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Jupyter notebooks for DGE results and ontology analysis and visualisation.

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michalbukowski/dge-ontology

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dge-ontology

DGE-ontology is a repository that provides solutions dedicated to: (1) performing GSEA (gene set enrichment analysis/ontology analysis) on DGE (differential gene expression) or similar results; (2) visualisation of integrated GSEA and DGE results in one highly informative and visually appealing circular chart.

Citing the software

The software is featured in the following publication: Bukowski M and Wladyka B. (2024) DGE-ontology: A quick and simple gene set enrichment analysis and visualisation tool SoftwareX [awaiting publication]

Introduction

The software has been primarily designed for transcriptomics (for results obtained using Salmon1 and DESeq22). However it may be utilised for any data that express fold change of relative or absolute quantity measures of multiple entities (transcripts, proteins, metabolites, etc.).

The software may be used in two ways:

  • dgeontology library available from PyPI repository
  • DGE-ontology.ipynb stand-alone Jupyter notebook

The dgeontology library

The library is a good choice for those who expect to use the solution without playing with the code interactively. The library installation and usage is quite straightforward and described in details both on the library PyPI site (here) as well as in the dgeontology subdirectory of this repository, where the library source is contained.

The library documentation provides a basic example its usage. Nevertheless, you will find plenty of well-documented examples in Jupyter notebooks available in this repository (see the next chapter).

Jupyter notebooks

DGE-ontology.ipynb notebook contains the same code as the dgeontology library. It allows not only to use the code in an interactive way but also to directly modify and adapt it to the user's needs. Moreover, it provides a bit more user-friendly (a bit less technical) documentation for the code.

DGE-charts.ipynb is an accessory notebook that facilitates a general analysis of DGE results, such as: PCA (principal component analysis) of replicas based on TPM values (transcripts per million), and creating TPM vs. TPM and volcano plots.

The last two notebooks, dgeontology_basic_examples.ipynb and dgeontology_extra_examples.ipynb, provide examples of the dgeontology library usage that can be explored interactively. The latter one includes, among all, visualisations used in the original DGE-ontology publication in the SoftwareX (Elsevier) journal.

Each Jupyter notebook contains detailed step-by-step documentation and the methodology description as well as the complete test output. If rerun for the exemplary input, exactly the same results should be obtained. Selected visualisations are saved to the output directory as high-resolution PNG files.

The exemplary input contains metadata on Staphylococcus aureus RN4220 and USA300 FPR3757 transcriptomes and output from rnaseq-pipeline-2 executed for two pairs of strains: the wild type (wt51e) and ΔΔsaoBC mutant (mt51e) in the case of RN4220; and the wild type (wt) and ΔsaoC mutant (mt) in the case of USA300 FPR3757, sampled in the logarithmic growth phase (NCBI BioProject accession numbers PRJNA798259 and PRJNA1017382, respectively).

Running the Jupyter notebooks

The content of all Jupyter notebooks can be accessed directly in a web browser from this repository. However, in order to run the code Miniconda installation is required. The notebooks have been tested on Ubuntu 22.04 using conda package manager 24.7.1 and the following packages:

  • jupyterlab 4.2.5
  • scikit-learn 1.5.1
  • scipy 1.14.1
  • pandas 2.2.2
  • matplotlib 3.9.2 as well as pip package manager 24.2 and the package:
  • dgeontology 1.0.0

A ready-to-use conda environment might be created using envs/dge-ontology.yml:

conda env create --file envs/dge-ontology.yml

When successfully created, the environment may be activated as following:

conda activate dge-ontology

Once the evironment is active, browse and run all of the notebooks in Jupyter Lab:

jupyter lab

References

  1. R. Patro, G. Duggal, M.I. Love, R.A. Irizarry, C. Kingsford, Nat. Methods 14 (2017) 417–419.
  2. M.I. Love, W. Huber, S. Anders, Genome Biol. 15 (2014) 550.

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