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Design of Four Small-Molecule-Inducible Systems in the Yeast Chromosome, Applied to Optimize Terpene Biosynthesis

Jong Hyun Park, Marcelo C. Bassalo, Geng-Min Lin, Ye Chen, Hamid Doosthosseini, Joep Schmitz, Johannes A. Roubos, Christopher A. Voigt

2023ACS Synthetic Biology24 citationsDOIOpen Access PDF

Abstract

that contains a "sensor array" containing bacterial regulators that respond to four small-molecule inducers (vanillic acid, xylose, aTc, IPTG). Four promoters can be independently controlled with low background and a 40- to 5000-fold dynamic range. These systems can be used to study the impact of changing the level and timing of gene expression without requiring the construction of multiple strains. We apply this approach to the optimization of a four-gene heterologous pathway to the terpene linalool, which is a flavor and precursor to energetic materials. Using this approach, we identify bottlenecks in the metabolic pathway. This work can aid the rapid automated strain development of yeasts for the bio-manufacturing of diverse products, including chemicals, materials, fuels, and food ingredients.

Topics & Concepts

Metabolic engineeringSynthetic biologySaccharomyces cerevisiaeTerpeneComputational biologyBiochemistryYeastXyloseBiologyGenePromoterChemistryGene expressionFermentationPlant biochemistry and biosynthesisMicrobial Metabolic Engineering and BioproductionMicrobial Natural Products and Biosynthesis
Design of Four Small-Molecule-Inducible Systems in the Yeast Chromosome, Applied to Optimize Terpene Biosynthesis | Litcius