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Associated RNAi Experiments
Alignments
The following features are aligned
Aligned Feature | Feature Type | Alignment Location |
LSalAtl2s101 | supercontig | LSalAtl2s101:277045..280924 - |
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 EMLSAP00000000112 >EMLSAP00000000112 ID=EMLSAP00000000112|Name=EMLSAP00000000112|organism=Lepeophtheirus salmonis|type=polypeptide|length=113bp
MIVFYPRKKEMIPNVEQRQGISFTPLIIAVSLCFQLGITLIEAQSQSFPF NTNLQETEFVIPNATRHSVISTEVTASPAILHTPRNIVKGSPETESVIQS AILQTVITMEEIV back to topmRNA from alignment at LSalAtl2s101:277045..280924- Legend: polypeptideexon Hold the cursor over a type above to highlight its positions in the sequence below. >EMLSAT00000000112-695959 ID=EMLSAT00000000112-695959|Name=EMLSAT00000000112|organism=Lepeophtheirus salmonis|type=mRNA|length=3880bp|location=Sequence derived from alignment at LSalAtl2s101:277045..280924- (Lepeophtheirus salmonis) ATGATTGTTTTTTATCCACGAAAAAAAGGTATATTATTTGGTTTCTGATG
AAGCATTTTTGAATCAGTCGTGAAATAATATTGTATTAGTGCATTTGGAT
ATTCTCCAGGGGATATTTGAGAATTGGAATTTACAACCTTGTTTACTCTC
TTTTTTATAGATAGATAGCCACTCTGTGTATTTATGCATAAAGGCTACAT
AAAAATTGAAGAAGAAAATAAGGAATTCAGATTTCTCAAGTCACCGAAAT
AATATTGTTTGTAGATACGACAAGGAACCCTAAGGTAATTAATCAACATG
CGCTTGTAACTAACAATGAGTATCATTAAGAGAGGGCCAAAGTTATAGCC
TATTGTCATTACATGGCTATACATATATGTAATTAAGTCTCATGACTTGT
TATCGTACATTCTTTTGCAAATCATTGACTTTGATTAACGTCAACTTTTT
ATGTATGTACTTATATAAATATTCGAGCCATCCTTGGTCAAATAATTAGA
GCGTAGTGCTCTCATCATATACTTAGAATAAAAGTTCAATATGACTAAAC
GATCTTTTACCGTTGCTTTTCACATTAAAAGAATAATAAAACATTACAAC
ACACACATATATATTATAATGTGAACCATTCTAGTTTGATTCCCAGGGGT
CAAGCCCAATTTTTATCTTCTTTGAAAATATGATGATGCAATCTCCTAAT
GGTTACATATGTATGCCGTATTCATATTCTAAAAGTTCATAATGGATAAC
ATACATCATTTATTTTTAGAAAGAGAAAGAAAATGACTTCATTCTTGTTG
TTTGACCTTGAAATACTGACTTGGTTTTTAAAATGTCCTTTTTATGTACC
TATTCCTTGTTATGGTTCTTCTTCTATCATAATGATAGGTAGAATGTACA
TATGTACATCAGTGGTTCTCAAACGTACTAATGGAGGCTGGCATGGGCGA
TGTTATAAAAAAGATGAGAAAAAAAAAAAAGGCATAATTACCTCCGAATA
TTTTGGTCAAAATTAAAGTTCCCCTCCTAAAAAATATTCATCTTTTTCAT
CACGAGTGATTATCAACTTTTGTACCACAGAGACCCTATAGGCGCCATTT
TATTTGAGAGGGAGTAGCTAATTTGGCCCGAATATTTGGCTCTATGATTA
ATTTATAAACATATAATTTTTTTGAATTTTTAAAGACTTTTTCGCGGAAA
AGACGCGTTTCTTGAGGACTTTGGTAACGTTGTGCAGTCCTGATTGAGAA
TGAATGTCCTACGCCTATGACAGCTTTTTATGTGAACTTCTGTCAGTGGT
ACGTGTCAGAACTTCATAAATAGGTTAAGCCTCACTGCCGTATTCACCGT
TTTTAATGAGGAGAGGGCTTAATGGAAAAGCTATGGAGGAAATACCATCA
ATACTATTTTTTTAAGAAATGATTGAGATGCCCTAGCCCAGAGTAATTAA
GGCACTGAGCCTCTGCTATTGTATATTATTCAGTTTATCCAAATTGGATG
