Modeling for Understanding and Engineering Metabolism

Journal article, 2025

Metabolism is at the core of all functions of living cells as it provides Gibbs free energy and building blocks for synthesis of macromolecules, which are necessary for structures, growth and proliferation. Metabolism is a complex network composed of thousands of reactions catalyzed by enzymes involving many co-factors and metabolites. Traditionally it has been difficult to study metabolism as a whole network and most traditional efforts were therefore focused on specific metabolic pathways, enzymes and metabolites. By using engineering principles of mathematical modeling to analyze and study metabolism, as well as engineer it, i.e. design and build, new metabolic features, it is possible to gain many new fundamental insights as well as applications in biotechnology. Here we present the history and basic principles of engineering metabolism, as well as the newest developments in the field. We are using examples of applications in: 1) production of protein pharmaceuticals and chemicals; 2) basic studies of metabolism; and 3) impacting health care. We will end by discussing how engineering metabolism can benefit from advances in artificial intelligence (AI)- based models.