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RNA-Based Vaccination of Plants for Control of Viruses

Plant viruses cause nearly half of the emerging plant diseases worldwide, contributing to 10-15% of crop yield losses. Control of plant viral diseases is mainly accomplished by extensive chemical applications targeting the vectors (i.e., insects, nematodes, fungi) transmitting these viruses. However...

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Published in:	Annual review of virology 2022-09, Vol.9 (1), p.521-548
Main Authors:	Voloudakis, Andreas E, Kaldis, Athanasios, Patil, Basavaprabhu L
Format:	Article
Language:	English
Subjects:	amiRNAs antiviral plant resistance dsRNA epigenetics RNAi siRNA tasiRNAs
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description	Plant viruses cause nearly half of the emerging plant diseases worldwide, contributing to 10-15% of crop yield losses. Control of plant viral diseases is mainly accomplished by extensive chemical applications targeting the vectors (i.e., insects, nematodes, fungi) transmitting these viruses. However, these chemicals have a significant negative effect on human health and the environment. RNA interference is an endogenous, cellular, sequence-specific RNA degradation mechanism in eukaryotes induced by double-stranded RNA molecules that has been exploited as an antiviral strategy through transgenesis. Because genetically modified crop plants are not accepted for cultivation in several countries globally, there is an urgent demand for alternative strategies. This has boosted research on exogenous application of the RNA-based biopesticides that are shown to exhibit significant protective effect against viral infections. Such environment-friendly and efficacious antiviral agents for crop protection will contribute to global food security, without adverse effects on human health.
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subjects	amiRNAs antiviral plant resistance dsRNA epigenetics RNAi siRNA tasiRNAs
title	RNA-Based Vaccination of Plants for Control of Viruses
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