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A playbook for developing disease-resistant crops through immune receptor identification and transfer

Alex Schultink, Adam D. Steinbrenner

2021Current Opinion in Plant Biology21 citationsDOIOpen Access PDF

Abstract

Plants are resistant to most pathogens because of an immune system that perceives invading microbes and activates defense. A large repertoire of innate immune receptors mediates specific direct or indirect recognition of pathogen-derived molecules. Disease is often a consequence of insufficient immune surveillance, and the transfer of immune receptor genes from resistant plants to susceptible crop varieties is an effective strategy for combating disease outbreaks. We discuss approaches for identifying intracellular and cell surface immune receptors, with particular focus on recently developed and emerging methodologies. We also review considerations for the transfer of immune receptor genes into crop species, including additional host factors that may be required for immune receptor function. Together, these concepts lay out a broadly applicable playbook for developing crop varieties with durable disease resistance.

Topics & Concepts

BiologyImmune systemReceptorImmune receptorInnate immune systemPlant disease resistancePattern recognition receptorComputational biologyImmunologyGeneGeneticsPlant-Microbe Interactions and ImmunityTransgenic Plants and ApplicationsPlant Virus Research Studies
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