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Associated RNAi Experiments
Alignments
The following features are aligned
Aligned Feature | Feature Type | Alignment Location |
LSalAtl2s1080 | supercontig | LSalAtl2s1080:22731..27211 + |
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 EMLSAP00000000513 >EMLSAP00000000513 ID=EMLSAP00000000513|Name=EMLSAP00000000513|organism=Lepeophtheirus salmonis|type=polypeptide|length=122bp
MGLFGGSSGSDSKSSGDTLDLSDGWDSSDSKLSNSSFSGMEDFGDSSMDI QTFVQTEQQRQQIMEQVHKLNDVCWKMCVTSVSSSLGSRTESCLTNCTER FVDTTLLITQRFAQLASKMQGN back to topmRNA from alignment at LSalAtl2s1080:22731..27211+ Legend: exonpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000000513-696360 ID=EMLSAT00000000513-696360|Name=EMLSAT00000000513|organism=Lepeophtheirus salmonis|type=mRNA|length=4481bp|location=Sequence derived from alignment at LSalAtl2s1080:22731..27211+ (Lepeophtheirus salmonis) CTCTATTATACTAAAATAGTGTTTATATTGAAATTAACATATGAATTAAT
TACTAATTTTTACAAAAAAAGAAATTAATTAATTTAATTCCTAGTTTTAT
TAACTATACAGATATAAAATTTATCGGGTAAGGGATATCACAGGTATATA
GGCACAATATTCCTTTACTTTTATCTAAATCGTGTTAAAACCAATTTTTC
CGACTAAAATCTAAATTACTATTATACAAATCCTCTATTTCAGGCTTTTC
CGAATCCATTGAATCCTCAGAAGTATCATCCATATCATCTACACTATCTT
CGAATCCTTTTTTAATGTAATTTTCTCCATGTAGGTGTAACCAAGATATT
ACCAAAACAGAGATTAATACTGATAAGTAAAAAACAGAGCCCAAAATGGC
CGCAGTTATGGGATAATAGTACATAAATGCCCTAATACCCTTGAAATCCG
CCAATATTCTTAGTTCAGCACTGTATACATCAAGGAAGCGAGACTTAATA
ACAAATGTGATCCATTTTGCTGGATTATAGGGATCCATATCCATAAATTC
TTTGAAGAAATCGATTTCTATCGTTTCATACTCATTCCAATATCCAGCAA
TGACCCCTATAAGATAATAATGTTACAAATTCTCATAGTTAGAATAGCCA
TCAATTATAATGTTAAAATTAAACATACAACTTTTTCAAACATACTTTGT
TTTTCACTACCTGGACTAATAATTAAGTTTCTTAATTGCCTTGTAATGAA
GGAGCGATGAGGGAAAAGAGATGATTTACAGTGTTCCCTGAGCATGGATC
CATTTTTACCAAAAACTTTTAGGCAACTCATAAACATACCATGGTCCCTG
TTGACTGGAGAGTCGGGTAATTTAAGTCGTACAGATATAAAATAGGGTTG
ATCATTCATGAGAATTTCAGATAAGTTATAACTCGAAGATACTACACTAC
ATTTACTAGGAGATGAATGACAGGGCTTAAAAGTCATGGTCATGGGAGAC
TTAATCAAAGGAGCAGGGATATATCCGTAATAAAATGCTCCATAGATCAT
AAAGGAAATGACACTAAGTACAATCATTGAAATAGCAATTGTGAAGCAGT
TATAGCAGAGGTCCCATGTCATCAAAGCAGCAGATCCAATTTTGTCCTTA
GTTCTAGCAGGAAACTGCTTTGCTGAAATAATCCTTGAGGACAGGCCAGA
GTGTACATTACGTATACGTTGCATCACGGAAATGCATATATCTAATAAAA
TACATTAATATATTAATGATCTTATTTATAAAATTAACAATATTCTTACC
GCAATGTTTTGTTGTGATCAAGAAAAGAGTAATGAATAAAAATGGATGTA
CATAGTCTTCTCGCTTGTCTGGAAGATTAGAATGCCTCACCTTGCTGTGT
ATACTCTCATTTAAAACATCTCCTTTTCATACGATAAGAATTCAGAAATA
TTAATAAGTAAATATAAACTAATCATCACAATTTATAAAAAAGGGAATTT
TTTTTGAGTGTGATTTGATATTTCTTGGTGAATCAAACTCCATCATTTTG
TAGGACATTGTTTTAACCTTAAATAGGCTTGATTATCCATAACTCATAAG
ATGATATGAACAAAGTACGCAGTTAGGAGGGAGAGGAGAAGGCCTTTGAA
ATTTGTCGAAAAATTGCGTACATACTTTGTACATGAGCCCTAACTTACCT
TCTATTATTTTAATTCATCAATCATCGATAAAGATAGGAGTCAGACAGTT
TACAATTTAGATTTGTCTTTAATCATAACATTAACAGAATTACTAAGTAG
