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Associated RNAi Experiments
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| LSalAtl2s751 | supercontig | LSalAtl2s751:90348..94243 - |
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 EMLSAP00000011116 >EMLSAP00000011116 ID=EMLSAP00000011116|Name=EMLSAP00000011116|organism=Lepeophtheirus salmonis|type=polypeptide|length=379bp
MHYFLIESVDPQTIYAHKFILCIASPVFHTMFNSAFMESNDPEMKIEVPD
VEPDTFEDLLAYIYLDRISFKKRNVLPLLYCSKKYMIEYLVDKCVDYLCS
IVETSNAIYLISRIRVYDTPKLLDKCWDIISKDPKSAFESDHFAEIDFPT
LNEVLSKKDLKYSEIDAFIAALKWATAQLGVDDNAEDDEESKARGSKKRE
VLGEAFYKICFNQMSIEDVSEHVVPSGVLSSDETVEIFVNISSLQKNQIK
GKYLPWISHDYVLYDENVTLCPADYRYSSSIKINVTEVVILGYITIFSSF
DVVIITISKDGRNIFNVRGRNNRRNYLQKIRHQNVYVEFLLKPESEYTLS
VSTNCFRHFIANKTPSSSSTFKIEPNFQT back to topmRNA from alignment at LSalAtl2s751:90348..94243- Legend: polypeptideexon Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000011116-706963 ID=EMLSAT00000011116-706963|Name=EMLSAT00000011116|organism=Lepeophtheirus salmonis|type=mRNA|length=3896bp|location=Sequence derived from alignment at LSalAtl2s751:90348..94243- (Lepeophtheirus salmonis)
ATGCACTATTTTTTAATCGAATCTGTAGATCCCCAAACGATTTATGCACA
TAAATTTATTCTGTGTATTGCAAGTCCCGTATTTCATACGATGTTCAACT
CTGCTTTCATGGAGTCAAATGATCCTGAGATGAAGATTGAAGTTCCAGAT
GTGGAGCCAGATACTTTTGAGGACCTGTTGGCATATATCTACCTTGATAG
GATTTCCTTCAAAAAAAGAAATGTTTTACCGCTCTTGTATTGTTCTAAAA
AGTATATGATAGAATATCTAGTTGATAAGTGTGTTGACTATTTGTGCAGC
ATCGTAGAAACAAGCAATGCAATTTACTTGATAAGCAGAATTCGAGTGTA
TGATACTCCTAAGCTCTTAGATAAATGCTGGGATATCATTTCAAAAGATC
CAAAGTCTGCCTTTGAATCCGATCACTTTGCAGAGATTGATTTTCCTACA
CTTAATGAAGTTCTTAGTAAAAAGGATTTAAAGTATTCCGAGATTGACGC
GTTCATTGCTGCTCTCAAATGGGCAACTGCTCAATTAGGAGTCGATGATA
ATGCCGAAGACGACGAAGAATCAAAGGCTCGAGGATCTAAGAAGAGAGAA
GTACTTGGAGAAGCCTTTTATAAGATTTGTTTCAATCAAATGAGTATTGA
GGACGTATCAGAGCATGTTGTTCCTTCGGGTGTCTTGAGCTCCGACGAAA
CTGTAGAAATATTTGTGAATATATCCTCATTACAAAAAAATCAAATTAAA
GGTGAATCAATGTGCTTCTTTAGAGTGTTGATTAAGATTGAATATTTATT
TACTTTGTAGGAAAATACTTACCTTGGATATCTCATGACTATGTTCTATA
CGACGAAAATGTAACACTTTGTCCTGCCGATTATCGTTATTCCAGTTCAA
TTAAGATAAACGTTACTGAAGTTGTAATATTAGGCTATATCACAATATTT
TCATCCTTTGATGTTGTGATCATAACTATTTCTAAAGATGGGAGAAATAT
TTTCAACGTTCGTGGTCGAAACAATAGGAGGAATTATTTGCAAAAAATAA
GACATCAGAATGTTTACGTTGAATTCCTTCTTAAGCCAGAGAGCGAATAT
ACATTATCCGTGTCAACTAATTGTTTTCGACATTTTATAGCTAATAAAAC
TCCTTCATCTTCTTCTACATTTAAAATCGAACCAAATTTTCGTKATAATT
GTATAKCAGCCATACAGTATTTTGTTTTTGAAAATAAAAAGTGATACTCG
CAAGTATATAATCATATTTTTAAATAAAAGAAATGTCCTTTATTTTTATA
TTAATTGAAGACATTACACATGTATACACTAGGGTATTATTTATTTCACT
TTTTTTAAGATATGGAGATTTGAAAGCAGTTTTACGTATAAAAAAACACG
