Mercurial > repos > iuc > hyphy_slac
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"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/hyphy/ commit 795426da748ca2c21d52b72b2a78e8e6135e4079"
author | iuc |
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date | Thu, 19 Mar 2020 10:16:44 -0400 |
parents | 25782236e47e |
children | dc9e52b2d0e1 |
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<?xml version="1.0"?> <tool id="hyphy_slac" name="HyPhy-SLAC" version="@VERSION@+galaxy0"> <description>Single Likelihood Ancestor Counting</description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements"/> <command detect_errors="exit_code"><![CDATA[ ln -s '$input_file' slac_input.fa && ln -s '$input_nhx' slac_input.nhx && hyphy slac --alignment ./slac_input.fa --tree ./slac_input.nhx --code '$gencodeid' --branches '$branches' --samples '$number_of_samples' --pvalue '$p_value' --output '$slac_output' > '$slac_log' ]]></command> <inputs> <expand macro="inputs"/> <expand macro="gencode"/> <expand macro="branches"/> <param argument="--pvalue" name="p_value" type="float" value=".1" min="0" max="1" label="P-value" /> <param argument="--samples" name="number_of_samples" type="integer" value="100" min="0" max="100000" label="Number of samples used to assess ancestral reconstruction uncertainty"/> </inputs> <outputs> <data name="slac_log" format="txt"/> <data name="slac_output" format="hyphy_results.json" /> </outputs> <tests> <test> <param name="input_file" ftype="fasta" value="absrel-in1.fa"/> <param name="input_nhx" ftype="nhx" value="absrel-in1.nhx"/> <output name="slac_output" file="slac-out1.json" compare="sim_size"/> </test> </tests> <help><![CDATA[ SLAC : Single Likelihood Ancestor Counting ========================================== What question does this method answer? -------------------------------------- Which site(s) in a gene are subject to pervasive, i.e. consistently across the entire phylogeny, diversifying selection? Recommended Applications ------------------------ The phenomenon of pervasive selection is generally most prevalent in pathogen evolution and any biological system influenced by evolutionary arms race dynamics (or balancing selection), including adaptive immune escape by viruses. As such, SLAC is ideally suited to identify sites under positive selection which represent candidate sites subject to strong selective pressures across the entire phylogeny. SLAC provides legacy functionality as a counting-based method adapted for phylogenetic applications. In general, this method will be the least statistically robust (compared to FEL or FUBAR), but it is the most directly interpretable. Brief description ----------------- SLAC (Single Likelihood Ancestor Counting) uses a maximum likelihood ancestral state reconstruction and minimum path substitution counting to estimate site - level dS and dN, and applies a simple binomial - based test to test if dS differs drom dN. The estimates aggregate information over all branches, so the signal is derived from pervasive diversification or conservation. A subset of branches can be selected for testing as well. Input ----- 1. A *FASTA* sequence alignment. 2. A phylogenetic tree in the *Newick* format Note: the names of sequences in the alignment must match the names of the sequences in the tree. Output ------ A JSON file with analysis results (http://hyphy.org/resources/json-fields.pdf). A custom visualization module for viewing these results is available (see http://vision.hyphy.org/SLAC for an example) Further reading --------------- http://hyphy.org/methods/selection-methods/#SLAC Tool options ------------ :: --code Which genetic code to use --branches Which branches should be tested for selection? All [default] : test all branches Internal : test only internal branches (suitable for intra-host pathogen evolution for example, where terminal branches may contain polymorphism data) Leaves: test only terminal (leaf) branches Unlabeled: if the Newick string is labeled using the {} notation, test only branches without explicit labels (see http://hyphy.org/tutorials/phylotree/) --pvalue The significance level used to determine significance --samples Draw this many alternative ancestral state reconstructions to evaluate uncertainty ]]> </help> <expand macro="citations"> <citation type="doi">10.1093/molbev/msi105</citation> </expand> </tool>