Litcius/Paper detail

Improving the Robustness of Engineered Bacteria to Nutrient Stress Using Programmed Proteolysis

Klara Szydlo, Zoya Ignatova, Thomas E. Gorochowski

2022ACS Synthetic Biology23 citationsDOIOpen Access PDF

Abstract

. We characterize the performance and burden of each and show that, while both greatly shorten the half-life of a tagged protein, the endogenous system is approximately 10 times more efficient. On the basis of these results we then demonstrate using mathematical modeling and experiments how proteolysis can improve cellular robustness through targeted degradation of a reporter protein in auxotrophic strains, providing a limited secondary source of essential amino acids that help partially restore growth when nutrients become scarce. These findings provide avenues for controlling the functional lifetime of engineered cells once deployed and increasing their tolerance to fluctuations in nutrient availability.

Topics & Concepts

ProteolysisSynthetic biologyEscherichia coliRobustness (evolution)BiologyProtein biosynthesisComputational biologyAmino acidProtein engineeringProtein degradationRibosomeBiochemistryBacteriaGeneRNAEnzymeGeneticsBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsCRISPR and Genetic Engineering