snp_mapping_using_wgs: SNP_Mapping.xml annotate

annotate SNP_Mapping.xml @ 3:9cec8343aa5f

Uploaded

author	gregory-minevich
date	Tue, 20 Mar 2012 10:44:38 -0400
parents
children

rev	line source
3 9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	1 <tool id="snp_mapping_using_wgs" name="SNP Mapping">
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	2 <description>Map a mutation by plotting recombination frequencies resulting from crossing to a highly polymorphic strain</description>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	3 <command interpreter="python">SNP_Mapping.py --sample_pileup $sample_pileup --haw_vcf $haw_vcf --loess_span $loess_span --d_yaxis $d_yaxis --h_yaxis $h_yaxis --points_color $points_color --loess_color $loess_color --output $output --location_plot_output $location_plot_output --standardize $standardize</command>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	4 <inputs>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	5 <param name="sample_pileup" size = "125" type="data" format="pileup" label="WGS Mutant Pileup File" help="WGS pileup file from pooled F2 mutants that have been crossed to a mapping strain. The pileup should contain data from only mapping strain (e.g. Hawaiian) SNP positions" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	6 <param name="haw_vcf" size = "125" type="data" format="vcf" label="VCF of mapping strain (e.g. Hawaiian) SNPs" help="A VCF reference file that contains mapping strain SNP positions and reference base pairs at each position"/>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	7 <param name="loess_span" size = "15" type="float" value=".01" label="Loess span" help="Parameter that controls the degree of data smoothing."/>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	8 <param name="d_yaxis" size = "15" type="float" value=".7" label="Y-axis upper limit for dot plot" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	9 <param name="h_yaxis" size = "15" type="integer" value="500" label="Y-axis upper limit for histogram plot" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	10 <param name="points_color" size = "15" type="text" value="gray27" label="Color for data points" help="See below for list of supported colors"/>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	11 <param name="loess_color" size = "15" type="text" value="red" label="Color for loess regression line" help="See below for list of supported colors"/>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	12 <param name="standardize" type="boolean" truevalue="true" falsevalue="false" checked="true" label="Standardize X-axis" help="Dot plots and histogram plots from separate chromosomes will have uniform X-axis spacing for comparison"/>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	13 </inputs>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	14 <outputs>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	15 <data name="output" type="text" format="tabular" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	16 <data name="location_plot_output" format="pdf" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	17 </outputs>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	18 <requirements>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	19 <requirement type="python-module">sys</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	20 <requirement type="python-module">optparse</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	21 <requirement type="python-module">csv</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	22 <requirement type="python-module">re</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	23 <requirement type="python-module">decimal</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	24 <requirement type="python-module">rpy</requirement>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	25 </requirements>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	26 <tests>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	27 <param name="sample_pileup" value="" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	28 <param name="haw_vcf" value="" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	29 <output name="output" file="" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	30 <output name="plot_output" file="" />
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	31 </tests>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	32 <help>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	33 What it does:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	34
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	35 This tool improves upon the method described in Doitsidou et al., PLoS One 2010 for mapping causal mutations using whole genome sequencing data. Sample output for a linked chromosome:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	36
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	37 .. image:: http://biochemistry.hs.columbia.edu/labs/hobert/CloudMap/SNP_Mapping_Linked_LG.pdf
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	38
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	39
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	40
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	41 The polymorphic Hawaiian strain CB4856 is used as a mapping strain in most cases but in principle any sequenced nematode strain that is significantly different from the mutant strain can be used for mapping. The tool plots the ratio of mutant strain (N2)/mapping strain (Hawaiian) nucleotides, reflecting the number of recombinants in the sequenced pool of animals. Chromosomes which contain regions of linkage to the causal mutation will have regions where the ratio of mapping strain (Hawaiian)/total reads will be equal to 0. The scatter plots for such linked regions will have a high number of data points lying exactly on the X axis. A loess regression line is plotted through all the points on a given chromosome giving further accuracy to the linked region.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	42
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	43 Each scatter plot has a corresponding frequency plot that displays regions of linked chromosome where 0 ratio SNP positions are concentrated. 1Mb bins for the 0 ratio SNP positions are colored gray by default and .5Mb bins are colored in red.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	44
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	45
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	46 The experimental design required to generate data for the plots is described in Doisidou et al., PLoS One 2010 Figure 1:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	47
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	48 .. image:: http://biochemistry.hs.columbia.edu/labs/hobert/CloudMap/Doitsidou_2010_PLoS_Fig1.pdf
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	49
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	50
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	51 ------
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	52
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	53 Input:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	54
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	55
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	56 The input pileup files are generated by the SAMTools mpileup tool. Default SAMTools mpileup (and Samtools filter pileup) parameters for mapping quality, base quality and coverage at each SNP position typically yield good results, though users may experiment with filtering SNP data according to these parameters. In our testing, low threshold filtering on base pair quality has been useful in improving accuracy of plots while high threshold filtering on coverage has skewed plot accuracy.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	57
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	58 This tool requires a pileup that has been created at each SNP position using SAMTools mpileup and a BED file of all Hawaiian SNP positions. Download Hawaiian SNP positions BED file here:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	59 http://biochemistry.hs.columbia.edu/labs/hobert/protocols.html
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	60
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	61 The required VCF of mapping strain (e.g. Hawaiian) SNPs is a reference file that contains mapping strain SNP positions and reference base pairs at each position.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	62 (download Hawaiian SNPs VCF from: http://biochemistry.hs.columbia.edu/labs/hobert/protocols.html). You may also make your own VCF of SNP positions following the steps described in the CloudMAP paper.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	63
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	64
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	65 Output:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	66
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	67 The tool also provides a tabular output file that contains a count of the number of reference and alternate SNPs at each mapping strain SNP position as well as the ratio of reference/alternate SNPs. The position of each mapping strain SNP in map units and physical coordinates is also provided in the output file.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	68
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	69
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	70 ------
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	71
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	72 Settings:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	73
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	74 .. class:: infomark
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	75
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	76 Information on loess regression and the loess span parameter:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	77 http://en.wikipedia.org/wiki/Local_regression
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	78
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	79 .. class:: infomark
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	80
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	81 Based on our testing, we've settled on .01 as a loess span default. Larger values result in smoothing of the line to reflect trends at a more macro level. Smaller values result in loess lines that more closely reflect local data fluctuations. Users looking at chromosome subregions will want to increase the loess span.
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	82
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	83 .. class:: infomark
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	84
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	85 Supported colors for data points and loess regression line:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	86
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	87 http://www.stat.columbia.edu/~tzheng/files/Rcolor.pdf
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	88
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	89 http://research.stowers-institute.org/efg/R/Color/Chart/ColorChart.pdf
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	90
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	91
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	92
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	93 .. class:: warningmark
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	94
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	95 This tool requires that R has been installed on your system (http://www.r-project.org/).
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	96
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	97
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	98 ------
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	99
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	100 Citation:
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	101
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	102 This tool is part of the CloudMap package from the Hobert Lab. If you use this tool, please cite `Gregory Minevich, Danny Park, Richard J. Poole and Oliver Hobert CloudMap: A Cloud-based Pipeline for Analysis of Mutant Genome Sequences. (2012 In Preparation)`__
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	103
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	104 .. __: http://biochemistry.hs.columbia.edu/labs/hobert/literature.html
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	105
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	106
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	107
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	108 </help>
9cec8343aa5f Uploaded gregory-minevich parents: diff changeset	109 </tool>

Mercurial > repos > gregory-minevich > snp_mapping_using_wgs

annotate SNP_Mapping.xml @ 3:9cec8343aa5f