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orthomap is a python package to extract orthologous maps (in other words the evolutionary age of a given orthologous group) from OrthoFinder/eggNOG results. Orthomap results (gene ages per orthogroup) can be further used to calculate weigthed expression data (transcriptome evolutionary index) from scRNA sequencing objects.

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GitHub Workflow Status PyPI PyPI - Python Version PyPI - Wheel License: GPL v3 docs-badge

The orthomap repository is archived, since orthomap was renamed into oggmap.

orthomap has been renamed into oggmap and lives here now:

https://github.com/kullrich/oggmap

orthologous maps - evolutionary age index

orthomap is a python package to extract orthologous maps (in other words the evolutionary age of a given orthologous group) from OrthoFinder or eggNOG results. Orthomap results (gene ages per orthogroup) can be further used to calculate and visualize weighted expression data (transcriptome evolutionary index) from scRNA sequencing objects.

Documentation

Online documentation can be found here.

Installing orthomap

More installation options can be found here.

orthomap installation using conda and pip

We recommend installing orthomap in an independent conda environment to avoid dependent software conflicts. Please make a new python environment for orthomap and install dependent libraries in it.

If you do not have a working installation of Python 3.8 (or later), consider installing Anaconda or Miniconda.

To create and activate the environment run:

$ git clone https://github.com/kullrich/orthomap.git
$ cd orthomap
$ conda env create --file environment.yml
$ conda activate orthomap_env

Then to install orthomap via PyPI:

$ pip install orthomap

Quick usage

Detailed tutorials how to use orthomap can be found here.

Update/download local ncbi taxonomic database:

The following command downloads or updates your local copy of the NCBI's taxonomy database (~300MB). The database is saved at ~/.etetoolkit/taxa.sqlite.

>>> from orthomap import ncbitax
>>> ncbitax.update_ncbi()

Step 1 - Get query species taxonomic lineage information:

You can query a species lineage information based on its name or its taxID. For example Danio rerio with taxID 7955:

>>> from orthomap import qlin
>>> qlin.get_qlin(q = 'Danio rerio')
>>> qlin.get_qlin(qt = '7955')

You can get the query species topology as a tree. For example for Danio rerio with taxID 7955:

>>> from orthomap import qlin
>>> query_topology = qlin.get_lineage_topo(qt = '7955')
>>> query_topology.write()

Step 2 - Get query species orthomap from OrthoFinder results:

The following code extracts the orthomap for Danio rerio based on pre-calculated OrthoFinder results and ensembl release-105:

OrthoFinder results (-S diamond_ultra_sens) using translated, longest-isoform coding sequences from ensembl release-105 have been archived and can be found here.

>>> from orthomap import datasets, of2orthomap
>>> datasets.ensembl105(datapath='.')
>>> query_orthomap = of2orthomap.get_orthomap(
...     seqname='Danio_rerio.GRCz11.cds.longest',
...     qt='7955',
...     sl='ensembl_105_orthofinder_species_list.tsv',
...     oc='ensembl_105_orthofinder_Orthogroups.GeneCount.tsv',
...     og='ensembl_105_orthofinder_Orthogroups.tsv',
...     out=None, quiet=False, continuity=True, overwrite=True)
>>> query_orthomap

Step 3 - Map OrthoFinder gene names and scRNA gene/transcript names:

The following code extracts the gene to transcript table for Danio rerio:

GTF file obtained from here.

>>> from orthomap import datasets, gtf2t2g
>>> gtf_file = datasets.zebrafish_gtf(datapath='.')
>>> query_species_t2g = gtf2t2g.parse_gtf(
...     gtf=gtf_file,
...     g=True, b=True, p=True, v=True, s=True, q=True)
>>> query_species_t2g

Import now, the scRNA dataset of the query species.

example: Danio rerio - http://tome.gs.washington.edu (Qui et al. 2022)

AnnData file can be found here.

>>> import scanpy as sc
>>> from orthomap import datasets, orthomap2tei
>>> # download zebrafish scRNA data here: https://doi.org/10.5281/zenodo.7243602
>>> # or download with datasets.qiu22_zebrafish(datapath='.')
>>> zebrafish_data = datasets.qiu22_zebrafish(datapath='.')
>>> zebrafish_data
>>> # check overlap of transcript table <gene_id> and scRNA data <var_names>
>>> orthomap2tei.geneset_overlap(zebrafish_data.var_names, query_species_t2g['gene_id'])

The replace_by helper function can be used to add a new column to the orthomap dataframe by matching e.g. gene isoform names and their corresponding gene names.

