Efficient enzyme coupling algorithms identify functional pathways in genome-scale metabolic models

Abstract: Flux coupling identifies sets of reactions whose fluxes are "coupled" or correlated in genome-scale models. By identified sets of coupled reactions, modelers can 1.) reduce the dimensionality of genome-scale models, 2.) identify reactions that must be modulated together during metabolic engineering, and 3.) identify sets of important enzymes using high-throughput data. We present three computational tools to improve the efficiency, applicability, and biological interpretability of flux coupling analysis.The fi… Show more

“…Two metabolic reactions are coupled if a nonzero flux through one reaction implies a nonzero flux through the other. Flux covariance follows from flux coupling (Heinonen et al , 2019 ; preprint: Pradhan et al , 2019 ; Thommes et al , 2019 ). Importantly for modeling evolutionary adaptation, flux coupling implies genetic dependences between the corresponding enzyme‐coding genes (Notebaart et al , 2008 ).…”

Predictive evolution of metabolic phenotypes using model‐designed environments

“…Two metabolic reactions are coupled if a nonzero flux through one reaction implies a nonzero flux through the other. Flux covariance follows from flux coupling (Heinonen et al , 2019 ; preprint: Pradhan et al , 2019 ; Thommes et al , 2019 ). Importantly for modeling evolutionary adaptation, flux coupling implies genetic dependences between the corresponding enzyme‐coding genes (Notebaart et al , 2008 ).…”

Predictive evolution of metabolic phenotypes using model‐designed environments