Extreme pathway analysis reveals the organizing rules of metabolic regulation.

Extreme pathway analysis reveals the organizing rules of metabolic regulation.

Blog Article

Cellular systems shift metabolic states by adjusting gene expression and enzyme activities to adapt to physiological and environmental changes.Biochemical and genetic studies are identifying how metabolic regulation affects the selection of metabolic phenotypes.However, how metabolism influences its Pouches regulatory architecture still remains unexplored.We present a new method of extreme pathway analysis (the minimal set of conically independent metabolic pathways) to deduce regulatory structures from pure pathway information.

Applying our method to metabolic networks of human red blood cells and Escherichia coli, we shed light on how metabolic regulation are organized by showing which reactions within Crop Tee metabolic networks are more prone to transcriptional or allosteric regulation.Applied to a human genome-scale metabolic system, our method detects disease-associated reactions.Thus, our study deepens the understanding of the organizing principle of cellular metabolic regulation and may contribute to metabolic engineering, synthetic biology, and disease treatment.