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Feature-aware orthology prediction tool. Provided data package: Quest for Orthologs reference gene sets 2019.

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NOTE: This is the last version of HaMStR-oneSeq (or h1s). If you want to be up-to-date, please use fDOG instead. The functions are renamed (e.g. fdog.run for h1s, fdog.setup for setup1s, etc.), but their parameters are mostly unchanged. Please check fDOG's documentation for more details.

HaMStR-OneSeq

PyPI version License: GPL v3 Build Status

Table of Contents

How to install

HaMStR-oneSeq is distributed as a python package called h1s. It is compatible with Python ≥ v3.7.

Install the h1s package

You can install h1s using pip:

python3 -m pip install h1s

or, in case you do not have admin rights, and don't use package systems like Anaconda to manage environments you need to use the --user option:

python3 -m pip install --user h1s

and then add the following line to the end of your ~/.bashrc or ~/.bash_profile file, restart the current terminal to apply the change (or type source ~/.bashrc):

export PATH=$HOME/.local/bin:$PATH

Setup HaMStR-oneSeq

After installing h1s, you need to setup HaMStR-oneSeq to get its dependencies and pre-calculated data.

You can do it by just running this command

setup1s -o /output/path/for/oneSeq/data

or, in case you are using Anaconda

setup1s -o /output/path/for/oneSeq/data --conda

You should have the sudo password ready, otherwise some missing dependencies cannot be installed. See dependency list for more info. If you do not have root privileges, ask your admin to install those dependencies using setup1s --lib command.

Pre-calculated data set of HaMStR-oneSeq will be saved in /output/path/for/oneSeq/data. After the setup run successfully, you can start using HaMStR-oneSeq.

For debugging the setup, please create a log file by running the setup as e.g. setup1s | tee log.txt for Linux/MacOS or setup1s --conda | tee log.txt for Anaconda and send us that log file, so that we can trouble shoot the issues. Most of the problems can be solved by just re-running the setup.

Usage

HaMStR-oneSeq will run smoothly with the provided sample input file in 'infile.fa' if everything is set correctly.

h1s --seqFile infile.fa --seqName test --refspec HUMAN@9606@3

The output files with the prefix test will be saved at your current working directory. You can have an overview about all available options with the command

h1s -h

Please find more information in our wiki to learn about the input and outputs files of HaMStR-oneSeq.

HaMStR-oneSeq data set

Within the data package we provide a set of 78 reference taxa. They can be automatically downloaded during the setup. This data comes "ready to use" with the HaMStR-OneSeq framework. Species data must be present in the three directories listed below:

  • genome_dir (Contains sub-directories for proteome fasta files for each species)
  • blast_dir (Contains sub-directories for BLAST databases made with makeblastdb out of your proteomes)
  • weight_dir (Contains feature annotation files for each proteome)

For each species/taxon there is a sub-directory named in accordance to the naming schema ([Species acronym]@[NCBI ID]@[Proteome version])

HaMStR-oneSeq is not limited to those 78 taxa. If needed the user can manually add further gene sets (multifasta format) using provided python scripts.

Adding a new gene set into HaMStR-oneSeq

For adding one gene set, please use the addTaxon1s function:

addTaxon1s -f newTaxon.fa -i tax_id [-o /output/directory] [-n abbr_tax_name] [-c] [-v protein_version] [-a]

in which, the first 3 arguments are required including newTaxon.fa is the gene set that need to be added, tax_id is its NCBI taxonomy ID, /output/directory is where the sub-directories can be found (genome_dir, blast_dir and weight_dir). If not given, new taxon will be added into the same directory of pre-calculated data. Other arguments are optional, which are -n for specify your own taxon name (if not given, an abbriviate name will be suggested based on the NCBI taxon name of the input tax_id), -c for calculating the BLAST DB (only needed if you need to include your new taxon into the list of taxa for compilating the core set), -v for identifying the genome/proteome version (default will be 1), and -a for turning off the annotation step (not recommended).

Adding a list of gene sets into HaMStR-oneSeq

For adding more than one gene set, please use the addTaxa1s script:

addTaxa1s -i /path/to/newtaxa/fasta -m mapping_file [-o /output/directory] [-c]

in which, /path/to/taxa/fasta is a folder where the FASTA files of all new taxa can be found. mapping_file is a tab-delimited text file, where you provide the taxonomy IDs that stick with the FASTA files:

#filename	tax_id	abbr_tax_name	version
filename1.fa	12345678
filename2.faa	9606
filename3.fasta	4932	my_fungi
...

The header line (started with #) is a Must. The values of the last 2 columns (abbr. taxon name and genome version) are, however, optional. If you want to specify a new version for a genome, you need to define also the abbr. taxon name, so that the genome version is always at the 4th column in the mapping file.

NOTE: After adding new taxa into HaMStR-oneSeq, you should check for the validity of the new data before running HaMStR.

Bugs

Any bug reports or comments, suggestions are highly appreciated. Please open an issue on GitHub or be in touch via email.

How to cite

Ebersberger, I., Strauss, S. & von Haeseler, A. HaMStR: Profile hidden markov model based search for orthologs in ESTs. BMC Evol Biol 9, 157 (2009), doi:10.1186/1471-2148-9-157

Contributors

Contact

For further support or bug reports please contact: ebersberger@bio.uni-frankfurt.de