Revolutionizing Viral Resistance Strategies in Rice: Evolution from RNAi to Precision Genome Editing

Rice viruses are a major threat to global food security, causing significant yield losses in key rice growing regions. RNA interference (RNAi) has been crucial in engineering viral resistance in rice by silencing essential viral genes. However, the advent of genome editing, especially CRISPR/Cas, has transformed this field by allowing precise alterations of viral susceptibility genes, offering more durable and targeted resistance. This review examines the advances in RNAi strategies and the shift toward CRISPR/Cas technologies, highlighting how genome editing addresses RNAi's limitations, such as broader viral strain coverage and stronger resistance. These tools, integrated with advanced breeding methods, promise to develop rice varieties with durable, broad-spectrum virus resistance, contributing to sustainable rice production and food security.