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Tools and targets: The dual role of plant viruses in CRISPR–Cas genome editing

Mireia Uranga, José‐Antonio Daròs

2022The Plant Genome65 citationsDOIOpen Access PDF

Abstract

The recent emergence of tools based on the clustered, regularly interspaced, short palindromic repeats (CRISPR) and CRISPR-associated (Cas) proteins have revolutionized targeted genome editing, thus holding great promise to both basic plant science and precision crop breeding. Conventional approaches for the delivery of editing components rely on transformation technologies or transient delivery to protoplasts, both of which are time-consuming, laborious, and can raise legal concerns. Alternatively, plant RNA viruses can be used as transient delivery vectors of CRISPR-Cas reaction components, following the so-called virus-induced genome editing (VIGE). During the last years, researchers have been able to engineer viral vectors for the delivery of CRISPR guide RNAs and Cas nucleases. Considering that each viral vector is limited to its molecular biology properties and a specific host range, here we review recent advances for improving the VIGE toolbox with a special focus on strategies to achieve tissue-culture-free editing in plants. We also explore the utility of CRISPR-Cas technology to enhance biotic resistance with a special focus on plant virus diseases. This can be achieved by either targeting the viral genome or modifying essential host susceptibility genes that mediate in the infection process. Finally, we discuss the challenges and potential that VIGE holds in future breeding technologies.

Topics & Concepts

CRISPRGenome editingBiologyComputational biologyGenomeTrans-activating crRNAToolboxCas9Plant virusGeneticsGeneVirusComputer scienceProgramming languageCRISPR and Genetic EngineeringPlant Virus Research StudiesInsect symbiosis and bacterial influences
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