TACAAAGTACATATCCGGAAATCTTGATATTATTTTATTAGGTGATACAG
ATTGCAAGAAGTTTGAGAGCACCTGGAATACTTAATTTATGTATATACAA
TATATATTGTATATATCTGGTGTGTCGACATAAATATATTTTTGAACAAA
AGTCAGGAAATGGTGAAAATCCCAATTTTTTTTTAATTTTTTTTTTACTT
TATATGCTCTACATACAGGCCAATATTTTGCATTCCAATTATTGGAATGA
ATTTAAAACATCCAAAAAAATTAGCCCTTCCTTAGAACCTTCATTATAGT
ATGAAGATAGGACCTAACCAATTTAAATAAATAAATATATCATTATTTTA
TTTTGACAATGGGTTTTTGCATCTCTGTGTCCAAGTTGTGGAATCCAAGT
AAATCTACTAATAGAAATTGCCCATCGTCGAAGAGTACAAATGTAATCCA
GTCTAAATGTAGAAAAACATCATTCCAGTTTAATTTTGCGTTGACGGGCC
ACATATATGGTTTGGAATGGATAGCTATAAGGCATTTGAATAATTACCAC
GTTTGATTATATTATATTCTTGCTCGAGAGTGAATGACACCATGTGACCA
GACAATTATTCTATACTCCTCTCCAGTACTTGTTATTTAGATTTTATTCT
TTTTTAAGGAGTGTCAAAATATTGTATATAGTCTGCATTTTTTTCCATCT
GACTATATATCTAATATGTTGCTATTACATATCTTGATTTAATCAAAGAA
AGTGGGTGGTTGTTCAATAGATATTATTACTAATTCTGACTCATTTTTCA
GAAATGATTCCAAACGTGGAGCAACGTCAAGGAATTTCCTTTACACCACT
CATCATAGCAGTCAGTCTCTGTTTCCAATTAGGAATCACACTAATTGAGG
CACAAAGCCAATCCTTTCCCTTCAACACAAACCTTCGTAATTTAAATAAT
CTCAATAGCAATCCTAATAACCGAGCCTTCAATGGACGACAATCCTCGAA
TCTCGTCTCAAATGATGATTTACCTCTTGACATCGGAACCATTGCTGCTG
CAGGGGAAGTTTGCATTGATAAAGTTGTGACAGTAGAAGAAGTGGAGTAT
GATAATGTGATTGAATGCAAGCACTCTTATAGTCAACGATGCCACGAAAC
ATATAAAACAGACTACTCTCCTCAACAAGAAGAAGAGTGCGAAGAAAACT
TTAAGAAAAATTGCTTCATTGAGTATAAGAAAAGAGCCTCCAAGGAAACG
GTTCAGATCTGTAATACTCCCCTTGTGAAGAACTGCGACATTCAAGGCCC
CCTGGAATGTAAAACAGAGTTTCAAACGCAATGTACCACGAGGTAGCTAT
TACTCAATACTCATTAAGAACCAGGAATTTCTCTTTCTTTCTCGCTATGA
GAAAATAATTACTCATTTAAAATTTTTAATGTTACGTAACGAGAGTTTCT
TTTAGGATTTCATTCCCGCTTCTTCCTGCAATTTTATTTTATTATTATGT
ATTAAATTTTCTTCCCCGAGGCTTCTCTCCTACAACATATACATATGTAA
TTGTGTTTCTTAAAGGTACCACGAACATGAAGTAATAGATGATATACCAG
ACTGCAAGGATGAGAATGAGGTCAAGTGTGAGGATGTTACTCAAGGTTAC
ACCACAGAGCAAAAGTGTAGCAAATGGCCTGTGAAGAAATGTAAATTGAG
TTCACAAACTGTCAAGAAATACTCTCCCGAAACACACTGCACAAAAGTTC
CATTCGAACTTTGTGGACCAGCAGCATGCCCAACTGAGCCTGGACCCGAC
GTATGCATTAGCAAAGAAGAAACGGTGCGTACATGGAACTCTGTTCCATC
CATGTTCTTTCATTTTTTATTTAAACTATTTCATTTATTTTTTTAGTTTG
TAGTGGATCAGCCCCAAGAGGAATGTAATCTTGAGCCTCAAAAGTCTTGC
AAATTAGTTACAAAGCTCATTCCCCTTCTTAAAGCAGTGGAAAACTGTAT
CGACATTCCAAAAGAGGTCTGTGTGAGACAACGTCGTAATCCAAGAACCG
TCAAAGTTCCCATCATTAAGAAATGGTGCTATACTCCTAAACTCGAGACT
TCTTCAGATATCAAGCCGGGATCAAGCAATCCTCGTGGTGTAACTGTCAA
CCCACCCACTGAGGCTCCCCCAACTTGCTCCACATTTTGCCGACAACGAA
GAAGAGACGGAGTTTGTCATCCCGAATGCAACACGCCACTCTGTGATTTC
GACGGAGGTGACTGCGAGTCCTGCAATCCTTCATACCCCAAGGAATATTG
TGAAGGGCTCTCCAGAAACGGAGTCTGTAATCCAGAGTGCAATACTCCAA
ACTGTAATAACGATGGAGGAGATTGTATAA back to top
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