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Associated RNAi Experiments
Alignments
The following features are aligned
Aligned Feature | Feature Type | Alignment Location |
LSalAtl2s106 | supercontig | LSalAtl2s106:443745..447809 + |
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 EMLSAP00000000453 >EMLSAP00000000453 ID=EMLSAP00000000453|Name=EMLSAP00000000453|organism=Lepeophtheirus salmonis|type=polypeptide|length=116bp
MEHDPFSKDDKLNIYCPEDYTKKFANKCSFCKNPIVPEKGQKSAPRIRAL NRDFHPKCFQCEDCGLVLDSKIKGKECYPFKGHILCIKCNRKKLSSEEED SSSDEEEEKEDKTTNA back to topmRNA from alignment at LSalAtl2s106:443745..447809+ Legend: exonpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000000453-696300 ID=EMLSAT00000000453-696300|Name=EMLSAT00000000453|organism=Lepeophtheirus salmonis|type=mRNA|length=4065bp|location=Sequence derived from alignment at LSalAtl2s106:443745..447809+ (Lepeophtheirus salmonis) CCTTGAAGGGAAATTCTACTGCGAAAAAGACTACAAGGAGGCTGTGAGTC
CTGCCCCAGATGTGAAAAAGATGTCATTGGGAATTTAGTACGCATCAAAG
GAGGCGTTTTCCACCCCAAGTGTTTCACCTGTGTTGTTTGTGGGAAAAAC
ATGGAGCATGATCCCTTCAGCAAGGATGACAAGCTCAATATTTATTGTCC
AGAAGACTATACCAAGTAAGTGTATATCATCAAACTTGTTACATAATATT
GACTAACATATATATTTATTTAAATTATCTCCTTAGAAAATTCGCAAACA
AATGCTCCTTTTGTAAGAATCCCATTGTTCCTGAAAAGGGACAAAAATCC
GCACCACGAATTCGAGCTCTTAATCGGGATTTCCACCCAAAATGCTTTCA
ATGCGAGGTAAATATTTATATAGCTCATGAAGTGGCCAAAAGAAATGCAC
CATTATAAATATTTACGTGCTGGTGGTGGGATAAAAAGTGGGGAAAACAA
ATGACTTGCTAAAATATTTTCTATTTAGAAAAAAAAAACCTTTTTAAGTT
TTGGTATATTTCATAAGTCATGAAGTGGAATTTTTATTTATTTATTTCTT
TTCTTTTTCCTGCGTATGTTCCTTTTGTGTTGAGGTTCGCCCTGGAAATA
CGTGACGGATTACAAATTCAACTCATTTAGCCCTTTCATAGTTGAAAAAA
TTCGATCCATATCGGTCCATCAAAAAAAATAGTTTGATCGATCTAATTTA
AAATTCATTCTAGACTGGGGTGAAGAAGTGGTAGTAGCTTAATTGTTTTA
CCAATATATTTTTCCCCGCGTCGGATGACGTCATTTCATCATTCTCCCTC
ATGACATCTGTAATTTTGTCTTCCCTTCGAAGAATTCACCTTGCCCATTC
AGTTAATATTCAATTCATGGACCTTGCATAGTTAATTAATTATAGAGTTA
TATTCAAGTATACAGTACGCCCCTAGCGTACAAAAAAGTTATTGCACGGT
TAACCTGGTTTATAGCTTTGAAGTGACCATATTCTCATATCCAAAAAAAG
GATTTGTGGTCCAATTAGTTTTAGGATCTAACTGTTTGTTCAAAAATTTA
CTTGTTGAAGTATTTTCAAAGTGGTTCAGATGTTTATAAACTCTTTGGTA
TCAAATATCAATTGAGACTTTAAAAAAATGAATCCACTATTTGAAAACAA
TTTGAGTTTATTCCTCGGTCTGAGAACACAATATTGTTCAAAATGTTGGT
CCAAATCGATTCATAAAAAATTATTTAAACCAAGAAGTGTGAAAAAGTGG
CAAAATTAGGGTTTTTATTATTACAATCAGGTTAGGCACTAAACAAGATG
TTGTTGAGGAGAATAAACTCATTTTGTTATTCGTTTTGACCATTTATMTG
GCCACAAATGTGAGATTTAGACATTGTCATTGATTTTATAGAATATTACG
ACACGTTTGGAGGTCAAGGATACAAACATTTTAGGAGAGAGNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAATTTCCTAATTTTAAATT
