A guide to metabolic flux analysis in metabolic engineering: Methods, tools and applications

Metab Eng. 2021 Jan:63:2-12. doi: 10.1016/j.ymben.2020.11.002. Epub 2020 Nov 4.

Abstract

The field of metabolic engineering is primarily concerned with improving the biological production of value-added chemicals, fuels and pharmaceuticals through the design, construction and optimization of metabolic pathways, redirection of intracellular fluxes, and refinement of cellular properties relevant for industrial bioprocess implementation. Metabolic network models and metabolic fluxes are central concepts in metabolic engineering, as was emphasized in the first paper published in this journal, "Metabolic fluxes and metabolic engineering" (Metabolic Engineering, 1: 1-11, 1999). In the past two decades, a wide range of computational, analytical and experimental approaches have been developed to interrogate the capabilities of biological systems through analysis of metabolic network models using techniques such as flux balance analysis (FBA), and quantify metabolic fluxes using constrained-based modeling approaches such as metabolic flux analysis (MFA) and more advanced experimental techniques based on the use of stable-isotope tracers, i.e. 13C-metabolic flux analysis (13C-MFA). In this review, we describe the basic principles of metabolic flux analysis, discuss current best practices in flux quantification, highlight potential pitfalls and alternative approaches in the application of these tools, and give a broad overview of pragmatic applications of flux analysis in metabolic engineering practice.

Keywords: Flux balance analysis; Metabolic flux analysis; Metabolic network model; Metabolism; Stable-isotope tracers; Systems biology.

Publication types

  • Research Support, U.S. Gov't, Non-P.H.S.
  • Review

MeSH terms

  • Carbon Isotopes
  • Metabolic Engineering*
  • Metabolic Flux Analysis*
  • Metabolic Networks and Pathways / genetics
  • Models, Biological

Substances

  • Carbon Isotopes