AI Article Synopsis
- The article discusses the evolution of plant immunity research, particularly how scientists first sought to understand the genetics behind disease resistance about 30 years ago, which led to the identification of various immune receptors.
- It emphasizes the study of the rice XA21 receptor, which detects a microbial peptide called RaxX, produced by a specific type of bacteria, showcasing its importance in triggering immune responses in plants.
- The discussion highlights the complexity of these immune receptors in plants, the potential biological significance of RaxX, and the crucial role of sulfotyrosine in the interactions between receptors and their ligands.
Article Abstract
In this article, we describe the development of the plant immunity field, starting with efforts to understand the genetic basis for disease resistance, which ∼30 y ago led to the discovery of diverse classes of immune receptors that recognize and respond to infectious microbes. We focus on knowledge gained from studies of the rice XA21 immune receptor that recognizes RaxX (required for activation of XA21 mediated immunity X), a sulfated microbial peptide secreted by the gram-negative bacterium pv. XA21 is representative of a large class of plant and animal immune receptors that recognize and respond to conserved microbial molecules. We highlight the complexity of this large class of receptors in plants, discuss a possible role for RaxX in biology, and draw attention to the important role of sulfotyrosine in mediating receptor-ligand interactions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8872720 | PMC |
| http://dx.doi.org/10.1073/pnas.2121568119 | DOI Listing |
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