TTAATTATTTAAAAAAATAAAAAATTCCCTAATTAATTTTATTTTTTTTA
ATTTTATATGGGGCATTATTTTTTTAAAGTAACCGTTTGTTTCACAAAAA
AAAAAGCTAATTTTTTTTGATTATCAAGATGCTTCAAATGTTCATAAACT
CTTTGTTATTAAAAAAAAAATGAAAGCATCAAATTTAGTTCTTCTAAGAA
ATAAGCAATTCGTAACAGACATGAGACCAAAAAAAATTGGTCCAACATTT
AAGACCAAAAGAATCTGTTTACAATTTCAAAAGTAATCCTTTTGGAAAGA
AATTTCATATAGTAAATTTTTTGGAAAAAATTGCAAACATTAAATTTTTT
GGAAAAAAATACAGACATTAAATATTTTGAGAAAATTTGTAAACATTTAA
AAAATTTTAAAATCCACAGCATGACACAAAAAAATAATTTTTGTAACAAA
AATTAATATTATTAAATTTTTTGATCTGCTGCAAATTTTGCCGAATTACC
TTTTCTTTAAAAAATCATCCAAAAACCCTATTTTAGCGGGGGAAAAATTC
ATCCTGACCGAAAAAAGTTTAATTTCCCTAATAATAATGTTTACATAATT
TTTTGTAGGACTGTGGATTAGTGCTCGATTCCAAGATCAAGGGAAAGGAA
TGTTATCCCTTCAAGGGACATATCCTCTGTATTAAGTGCAATCGCAAGAA
GCTGAGTAGTGAAGAGGAGGACTCCTCTTCAGACGAAGAAGAAGAAAAAG
AAGATAAAACTACTAATGCTTGATCAATCATACAAGATTTAACATTAAGC
TTAAAAATGATTCTCACTCCCCTACTAATTTAGATATGTTTTGTAAGACC
AGCCACCTAAACAGAGAGAGAGACATGTTATGTTTAAATTAGGGCGGTTT
GTTTTGTAACTTTTTTTCGAATTTCGATTACCTGCTTGTATGGAAAAGTT
GTCATGTGGTAAGAAAAACAACCTATTTTTTTAGTGATTACATCACGGTC
TAAGTTAGAAAAAAGGCAAAATATTATTTATTTAGTCCCGTGGTTCTTTA
CTCTTTACCCCTATAACACAATTTCTGAATCTCTAAATGATGAAGCCATT
TCCTCCCAGACTTTTTACTCAGAAATGTAATAAACATTATTTTTTAAATA
AAGACAAATAATTAAATGTCTACTTTTTACAAGTATATTTTTTTTCAATA
AAATAAAAATAAATGCCCTTTATTTTTCATAAAATAGATTATTACTATTT
TTTATAAAATATATCATTAGTATTTTCTTTTTTACATAAATAGAGTTGTA
TATGAGACTTGAATACCCTTTCAGACTGTTTAAATTCTTACTCCGTTTAG
AACCACTGATTTAGTCAATCAGAATGTAAATAGCACATTATTCGATATTC
TGCATAAAACAATGTTATGAAGAAATAACATCAGGAATTTATGTATAAAA
AAATATTACCAAAAATAGTTGTTTCTTCAAATAAAAAACTATACCTAGGG
GTTTTGCAGTGATAAAAAAAAAAGGCTTAAAAATTACTTCTGTAGAACAG
AAAACTTTTCTAGGGGATATGACAACTTTTCCATACAGCTGTAATCGAAA
TTTGATAAAAATAGTTGAAAAACAAACCTCTATAATCTATACATTAACAT
TAGTCTACCTATCAACAACACTATCCAATGTTATTAGAACAAGGTTCGTC
AACAAGGAAATTGTAGAACAAACACAGCAGATCTATTAAATAATTCGTTC
TGAGTACGTCATTGGGATCCTTTCTTTGGGTAAATGTAATATGTAAAAAG
TAAAATATATAGGATTTTTTTTGATTTGATTTCCATTGATTCCTTATTTA
TTAACGCTAAAATTTGGTTTTTCAATTTTTCATTTTAGTTAGATTCCTGT
ATTTGGGGCTGCCAATGACGTGGTCCGTTATAATTGTAGTAAATTTTCAG
TAAGAATTGAAAAAGATTGCTGACTAACCTTGTTATAATAGCATTGGGTC
TATCAACGTCTTTCAAAACGACTAGTATTCAATTTATATACTTCATACAC
GTTGCTGTTCTTTCCCTCTCTTTTTTAAAAAAAAGCATTCATGGTGCCTT
TTTATTGGATATTATCCCTGTGCCGGTGTTCAGGGAGGCAAGAGAGAGGG
TGGTTGGTTGGAATCTCTACGATTCTCTATATTATTTTCTATATCATAAT
TATTACTATATATTTCATCACTCATACAAGTAACAAGTACATACATACAT
GCTCCATTGCATTTTCCGTATTGGATACGCTACACATGACATTATTAAAT
TATTATTGTTCATTAATATAGTTTCATAAATATATATTTACATAGATTTA
TTATATACACAAGCATAATTTTATATCGTGTTTAAATAATACTTAGGTGA
ATAAATTTGAGCCTA back to top
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