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Regulatory Part Engineering for High-Yield Protein Synthesis in an All-<i>Streptomyces</i>-Based Cell-Free Expression System

Hui-Ling Xu, Yang Chen, Xintong Tian, Yilin Chen, Wan‐Qiu Liu, Jian Li

2022ACS Synthetic Biology25 citationsDOI

Abstract

Streptomyces-based cell-free expression systems have been developed to meet the demand for synthetic biology applications. However, protein yields from the previous Streptomyces systems are relatively low, and there is a serious limitation of available genetic tools such as plasmids for gene (co)expression. Here, we sought to expand the plasmid toolkit with a focus on the enhancement of protein production. By screening native promoters and ribosome binding sites, we were able to construct a panel of plasmids with different abilities for protein synthesis, which covered a nearly 3-fold range of protein yields. Using the most efficient plasmid, the protein yield reached up to a maximum value of 515.7 ± 25.3 μg/mL. With the plasmid toolkit, we anticipate that our Streptomyces cell-free system will offer great opportunities for cell-free synthetic biology applications such as in vitro biosynthesis of valuable natural products when cell-based systems remain difficult or not amenable.

Topics & Concepts

PlasmidSynthetic biologyStreptomycesCell-free protein synthesisBiologyProtein biosynthesisComputational biologyGeneMetabolic engineeringProtein expressionProtein engineeringCell-free systemBacterial proteinBiotechnologyGeneticsBiochemistryIn vitroBacteriaEnzymeRNA and protein synthesis mechanismsChemical Synthesis and AnalysisMicrobial Natural Products and Biosynthesis
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