1. CRISPR technology to combat plant RNA viruses: A theoretical model for Potato virus Y (PVY) resistance.
- Author
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Hameed A, Shan-E-Ali Zaidi S, Sattar MN, Iqbal Z, and Tahir MN
- Subjects
- Clustered Regularly Interspaced Short Palindromic Repeats, Crops, Agricultural, Gene Editing methods, Gene Targeting, Genes, Plant genetics, Genome, Viral, Models, Theoretical, Plant Diseases prevention & control, Plant Diseases virology, Plant Viruses immunology, Plant Viruses pathogenicity, Plants genetics, Plants, Genetically Modified immunology, Plants, Genetically Modified virology, Potyvirus pathogenicity, RNA Viruses immunology, Ribonucleases genetics, CRISPR-Cas Systems, Disease Resistance genetics, Plant Diseases genetics, Plant Viruses genetics, Potyvirus genetics, RNA Viruses genetics
- Abstract
RNA viruses are the most diverse phytopathogens which cause severe epidemics in important agricultural crops and threaten the global food security. Being obligatory intracellular pathogens, these viruses have developed fine-tuned evading mechanisms and are non-responsive to most of the prophylactic treatments. Additionally, their sprint ability to overcome host defense demands a broad-spectrum and durable mechanism of resistance. In context of CRISPR-Cas discoveries, some variants of Cas effectors have been characterized as programmable RNA-guided RNases in the microbial genomes and could be reprogramed in mammalian and plant cells with guided RNase activity. Recently, the RNA variants of CRISPR-Cas systems have been successfully employed in plants to engineer resistance against RNA viruses. Some variants of CRISPR-Cas9 have been tamed either for directly targeting plant RNA viruses' genome or through targeting the host genes/factors assisting in viral proliferation. The new frontiers in CRISPR-Cas discoveries, and more importantly shifting towards RNA targeting will pyramid the opportunities in plant virus research. The current review highlights the probable implications of CRISPR-Cas system to confer the pathogen-derived or host-mediated resistance against phytopathogenic RNA viruses. Furthermore, a multiplexed CRISPR-Cas13a methodology is proposed here to combat Potato virus Y (PVY); a globally diverse phytopathogen infecting multiple crops., (Copyright © 2019 Elsevier Ltd. All rights reserved.)
- Published
- 2019
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