require(phylter) require(ape)
In addition to the R package phylter available on CRAN (https://CRAN.R-project.org/package=phylter) and on GitHub (https://github.com/damiendevienne/phylter), containerized versions of phylter (docker and singularity) are also proposed.
This may ease the use of phylter on some computing infrastructures (clusters) or for users reluctant to the R language.
The containers host python3 scrips allowing to easily run phylter with the same options than with the R package, but also perform additional tasks such as removing (pruning) outliers from input trees and/or filtering out outlier sequences from (aligned) sequence files (fasta format).
Using phylter from the container simply consists in running the phylter.py
function, specifying various options such as the directory containing the gene trees (with -t), the job name (with -j), etc.
The containers also contain a toy dataset of 255 Carnivora genes trees and alignments from Allio et al. (2021) that will allow you to test both the correct installation of the container(s), and the use of the phylter.py
function and its options.
PhylteR is available as a Docker container: https://hub.docker.com/r/treecoutheo/phylter_docker.
Here are the steps needed to use the docker version of phylter:
Warning: you may need administrator rights to use docker!
sudo docker pull treecoutheo/phylter_docker:latest
sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker phylter.py -j Carnivora_docker -t /usr/container-data/trees
$PWD
specifies that you work in your local Present Working Directory. This should not be changed.-j
specifies the job name for this phylter run (and thus the name of the output folder)-t
specifies the folder containing the input gene trees in Newick format (one tree per file)The command above creates the directory Carnivora_docker
that will contain:
PhylteR_all_tree_named
: a single file containing all the trees with the gene ID preceding the newick.phylter.out
: the phylter output file containing the log of the run and the list of identified outliers.
Run phylter on the example Carnivora dataset AND prune trees AND remove outliers from fasta files
You may want to run phylter and to subsequently remove the identified outliers from both the gene trees and the sequences files. For this to be performed, the sequence files must contain the same name as the corresponding tree, minus the extension if any. For example, a sequence file named ENSG00000274286_ADRA2B_final_align_NT.aln
will be matched automatically to a tree file named ENSG00000274286_ADRA2B.treefile
: phylter.py
will identify the gene ID as being ENSG00000274286_ADRA2B.
sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker phylter.py -j Carnivora_docker -t /usr/container-data/trees -p TRUE -s /usr/container-data/alignments -g TRUE
-p TRUE
specifies that the input trees should be pruned by removing the outliers identified by phylter. A new directorry containing the pruned trees is created (see after).-s
specifies the directory containing the sequences (see above for specifications regarding naming conventions). If this directory is specified, the input sequences will be filtered by removing the outliers identified by phylter. A new directorry containing the filtered sequences is created (see after).-g TRUE
specifies that a full report (in pdf) should be produced (in addition to the default phylter.out
file).The command above generates, in addition to the two files described in the previous example:
Carnivora_docker/trees_PhylteR/
: a directory containing the trees pruned from their outliers. Note that the number of trees inside the directory can be lower than the number of trees used as input in case all species from a gene tree have been identified as outliers.
Carnivora_docker/seqs_PhylteR/
: a directory containing sequences with outlier sequences filtered out. The number of sequences files inside the directory can be lower than the number of sequences files used as input. Again, the number of sequence files inside the directory can be lower than the number of trees sequence files in the input directory in case all species from a gene tree have been identified as outliers.
report.pdf
: a PDF report containing a summary of the results.
Prune trees and filter out sequences AFTER the phylter run.
Instead of performing the phylter analysis and the filtering of outliers at the same time, you can do it in multiple steps. here is how, on the example dataset:
sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker phylter.py -j Carnivora_docker -t /usr/container-data/trees
The output file phylter.out
will be used for performing the pruning and/or the sequence filtering (see below).
prune_tree_outliers.R
:sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker prune_tree_outliers.R container-data_phylter /usr/container-data/trees Carnivora_docker/phylter.out
remove_sequence_outliers.py
:sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker remove_sequence_outliers.py -j container-data_phylter -s /usr/container-data/alignments -o Carnivora_docker/phylter.out
phylter.py
allows specifying all the options available in the R package. To see this list of options, simply use the -h
option:
sudo docker run -v $PWD:$PWD -w $PWD treecoutheo/phylter_docker phylter.py -h
PhylteR is also available as a singularity container : (https://cloud.sylabs.io/library/theo.treecou/tool/phylter_singularity). Here are instructions to install (or build) and run it:
sudo singularity pull PhylteR.sif library://theo.treecou/tool/phylter_singularity:latest
Alternatively, you can build a singularity image from the Docker Hub repository:
sudo singularity pull PhylteR.sif docker://treecoutheo/phylter_docker:latest
2.a Run phylter on the carnivora example dataset:
singularity exec -B $PWD PhylteR.sif phylter.py -j Carnivora_singularity -t /usr/container-data/trees
Note: For more options Please, refer to the description of the docker container to see how to use all the options available with the
phylter.py
function.
2.b Alternatively, you can open a console in the singularity container as follows and use R in that console:
singularity shell -B $PWD PhylteR.sif R # this launch the version of R from inside the singularity
Then:
library(phylter) list_trees <- Sys.glob("/usr/container-data/trees/ENSG*.treefile") trees <- lapply(list_trees, ape::read.tree) results <- phylter(trees, parallel = FALSE)
For comments, suggestions and bug reports, please open an issue on this GitHub repository.
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