Genome Editing of Rice by CRISPR-Cas: End-to-End Pipeline for Crop Improvement

Abstract

CRISPR-Cas resonates a revolutionary genome editing technology applicable through a horizon spreading across microbial organism to higher plant and animal. This technology can be harnessed with ease to understand the basic genetics of a living system by altering sequence of individual genes and characterizing their functions. The precision of this technology is unparallel. It allows very precise and targeted base pair level edits in the genome. Here, in the current chapter, we have provided end-to-end process outline on how to generate genome edited plants in crops like rice to evaluate for agronomic traits associated with yield, disease resistance and abiotic stress tolerance, etc. Genome editing process includes designing of gene editing strategy, vector construction, plant transformation, molecular screening, and phenotyping under control environment conditions. Furthermore, its application for development of commercial crop product may require additional processes, including field trials in the target geography for evaluation of product efficacy. Evaluation of genome edited lines in controlled greenhouse/net house or open field condition requires few generations for outcrossing with wild-type parent to eliminate and/or reduce any potential pleiotropic effect in the edited genome which may arise during the process. The genome edited plant selected for advancement shall harbor the genome with only the intended changes, which can be analyzed by various molecular techniques, advanced sequencing methods, and genomic data analysis tools. CRISPR-Cas-based genome editing has opened a plethora of opportunities in agriculture as well as human health.

Keywords: Advanced breeding; CRISPR-Cas; Cas9-guide RNA; Crop improvement; Plant genome editing; Rice genome editing; Trait efficacy.