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"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/hyphy/ commit 2742ee3b4e90f65352845265d2f85c4263e0eabb"
author | iuc |
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date | Tue, 20 Apr 2021 10:27:10 +0000 |
parents | 2126c9e28ce6 |
children | 36e40d93e8a3 |
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<?xml version="1.0"?> <tool id="hyphy_sm19" name="HyPhy-SM2019" version="@VERSION@+galaxy0" profile="19.09"> <description>Partition Tree using Modified Slatkin-Maddison Test</description> <macros> <import>macros.xml</import> </macros> <expand macro="requirements"/> <command detect_errors="exit_code"><![CDATA[ ln -s '$input_file' sm19_input.nhx && @HYPHY_INVOCATION@ \$HYPHY_LIB/TemplateBatchFiles/SM-2019.bf ./sm19_input.nhx #for $n, $partition in enumerate($partitions): '${partition.label}' '${partition.regex}' #end for $replicates --output '$sm19_output' ; @CATCH_ERROR@ ]]></command> <inputs> <param name="input_file" type="data" format="nhx,newick,nexus" label="Input tree"/> <repeat name="partitions" min="2" max="50" title="Partitions"> <param name="label" type="text" label="Partition label"/> <param name="regex" type="text" label="Regular expression"> <sanitizer> <valid initial="string.printable"> <remove value="'"/> </valid> <mapping initial="none"> <add source="'" target="__sq__"/> </mapping> </sanitizer> </param> </repeat> <param name="replicates" type="integer" min="1" max="1000000" value="100"/> </inputs> <outputs> <data name="sm19_output" format="hyphy_results.json" /> </outputs> <tests> <test> <param name="input_file" ftype="fasta" value="sm19-in1.nhx"/> <param name="replicates" value="1000"/> <repeat name="partitions"> <param name="label" value="Blood"/> <param name="regex" value="B[0-9]+"/> </repeat> <repeat name="partitions"> <param name="label" value="Semen"/> <param name="regex" value="S[0-9]+"/> </repeat> <output name="sm19_output" file="sm19-out1.json" compare="sim_size"/> </test> <test> <param name="input_file" ftype="fasta" value="sm19-in2.nhx"/> <param name="replicates" value="1000"/> <repeat name="partitions"> <param name="label" value="Blood"/> <param name="regex" value="B[0-9]+"/> </repeat> <repeat name="partitions"> <param name="label" value="Semen"/> <param name="regex" value="S[0-9]+"/> </repeat> <output name="sm19_output" file="sm19-out2.json" compare="sim_size"/> </test> </tests> <help><![CDATA[ SM2019 : Structured Slatkin-Maddison ==================================== What does this do? ------------------ Test for evidence of genetically segregated populations, using a "detuned" version of the Slatkin-Maddison test. Brief description ----------------- This analysis implements canonical and modified versions of the Slatkin-Maddison phylogeny based test for population segregation. The test estimates the minimum number of migration events using maximum parsimony, and then evaluating whether or not this number is lower than expected in a panmictic or unstructured population using permutation tests Input ----- 1. A phylogenetic tree in the *Newick* format Note: assumes that leaf names that can be partitioned into sets using regular expressions For example :: ((((((((x_US_x_A_01C:0.0125396,(((((x_US_x_A_01P:0.00887628,(( x_US_x_A_08P:-0.000190918,x_US_x_A_11P:0.00313157):0.0106883, x_US_x_A_14C:0.0103815):0.00311658):0.00120812,x_US_x_A_09P:0.00320468): 0.0108828,x_US_x_A_12P:0.00732672):0.00596663,x_US_x_A_07C:0.00449846):0 .00639319,((((x_US_x_A_02P:-2.62303e-05,x_US_x_A_05P:0.00591507):0. 000156788,x_US_x_A_04P:0.00576826):0.00907366,((x_US_x_A_03P:0.00941548, x_US_x_A_14P:0.00866127):0.00229499,x_US_x_A_13P:0.0209192):0.00469629): 0.0146758,(x_US_x_A_10P:0.000156443,x_US_x_A_15P:0.00578946):0.00472532) :0.0103079):0.00733948):0.00228489,x_US_x_A_06P:0.00557974):0.00472981, x_US_x_A_04C:0.00478858):0.00105548,x_US_x_A_05C:0.0120259):0.0060905, x_US_x_A_12C:0.002911):2.90824e-05,x_US_x_A_11C:-5.79432e-06):4.34574e- 06,x_US_x_A_13C:-4.34574e-06):4.34574e-06,((x_US_x_A_08C:0.0029538, x_US_x_A_09C:-1.31511e-05):0.00296627,x_US_x_A_10C:-8.69148e-06):4. 34574e-06,x_US_x_A_15C:-4.34574e-06); Which can be partitioned into two groups of leaves, those that end in "P", and those that end in "C" 1. Reg-exp 1: `P^` 2. Reg-exp 2: `C^` 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/Slatkin for an example) Further reading --------------- https://github.com/veg/hyphy-analyses/tree/master/SlatkinMaddison ]]></help> <expand macro="citations"> <citation type="bibtex"> @PUBLISHED{slatkin, author = "Slatkin M, Maddison WP", title = "A cladistic measure of gene flow inferred from the phylogenies of alleles", year = "1989", note = "Genetics 123(3):603-613", url = "https://www.ncbi.nlm.nih.gov/pubmed/2599370"} </citation> </expand> </tool>