTGTCCA
TGTATTTCCCTTCTATTATCTTCTTCTTATGTCATGATNTATAATTAGCT
GTCCATGATTTCCCTTCTATTATCTTCTTCTTATGTCATGATGTCATGCA
TTCAGCTATAAAAAATATGAGCAGCTATGAGTTTATAGAAATATCCACGT
ATCCAGCAAGGAATTACTCTCATGCCGATCCTCAATTCTACCTTGAGCCC
AACGAGGACTTACATACATTATAATTACAACTCCCAAATCAATCCTCAGT
GTTAATCTCCGTCATTCATTCCTGAACATGCACAAATGATTAGATGTTCT
CTCTTCAAGGATTAAAGATAAATGATGGCAGTGTTGGGAAAGAATAAATT
AAAAAAAACAATTAAAAAAATAGCGCACGCGCTAATAGTCATATTTTATA
CAATTCAACTCAAGTCATGGATAATGATATTATTTAGTAACGTTGACATT
CATGTTGATTGAATGAAGGACGAAGAAGGGTTAAATTAACTTAACCTCTC
TCTCTCTCTTCCTTTTCTTTCTATCTTTCCTTCCTCTCCCTCTTTCTACT
ACAGGAAGAATGGAATCAAATCATTATTATTATTATTATTCCTAGGGGGA
GGAGGAGCTGGAGAAGACGTACATAAGTCGTCGTCATGTAGGATTATGAA
AAGACTCTCATGTTTCAAAACAATGGGTCTCTCATGATAATATCCTAACC
TTGTCTCTTTATTTTTTGCTATTATAATAAGTCTGTATGCCTCCCATTCT
TCCTCTACGATGATGATCCCATGGATTATTTAGTGTCTAAGTCCTCGTCC
TTCTTTATTACGAGGTCGATGATTTAAGTATTACAAGAATATAATCTACT
ACATCTGGCGCCTTTGCCTTCTTTTATAGATACAATATATTTAGTTGTTG
TTTTTATAACATCATCATCTTCACATCTGACAAGAGTGGTGATACGTTCT
GATGATGGACTCAGTCTACAGGAGCAGCTGCTGGTAATAGTCTGCAAAAG
CATTATGTTCCTCCCCCTCTCGTCTTATCACTTCATTTATATTTAAATAT
ATAATGGATAGAGGAGGAAAGTACATATAACATAATATATATATATATAT
ATAAACTAACTAGTAATAAGGGGACGAAACCCCTGTTCGTTTCGTTCATC
TGTCAATGCCGGAAGTCCTTCTTCCTTCTCCTCCTCCATCGATTATTTTG
TATATATATACATATATGAAACATAATATCGATAATATAATTCTACAATA
GTAATAATAGTCCATTGGGAAATGACGCAGATGCAAAGGGCCTCATCATC
CGTAGTGTGTTAGTTAGCTAGCTACGAGTAGAGCTACTGGATCCTTTCTC
TTTTCCAAACTCCTTTTTCTCTCTCGTTCTCCTTCTTTGGTGTAAAGGAT
TTCCCCCTACAATTGCACATACACTGAAGGAATGTAGTAAGGATTTCCTA
TTATGTTTTTTATTGGCCAAGACGACGCGCCTTATAGTTTCTATTTATTA
GAAAGCCTCTCTTTTTGTATATTTATGTATGTATAGAAATGTAGTCGAAT
ACCTTGCAATCTGTAGGGTTGATGAAGGTATTTTCCACATTTTCTTAAGG
AAGGTGAATAGTTTTTAGAAAGATCCCGTTCCTTTGTGTGAAAGAATTAG
GGATAAATATATATATATATATATACATATTATATTTGAGTGTTTAGGAG
GTTTCTCCATTTTCTCTGTTCAACAAAGTAGTAGTTTGGTGCGATTTGAG
CTTTTTTCTCAGCCTCTTTTTATTTATAAAAAGTAATTATATTTGAATAT
CATTTAAATACCTTTTTCAAGTCAGTATTTTAATATCCTTTTTGATTTTA
ATTATTATAGGAATGTCTAGTCTTGAATCTCCGTTGGATGTACTATCAAG
AGCAGCAACCATGGTGGAAAAGTCATCAATATCCTCTAATCTTAAACAAA
GTGACAAAGGTTGGTTTATAAATTCATTTATATACTTTATATCAACTTAT
TTATTTGTAAAGCATTTTTCTTGAGATTGTTATTCATGAATAAATCTTTT
AATTTGTTCCAGGGTGTGAACGCAGTTCTTCCTTCAAAGAGCGCCATCCC
AAATTCCGTAAGAGTTCGACTCCAGAATATTTATTAGCAGCTGGAAATAA
AAGACGTAATTCTCGAGAGTTTCATCCCCTTCCATCTTCATCAGAGGGAG
AAATGGAAACCACAGACGAAGAAGGTCCATTGGACATGAGTATTAAAAAG
AGGGATCGCTCTCCCCCTCCCCCTTATCCCATCAATTTTTCCTCTGGATC
TCCACCATCTATATCATTAAGGGATCTTCCTCCACCACCGTCCTATGAGG
TTGCTATTTCCAAGCGCTACTCAGATTCTTTACATCGACCTGGGTCCACA
GAGTCAAATAAAGAAAACGAAGATACTCGCCCTATTCGTGAAATAACTAT
TATTACAGGTAATTTCACAATTTAAACATTTATGAAAAAGAGTCTCATCC
TCATTTTATTTTTTTATTTTAGATTCATGTGCTGACCCTCTGTTAGATGA
GCATTTTAGAAGATCCTTAGGTGCAAACTATAAATCCCTTTTTAAAAAGT
CTCCAGTATCTCAAGAGGATGGGGAAAATGAGTCCTCGCCCGAAAATGAT
TCCAATGTTAAGCAAAGTAGCAGTAATAATAATAGCCCATCCTCTCGCAA
AACAGATCTTGATGACGACGAAAGAGTCCGAGTTATCAATGCCGAGGATA
CAGAGAGAGACCATATAGTTGAAATGGATCAGGAAGGCTCCACAGGTAGG
AGTTTTACATTCATTTATACCCAGCCAAACTTAACTTTTATTTATTATTT
AGTCGAAGATCATTTTGCTAAAGCTCTGGGTGAAACCTGGATCAAACTAC
AGGCAGCAGCTTCTAAGTCATCGTCATCATCCCCTCCTCCAAGGAGAACA
AATACACCTCAGTTACTGACGACGTCATAATTAACATCCAGAGGAAAAAT
ATTTTTTCTAGAGTTCATTATTTAATTCATACTAAAGTTTGCCCCCCTCT
CATTAATATTATTATTATTTAGA back to top
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