Basavantraya N Devanna, Priyanka Jain, Amolkumar U Solanke, Alok Das, Shallu Thakur, Pankaj K Singh, Mandeep Kumari, Himanshu Dubey, Rajdeep Jaswal, Deepak Pawar, Ritu Kapoor, Jyoti Singh, Kirti Arora, Banita Kumari Saklani, Chandrappa Anil Kumar, Sheshu Madhav Maganti, Humira Sonah, Rupesh Deshmukh, Rajeev Rathour, Tilak Raj Sharma

J. Fungi (Basel).; 2022 May 30;8(6):584. doi: 10.3390/jof8060584.

Abstract

Rice is a global food grain crop for more than one-third of the human population and a source for food and nutritional security. Rice production is subjected to various stresses; blast disease caused by Magnaporthe oryzae is one of the major biotic stresses that has the potential to destroy total crop under severe conditions. In the present review, we discuss the importance of rice and blast disease in the present and future global context, genomics and molecular biology of blast pathogen and rice, and the molecular interplay between rice-M. oryzae interaction governed by different gene interaction models. We also elaborated in detail on M. oryzae effector and Avr genes, and the role of noncoding RNAs in disease development. Further, rice blast resistance QTLs; resistance (R) genes; and alleles identified, cloned, and characterized are discussed. We also discuss the utilization of QTLs and R genes for blast resistance through conventional breeding and transgenic approaches. Finally, we review the demonstrated examples and potential applications of the latest genome-editing tools in understanding and managing blast disease in rice.

See https://pubmed.ncbi.nlm.nih.gov/35736067/

Figure 3. Schematic representation of the ‘Circular Model’ of plant–pathogen interaction. (This figure was originally drawn by Prof. Jonathan Jones, Sainsbury Lab, Norwich, UK, and it is being produced here with his permission).