Issue 4, 2024

Genome-scale metabolic models in translational medicine: the current status and potential of machine learning in improving the effectiveness of the models

Abstract

The genome-scale metabolic model (GEM) has emerged as one of the leading modeling approaches for systems-level metabolic studies and has been widely explored for a broad range of organisms and applications. Owing to the development of genome sequencing technologies and available biochemical data, it is possible to reconstruct GEMs for model and non-model microorganisms as well as for multicellular organisms such as humans and animal models. GEMs will evolve in parallel with the availability of biological data, new mathematical modeling techniques and the development of automated GEM reconstruction tools. The use of high-quality, context-specific GEMs, a subset of the original GEM in which inactive reactions are removed while maintaining metabolic functions in the extracted model, for model organisms along with machine learning (ML) techniques could increase their applications and effectiveness in translational research in the near future. Here, we briefly review the current state of GEMs, discuss the potential contributions of ML approaches for more efficient and frequent application of these models in translational research, and explore the extension of GEMs to integrative cellular models.

Graphical abstract: Genome-scale metabolic models in translational medicine: the current status and potential of machine learning in improving the effectiveness of the models

Article information

Article type
Review Article
Submitted
28 Jul 2023
Accepted
18 Feb 2024
First published
20 Feb 2024

Mol. Omics, 2024,20, 234-247

Genome-scale metabolic models in translational medicine: the current status and potential of machine learning in improving the effectiveness of the models

B. Turanli, G. Gulfidan, O. O. Aydogan, C. Kula, G. Selvaraj and K. Y. Arga, Mol. Omics, 2024, 20, 234 DOI: 10.1039/D3MO00152K

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