CRISPR/Cas 9-Based Editing in the Production of Bioactive Molecules.

Abstract

Plants, fungi, and bacteria synthesize a wide range of secondary metabolites that exhibit diverse biological activities. These bioactives, due to their potential benefits in research and therapeutics, have gained immense industrial importance. There is a need to synthesize these bioactives at significantly higher concentrations using cost-effective measures to be economically viable. However, the broader study of industrially important secondary metabolites has been hindered, thus, far due to a shortage of reliable, comparatively easy, and highly effective gene manipulation techniques. With the advent of Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR/Cas), there is a revolution in the field of genetic engineering. CRISPR/Cas system, due to its simplicity and ease of use. This has widened its application in plant breeding, strain improvement, and engineering the metabolic pathways involved in the biochemical synthesis of industrially valuable bioactive. This review briefly introduces the CRISPR/Cas9 system and summarizes the applications of CRISPR/Cas9-mediated editing tools for the production of plant and fungal-derived bioactives.