Genome Editing for the Production of Natural Products in Escherichia coli

Abstract Natural products such as secondary metabolites (e.g., plant terpenoids) are found to be a major source of bioactive compounds. These natural products accumulate as complex mixtures with other related compounds and this chemical complexity adds cost to the downstream recovery and purification of natural products from plant biomass. One aim of synthetic biology and metabolic engineering programmes is to produce such compounds from synthetic gene clusters in heterologous hosts and thereby achieve more targeted and affordable production. Both fungi and bacteria are common hosts for metabolic engineering in industry. Fungal hosts include Penicillium chrysogenum, Saccharomyces cerevisiae, Aspergillus niger and the bacterial hosts Escherichia coli, Bacillus subtilis, Corynebacterium glutamicum . E. coli is often selected as a host given the ease of its genetic manipulation and the long history of using this organism in laboratory‐based bioengineering. The bioengineering of E. coli extends also to feedstock pathways to interface and optimize the production of high value compounds from widely available and inexpensive carbon sources. Genome editing is important in these microbial bioengineering programmes and is needed to isolate stable strains and to optimize production. Herein, this review discusses frequently used methods for genome editing in E. coli in relation to the production of natural compounds and chemicals.