Cell-free gene expression

Cell-free gene expression (CFE) emerged as an alternative approach to living cells for specific applications in protein synthesis and labelling for structural biology and proteomics studies. CFE has since been repurposed as a versatile technology for synthetic biology and bioengineering. However, taking full advantage of this technology requires in-depth understanding of its fundamental workflow beyond existing protocols. This Primer provides new practitioners with a comprehensive, detailed and actionable guide to best practices in CFE, to inform research in the laboratory at the state of the art. We focus on Escherichia coli-based CFE systems, which remain the primary platform for efficient CFE. Producing proteins, biomanufacturing therapeutics, developing sensors and prototyping genetic circuits illustrate the broader utility and opportunities provided by this practical introduction to CFE. With its extensive functionality and portability, CFE is becoming a powerful and enabling research tool for biotechnology. Cell-free gene expression is useful for expressing proteins with post-translational modifications, with special folding requirements and whose expression is difficult in prokaryotic systems. Garenne et al. outline the best practices for the expression of proteins in a cell-free environment.