Seed2LP: seed inference in metabolic networks for reverse ecology applications - INRAE - Institut national de recherche pour l’agriculture, l’alimentation et l’environnement
Pré-Publication, Document De Travail Année : 2024

Seed2LP: seed inference in metabolic networks for reverse ecology applications

Résumé

A challenging problem in microbiology is to determine nutritional requirements of microorganisms and culture them, especially for the microbial dark matter detected solely with culture-independent methods. The latter foster an increasing amount of genomic sequences that can be explored with reverse ecology approaches to raise hypotheses on the corresponding populations. Building upon genome scale metabolic networks (GSMNs) obtained from genome annotations, metabolic models predict contextualised phenotypes using nutrient information. We developed the tool Seed2LP, addressing the inverse problem of predicting source nutrients, or seeds, from a GSMN and a metabolic objective. The originality of Seed2LP is its hybrid model, combining a scalable and discrete Boolean approximation of metabolic activity, with the numerically accurate flux balance analysis (FBA). Seed inference is highly customisable, with multiple search and solving modes, exploring the search space of external and internal metabolites combinations. Application to a benchmark of 107 curated GSMNs highlights the usefulness of a logic modelling method over a graph-based approach to predict seeds, and the relevance of hybrid solving to satisfy FBA constraints. Focusing on the dependency between metabolism and environment, Seed2LP is a computational support contributing to address the multifactorial challenge of culturing possibly uncultured microorganisms. Seed2LP is available on https://github.com/bioasp/seed2lp.

Dates et versions

hal-04713829 , version 1 (30-09-2024)

Identifiants

Citer

Chabname Ghassemi Nedjad, Mathieu Bolteau, Lucas Bourneuf, Loic Pauleve, Clémence Frioux. Seed2LP: seed inference in metabolic networks for reverse ecology applications. 2024. ⟨hal-04713829⟩
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