TTGATAATGTTTGAATTATTTTTAGGAACATTTAAGTGTAGATAAACGAC
CCAAAACGTTTGAAAAGTAACAATTATTTTTTTAATTTTAATATAATATT
ATCTGTATCACTAAACATGACAGCTTTCTAGTTCAAATAAAAAATTTACT
TTAGTTAAATTACTATCAACAGTTTTAAATAATTTTGTAGGAGCACTCAG
TATTTATCAGTCTAAAAGAACACAATAATAGTGATTATACAAGGGTGTCC
CCCTCCCCCCTCAATGTGGATATAATCGTGCGGACACCCCTGTTATACAA
CAAATGTAGCCGACTCTAACCTACACAACTTTTTTATGAACATTTTTGGA
AATAAATAGCCAAATTTAATATAATAAACCAAAGATTTATTTTACAAATA
ATGAACTCAGACGTCATTTAAGGCCAAAGGGGAAACAACTAAGGTTGTAA
ATCGTAACTGTATAATCTATCAAAAATATTTTAATTTTTTCCCCGAAAAA
TCTGTAACAATTAGATAAAACAATATTGATAAATGGGAGTGTACGGGTAC
ATTTTTAGTAGTACAAATAGTACCGCAGGCTCTGTACCTAAATGTTTTTC
ATTGCCTTCATTGTACTGGGCAATCTTGATACATAGATAATAATAATAAA
AAAAAGTAGTATTCAAAAACAATCATATTTTAGTTTAAATCATGGGTTTT
ATCGATAATTTTTGTACAAAAACTACTCAAAAAAAAAAAAAATGGAATTT
GGGAAAAACCTTAAAGCCGACGAGGGTATAGGATATACTTAGATCCATAA
AAATGATTTTTGAGCTCCTTACATCTAAAAAAATGAGATAAAATACGGAA
ACATATCAAAATTCAAAAAAGTATATTTTTGATTAGGCTTAATATTACAT
AATACTCATTTAAAAAGTAATTTCGTTATTTAGTAAAGTAATATTGTGTT
AAAAGTAAAAACTAGAAAATTAAGGTTATTACAGTAATATATTACTCACT
TACACCTTTTTAACTCTGAGCAAAAAAGAAAACAAATGTTTTATAATTTT
TTTTTAATTTGTAAGTAATTTTTTGACTTTATTATGCAGTCAATTTTGTA
AGTTAAACTCATGAATTAATTATTCACAGCATACAAATATAAATAATTAT
GGATTTAAAACTATGTATGAATATGCCCATTTCTATTTTAAGTACTAAAA
AAAGTTTATATTATTTTTTTGTAATCCGAGAAAAGTAACATAGTAGTTTT
ATTCAAAAAATATATAATATAAATTGCTGAATAAATAAAAAATCCATAAT
TATGTATCAGTATTTGTATGCTGTCAATAATTACTTTAACTTAGAAATCC
GAACAAAGTTCAAAAAATTACTAACAAATTAAAAAATATTTTTTTCTTTT
TATGGGCCATAATTGTAATAAGATTTTTTTCTTTAATTTAATTTGGACTC
GTTCTTAAGTACTTTTTGGTACACAGGAATTGTAACGGGATGGAGTGTAA
CAGTTTTTGATGGCATAGAAAAAATATCTAAGTAGATAATTACCAACACC
GAAATACATCTCGTGATTCATAATAATTTTTGGATTTCGTCAACTTTACA
AAATAGAAAATACTCTAATGTACACGTATAATCATTTATTTTGCAGCACT
TTGCATGTTCTAATCTTCAACCCTCCACAATTCTCCCTCTCAATGTAAAT
TGGCTTTTCTATTAAAAACGTCTTGTTTTGTTGGAGTGAAATGCTGTTAT
AAATTAAATTTTGGATGCACAAAAATTACTAACATGGTATTATCTCACCC
CCAATTAAAAACTGTTTTAAATCACAGAACCTCTTCACTTTGAAAGGAAG
AATTGATTAGGTCTGAAGAAGATAATATGCAAATTTCTAAGAAACTAATT
ATCTGTAGATGCAAGATAGATTGGGTAACCCCCCTTAAGTGACCATCAAT
TAATATTTATTTAATGTAAAGTGGTTAGAGTAGTTTTATTAATTTATAAG
AAGTGGGAGATTGTTACAAAACTCCATTTAGATCCATAAAGTTGTTGATT
AAAGTTACTTCAACTACAAACTATGTCACATCAAAAGTTAAAAATATCTT
GGGGAAAATAGTTATTATGCCCATGAACTTTAACTATAGTTTAGTACCTT
CATTTGATATAAGAAATTTATATTGTCTCCAATATGGGATTTTAAATAAA
TACAATCTATCAATTTCTGATTATTGGCCGTGATGATCAATTTAATTTAA
GTGCAATTACGGTGCCTTAAATGGGTAAATAAAATTAATTTGTTGAAAGA
AACTGACTATAATTCGTATAAAAGTACAAATACAATCCACGCTTCATTGT
GAAAAGAAATCATTTAATTTTGCCACATATACAACTTACTTTTACCTACA
ACATATCATGCCTTTTTCTTCTGTATAAATATATACATACATAAAAACTT
TTCCAAAGCTTAATTTCAATAACATTATAAATATTAAGAAACATAA back to top
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