From systems biology to metabolically engineered cells-an omics perspective on the development of industrial microbes.

From systems biology to metabolically engineered cells-an omics perspective on the development of industrial microbes. Curr Opin Microbiol. 2018 Aug 29;45:180-188 Authors: Becker J, Wittmann C Abstract Green routes are indispensable for a sustainable production of energy, chemicals and materials, and health and nutrition products from renewable resources. Naturally, microbes are capable to conduct many of the desired biochemical conversions involved, however, only at rather low efficiency. It is therefore essential to metabolically engineer them towards efficient cell factories, which enable a high product titer, yield and productivity, exhibit a good process robustness and a broad substrate spectrum, and are safe to be used, to name a few prominent points from the wish list for industrial bio-production. Such optimization of a microbial cell typically involves the implementation of several up to multiple traits into its genome, which then mediate the desired phenotype. While the genetic modification step itself is straightforward due to the much advanced genome editing methods, the selection of what exactly has to be optimized out of the manifold possibilities is still a challenge. Here we will discuss, how systems biology can offer guidance to orchestrate the hundreds to thousands of biochemical conversions of a microbe into a concert of desired performance. To this end, we will highlight recent success stories, where systems biolo...
Source: Current Opinion in Microbiology - Category: Microbiology Authors: Tags: Curr Opin Microbiol Source Type: research