OrthoFinder-Sapelo2
Category
Bioinformatics
Program On
Sapelo2
Version
2.3.8, 2.3.11, 2.5.2
Author / Distributor
Description
"OrthoFinder is a fast, accurate and comprehensive analysis tool for comparative genomics. It finds orthologues and orthogroups infers rooted gene trees for all orthogroups and infers a rooted species tree for the species being analysed. OrthoFinder also provides comprehensive statistics for comparative genomic analyses. OrthoFinder is simple to use and all you need to run it is a set of protein sequence files (one per species) in FASTA format." More details are at OrthoFinder
Running Program
Also refer to Running Jobs on Sapelo2 Also refer to Run X window Jobs and Run interactive Jobs
- Version 2.3.8, installed at /apps/eb/OrthoFinder/2.3.8-foss-2019b-Python-2.7.16
- Version 2.3.11, installed at /apps/eb/OrthoFinder/2.3.11-intel-2019b-Python-3.7.4
- Version 2.5.2, installed at /apps/eb/OrthoFinder/2.5.2-foss-2019b-Python-3.7.4
To use the version 2.3.8, please first load the module with
ml OrthoFinder/2.3.8-foss-2019b-Python-2.7.16
To use the version 2.3.1, please first load the module with
ml OrthoFinder/2.3.11-intel-2019b-Python-3.7.4
To use the version 2.5.2, please first load the module with
ml OrthoFinder/2.5.2-foss-2019b-Python-3.7.4
Here is an example of a shell script sub.sh to run orthofinder.py of version 2.5.2 at the batch queue:
#!/bin/bash #SBATCH --job-name=j_OrthoFinder #SBATCH --partition=batch #SBATCH --ntasks=1 #SBATCH --cpus-per-task=2 #SBATCH --mem=10gb #SBATCH --time=120:00:00 #SBATCH --output=log.%j.out #SBATCH --error=log.%j.err #SBATCH --mail-user=username@uga.edu #SBATCH --mail-type=ALL cd $SLURM_SUBMIT_DIR ml OrthoFinder/2.5.2-foss-2019b-Python-3.7.4 orthofinder.py [options]
Here is an example of job submission
sbatch ./sub.sh
Documentation
ml OrthoFinder/2.5.2-foss-2019b-Python-3.7.4 zhuofei@b1-24 ~$ orthofinder -h OrthoFinder version 2.5.2 Copyright (C) 2014 David Emms SIMPLE USAGE: Run full OrthoFinder analysis on FASTA format proteomes in <dir> orthofinder [options] -f <dir> Add new species in <dir1> to previous run in <dir2> and run new analysis orthofinder [options] -f <dir1> -b <dir2> OPTIONS: -t <int> Number of parallel sequence search threads [Default = 64] -a <int> Number of parallel analysis threads -d Input is DNA sequences -M <txt> Method for gene tree inference. Options 'dendroblast' & 'msa' [Default = dendroblast] -S <txt> Sequence search program [Default = diamond] Options: blast, diamond, diamond_ultra_sens, blast_gz, mmseqs, blast_nucl -A <txt> MSA program, requires '-M msa' [Default = mafft] Options: mafft, muscle -T <txt> Tree inference method, requires '-M msa' [Default = fasttree] Options: fasttree, raxml, raxml-ng, iqtree -s <file> User-specified rooted species tree -I <int> MCL inflation parameter [Default = 1.5] -x <file> Info for outputting results in OrthoXML format -p <dir> Write the temporary pickle files to <dir> -1 Only perform one-way sequence search -X Don't add species names to sequence IDs -y Split paralogous clades below root of a HOG into separate HOGs -z Don't trim MSAs (columns>=90% gap, min. alignment length 500) -n <txt> Name to append to the results directory -o <txt> Non-default results directory -h Print this help text WORKFLOW STOPPING OPTIONS: -op Stop after preparing input files for BLAST -og Stop after inferring orthogroups -os Stop after writing sequence files for orthogroups (requires '-M msa') -oa Stop after inferring alignments for orthogroups (requires '-M msa') -ot Stop after inferring gene trees for orthogroups WORKFLOW RESTART COMMANDS: -b <dir> Start OrthoFinder from pre-computed BLAST results in <dir> -fg <dir> Start OrthoFinder from pre-computed orthogroups in <dir> -ft <dir> Start OrthoFinder from pre-computed gene trees in <dir> LICENSE: Distributed under the GNU General Public License (GPLv3). See License.md CITATION: When publishing work that uses OrthoFinder please cite: Emms D.M. & Kelly S. (2019), Genome Biology 20:238 If you use the species tree in your work then please also cite: Emms D.M. & Kelly S. (2017), MBE 34(12): 3267-3278 Emms D.M. & Kelly S. (2018), bioRxiv https://doi.org/10.1101/267914
Installation
source code from OrthoFinder
System
64-bit Linux