Quantitative Prediction of Genome-wide Resource Allocation in Bacteria

Overview

Journal Metab Eng

Specialties Biomedical Engineering
Endocrinology

Date 2015 Oct 27

PMID 26498510

Citations 61

Authors

Anne Goelzer

Jan Muntel

Victor Chubukov

Matthieu Jules

Eric Prestel

Rolf Nolker

Mahendra Mariadassou

Stephane Aymerich

Michael Hecker

Philippe Noirot

Dorte Becher

Vincent Fromion

Affiliations

Soon will be listed here.

Abstract

Predicting resource allocation between cell processes is the primary step towards decoding the evolutionary constraints governing bacterial growth under various conditions. Quantitative prediction at genome-scale remains a computational challenge as current methods are limited by the tractability of the problem or by simplifying hypotheses. Here, we show that the constraint-based modeling method Resource Balance Analysis (RBA), calibrated using genome-wide absolute protein quantification data, accurately predicts resource allocation in the model bacterium Bacillus subtilis for a wide range of growth conditions. The regulation of most cellular processes is consistent with the objective of growth rate maximization except for a few suboptimal processes which likely integrate more complex objectives such as coping with stressful conditions and survival. As a proof of principle by using simulations, we illustrated how calibrated RBA could aid rational design of strains for maximizing protein production, offering new opportunities to investigate design principles in prokaryotes and to exploit them for biotechnological applications.

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