AAATGGATCATTAAAAGCTGAGTAATTAATGTTTTTCTGCATGATATTCA
ATATAATTAATGATCAAAAAACAAAGTTTAGGCAATTTTATATAATATAT
AAATTATGCACCCGACATAGATAAGTACATAATATATTGCATGAAAGCGC
TGTTGTCGCGAAAGAGCACGTCAACTGTTGAGTTACATATATTCTCTATG
GTGAGATAAATAACATGGCCTTTATTGGTATGAACGTTATATTTTGTTCA
CAAATTGTAACTTTTATAAGCAAGTTCCACTAGCTGCAACCAAAAAATGA
GATAACTAATCTTAAATGAAGGGGTTACAGTACTTGAGATGAGGATAATG
CAATAATTGAATATTCGATGAGTCTAATGGGTCTAATTTTTGACTATTTT
AAAACAAATTAATAAAATAAAATTATATGGATATTATGTATTTATGAGTA
ATATAGCTCTAGGCATTTAAACATTATATGTACCACATAATCATTATGAT
AGATAAAATGAAATGATAGTATCAATTGATAATTGATCAGTAGAATTACC
CGTGTTTGTAATTAAGTTATGTATATTAAAACGAAGAAATTGTACCTTGT
ACAATTTGTGACTTTTAAAGATATCGAAACTTGTACTCAACTCAACCTAT
AAATTCTTGAATTCAAGGAAAAAATAAATAATTTAATGATTATTATTATT
TATAGCATAAACACCCCAACAACAGTTGACGCCATCTCGAGCAATATCTA
GTCTCTCTAGTCAATAACAACTTCCTCAATAAAAACTTTGTCCTTCTAAA
TATTCTCCATGGCACCCGGTAGTCCAGAGAGATCTAGCTATCAAAACATC
AAATGAAAAGTGAACATATTATTTCATGTGTACTAATACCACGTGATTAA
AAACAATAATATTGTACAAAAAGAACATAAAATATGGGGTTAATTGTACA
ACGCCTAAGTATCACTTCCACATTGTAAATTATTTATTTATTTCCTGAGG
AGTCGACAACATCATGGGTTTATTTGGAGGTTCATCTGGTTCGGATTCGA
AAAGCTCTGGAGATACATTAGATTTGAGTGATGGATGGGACAGCTCAGAC
TCTAAACTTTCAAACTCATCCTTTTCCGGTATGGAGGATTTTGGTGATTC
TTCTATGGATATTCAGACCTTTGTTCAGACGGAGCAACAACGGCAGCAAA
TCATGGAGCAGGTATCCTACATTTTTTCTTTCCATTCCATTACTGTTTTA
TTTGTTTCCTTTTAGGTGCATAAACTGAATGATGTTTGTTGGAAAATGTG
CGTTACCTCTGTTTCAAGCTCCTTGGGGAGTCGAACAGAATCTTGTCTTA
CAAACTGTACAGAAAGGTTTGTGGATACAACTCTACTCATTACGCAGAGA
TTCGCCCAGCTCGCATCCAAAATGCAAGGGAACTAGTGACTCGCAATTTA
CGAGAGTCGACGAATTCTTTCGTTTGCATTGATATTATTGATTGTCTCTG
TCATAAGGAACTTTATCATATCTCTGTGCAGAAGAGAATCCAATACCTTC
TTCTTAGAACATGCAGAATAAATTATGTAGATATTTATTGTAGATGAACT
ATTATAATAATAATTGTTATTGATAAAGTTAATTAGTAAATGGAGTAATT
AAAAAAATATAAATGGTTATGGGTAAAGAAGAAGACTGTTTAAGAGGCAT
GCCATTTGTAAGTGCAAAGATCCCTGGGGTGGTATTTTCTACTTTTCATA
GCATTTTCTAAGTAACCCATATTTTAAAAAAAAGATTTTGATCTAAATAC
GTTCGCTACGGAGTATAAATATCTTCGTATTCCGTATTAAAAGAGCTCAT
TTCCACAAGACGGAACATGTTCGTCACCATTAAACGTAAATTAAGATTAC
TAAAAAACCGGTTCATCAAGCTAATATCCGTCCATACTGGGACAACATTC
AAATCTTGCATCGCGAACGTGTTCAGTACTTACATTTTAAGGTAACCTTT
CATTTTTTATTTAATGAAAATTTGAAATAAATCTCCAAAATTGGCTCTAC
ATTAGATGACTTAAACGTCAATTTCGACTGGAACATTGCTAAAAATATAT
TAAAACCATGGAATTAAAGCCAAAAACATTGCTTACGAAAGTAATTAAAT
ATCAGGGGTATATAACAAGTATATCAAAAGATACTTTTAATCGGAGTCTC
AAAGGGGACGTGCAAATTGAAAAAGTAACTTCCTTCCCAATTTTCAAAAA
ATCCCCAAAACGTCACCAATCAACAGCATTCTAATGAAATATTATATATG
TAGAACTTAAAATTAATTTACAAATAATCATAAAATAACATCAGTTTTTA
TAACAGAAGCCGAAATGGACCTCACACCAGTCATTGTAGGACAAGGAATA
CTCTAGGATTAATTTTTTCAGTCATTCTAGAGTTTTTGTAATATCTTCGA
GATTAGTAGAGATTCGCTTTTTTCATTATCTTGAAAAATTCATCTTGATT
CACTTCTCCGTCTCCATCCCTATCCGCCTCATCAATCATTTCCTAAAAGA
AAATAATTAATAAATGATAATTTCTATTGTCGAGCTCAAATGTATTGGTA
TCGCCCTTACTTTTTTTCCCAAAAAAAAACAAAAAAAAAAACTTAAAGCC
ATTGGGCGAAATCCGAGGGAGACAGGAGACA back to top
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