Mercurial > repos > davidvanzessen > argalaxy_tools
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author | davidvanzessen |
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date | Thu, 25 Feb 2021 13:39:50 +0000 |
parents | 124b7fd92a3e |
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# ARGalaxy Immune Repertoire This is the GitHub repository for the ARGalaxy Immune repertoire pipeline. The Galaxy tool version can be found [here](https://toolshed.g2.bx.psu.edu/repository/browse_repositories_i_own?sort=name&operation=view_or_manage_repository&id=2e457d63170a4b1c). The docker version can be found [here](https://github.com/ErasmusMC-Bioinformatics/ARGalaxy-docker). ## Overview In execution order: #### imgt_loader or igblast ###### imgt_loader (Recommended) Start the analysis with [IMGT HighV Quest](https://www.imgt.org/HighV-QUEST/) archives. An IMGT archive file holds [multiple tabular files](http://www.imgt.org/IMGT_vquest/share/textes/imgtvquest.html#output3), this script extracts the specific columns relevant to the analysis from several of these files. `Rscript imgt_loader.r 1_Summary.txt 3_Nt-sequences.txt 5_AA-sequences.txt 6_Junction.txt 4_IMGT-gapped-AA-sequences.txt /path/to/output.txt` ###### igblast Start the analysis with FASTA files that are aligned with [igblast](https://www.ncbi.nlm.nih.gov/igblast/). Note that this method will provide less information than the IMGT archive. `sh igblast.sh /path/to/sequences.fasta species locus /path/to/output.txt` #### experimental_design This script will merge multiple result files (from the last step) into a single file with an additional ID and Replicate column to differentiate the individual samples during the analysis and to allow for analysis across samples. `Rscript experimental_design.r /path/to/input_1 id_1 [/path/to/input_2 id_2] [/path/to/input_n id_n] /path/to/output` #### report_clonality The R script that creates the analysis result. `sh r_wrapper.sh /path/to/experimental_design/output.txt /path/to/output_dir/output.html /path/to/output_dir "clonaltype" "species" "locus" "filter_productive" "clonality_method"` ###### parameters Clonaltype: - none - Top.V.Gene,CDR3.Seq - Top.V.Gene,CDR3.Seq.DNA - Top.V.Gene,Top.J.Gene,CDR3.Seq - Top.V.Gene,Top.J.Gene,CDR3.Seq.DNA - Top.V.Gene,Top.D.Gene,Top.J.Gene,CDR3.Seq.DNA Species: - Homo sapiens functional - Homo sapiens - Homo sapiens non-functional - Bos taurus - Bos taurus functional - Bos taurus non-functional - Camelus dromedarius - Camelus dromedarius functional - Camelus dromedarius non-functional - Canis lupus familiaris - Canis lupus familiaris functional - Canis lupus familiaris non-functional - Danio rerio - Danio rerio functional - Danio rerio non-functional - Macaca mulatta - Macaca mulatta functional - Macaca mulatta non-functional - Mus musculus - Mus musculus functional - Mus musculus non-functional - Mus spretus - Mus spretus functional - Mus spretus non-functional - Oncorhynchus mykiss - Oncorhynchus mykiss functional - Oncorhynchus mykiss non-functional - Ornithorhynchus anatinus - Ornithorhynchus anatinus functional - Ornithorhynchus anatinus non-functional - Oryctolagus cuniculus - Oryctolagus cuniculus functional - Oryctolagus cuniculus non-functional - Rattus norvegicus - Rattus norvegicus functional - Rattus norvegicus non-functional - Sus scrofa - Sus scrofa functional - Sus scrofa non-functional Locus: - TRA - TRD - TRG - TRB - IGH - IGI - IGK - IGL Filter productive: - yes - no Clonality Method: - none - old - boyd ## complete.sh This script will run all of the above for you, it will detect if you are using FASTA files or IMGT archives and use the appropriate tools. `sh complete.sh /path/to/input_1 id_1 [/path/to/input_n id_n] /path/to/out_dir/out.html /path/to/out_dir clonaltype species locus filter_productive clonality_method` See "report_clonality" for the parameter options. ## Dependencies - Linux - R - gridExtra - ggplot2 - plyr - data.table - reshape2 - lymphclon #### optional - Circos - IgBlast - igblastwrp