>>> # convert orthomap transcript IDs into GeneIDs and add them to orthomap
>>> query_orthomap['geneID'] = orthomap2tei.replace_by(
...    x_orig = query_orthomap['seqID'],
...    xmatch = query_species_t2g['transcript_id_version'],
...    xreplace = query_species_t2g['gene_id'])
>>> # check overlap of orthomap <geneID> and scRNA data
>>> orthomap2tei.geneset_overlap(zebrafish_data.var_names, query_orthomap['geneID'])

Step 4 - Get transcriptome evolutionary index (TEI) values and add them to scRNA dataset:

Since now the gene names correspond to each other in the orthomap and the scRNA adata object, one can calculate the transcriptome evolutionary index (TEI) and add them to the scRNA dataset (adata object).

>>> # add TEI values to existing adata object
>>> orthomap2tei.get_tei(adata=zebrafish_data,
...    gene_id=query_orthomap['geneID'],
...    gene_age=query_orthomap['PSnum'],
...    keep='min',
...    layer=None,
...    add=True,
...    obs_name='tei',
...    boot=False,
...    bt=10,
...    normalize_total=False,
...    log1p=False,
...    target_sum=1e6)

Step 5 - Downstream analysis

Once the gene age data has been added to the scRNA dataset, one can e.g. plot the corresponding transcriptome evolutionary index (TEI) values by any given observation pre-defined in the scRNA dataset.

Boxplot TEI per stage:

>>>sc.pl.violin(adata=zebrafish_data,
...             keys=['tei'],
...             groupby='stage',
...             rotation=90,
...             palette='Paired',
...             stripplot=False,
...             inner='box')

orthomap via Command Line

orthomap can also be used via the command line.

Command line documentation can be found here.

$ orthomap
usage: orthomap <sub-command>

orthomap

optional arguments:
  -h, --help            show this help message and exit

sub-commands:
  {cds2aa,gtf2t2g,ncbitax,of2orthomap,plaza2orthomap,qlin}
                        sub-commands help
    cds2aa              translate CDS to AA and optional retain longest
                        isoform <cds2aa -h>
    gtf2t2g             extracts transcript to gene table from GTF <gtf2t2g
                        -h>
    ncbitax             update local ncbi taxonomy database <ncbitax -h>
    of2orthomap         extract orthomap from OrthoFinder output for query
                        species <orthomap -h>
    plaza2orthomap      extract orthomap from PLAZA gene family data for query
                        species <of2orthomap -h>
    qlin                get query lineage based on ncbi taxonomy <qlin -h>

To retrieve e.g. the lineage information for Danio rerio run the following command:

$ orthomap qlin -q "Danio rerio"

Development Version

To work with the latest version on GitHub: clone the repository and cd into its root directory.

$ git clone kullrich/orthomap
$ cd orthomap

Install orthomap into your current python environment:

$ pip install -e .

Testing orthomap

orthmap has an extensive test suite which is run each time a new contribution is made to the repository. To run the test suite locally run:

$ pytest tests

Contributing Code

If you would like to contribute to orthomap, please file an issue so that one can establish a statement of need, avoid redundant work, and track progress on your contribution.

Before you do a pull request, you should always file an issue and make sure that someone from the orthomap developer team agrees that it's a problem, and is happy with your basic proposal for fixing it.

Once an issue has been filed and we've identified how to best orient your contribution with package development as a whole, fork the main repo, branch off a feature branch from master, commit and push your changes to your fork and submit a pull request for orthomap:master.

By contributing to this project, you agree to abide by the Code of Conduct terms.

Bug reports

Please post troubles or questions on the GitHub repository issue tracker. Also, please look at the closed issue pages. This might give an answer to your question.

Inquiry for collabolation or discussion

Please send e-mail to us if you want a discussion with us.

Principal code developer: Kristian Ullrich

E-mail address can be found here.

Code of Conduct - Participation guidelines

This repository adheres to the Contributor Covenant code of conduct for in any interactions you have within this project. (see Code of Conduct)

See also the policy against sexualized discrimination, harassment and violence for the Max Planck Society Code-of-Conduct.

By contributing to this project, you agree to abide by its terms.

References

see references here

About

orthomap is a python package to extract orthologous maps (in other words the evolutionary age of a given orthologous group) from OrthoFinder/eggNOG results. Orthomap results (gene ages per orthogroup) can be further used to calculate weigthed expression data (transcriptome evolutionary index) from scRNA sequencing objects.

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