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Literature DB >> 24744375

Structural basis for assembly and function of a heterodimeric plant immune receptor.

Simon J Williams¹, Kee Hoon Sohn, Li Wan, Maud Bernoux, Panagiotis F Sarris, Cecile Segonzac, Thomas Ve, Yan Ma, Simon B Saucet, Daniel J Ericsson, Lachlan W Casey, Thierry Lonhienne, Donald J Winzor, Xiaoxiao Zhang, Anne Coerdt, Jane E Parker, Peter N Dodds, Bostjan Kobe, Jonathan D G Jones.

Abstract

Cytoplasmic plant immune receptors recognize specific pathogen effector proteins and initiate effector-triggered immunity. In Arabidopsis, the immune receptors RPS4 and RRS1 are both required to activate defense to three different pathogens. We show that RPS4 and RRS1 physically associate. Crystal structures of the N-terminal Toll-interleukin-1 receptor/resistance (TIR) domains of RPS4 and RRS1, individually and as a heterodimeric complex (respectively at 2.05, 1.75, and 2.65 angstrom resolution), reveal a conserved TIR/TIR interaction interface. We show that TIR domain heterodimerization is required to form a functional RRS1/RPS4 effector recognition complex. The RPS4 TIR domain activates effector-independent defense, which is inhibited by the RRS1 TIR domain through the heterodimerization interface. Thus, RPS4 and RRS1 function as a receptor complex in which the two components play distinct roles in recognition and signaling.

Entities: Gene Species

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Year: 2014 PMID： 24744375 DOI： 10.1126/science.1247357

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

112 in total

Review 1. A curious case of resistance to a new encounter pathogen: myrtle rust in Australia.

Authors: Peri A Tobias; David I Guest; Carsten Külheim; Ji-Fan Hsieh; Robert F Park
Journal: Mol Plant Pathol Date: 2016-03-22 Impact factor: 5.663

2. Recognition of the Magnaporthe oryzae Effector AVR-Pia by the Decoy Domain of the Rice NLR Immune Receptor RGA5.

Authors: Diana Ortiz; Karine de Guillen; Stella Cesari; Véronique Chalvon; Jérome Gracy; André Padilla; Thomas Kroj
Journal: Plant Cell Date: 2017-01-13 Impact factor: 11.277

3. NLR Mutations Suppressing Immune Hybrid Incompatibility and Their Effects on Disease Resistance.

Authors: Kostadin E Atanasov; Changxin Liu; Alexander Erban; Joachim Kopka; Jane E Parker; Rubén Alcázar
Journal: Plant Physiol Date: 2018-05-23 Impact factor: 8.340

4. Fusion-protein-assisted protein crystallization.

Authors: Bostjan Kobe; Thomas Ve; Simon J Williams
Journal: Acta Crystallogr F Struct Biol Commun Date: 2015-06-27 Impact factor: 1.056

5. Large-scale identification and functional analysis of NLR genes in blast resistance in the Tetep rice genome sequence.

Authors: Long Wang; Lina Zhao; Xiaohui Zhang; Qijun Zhang; Yanxiao Jia; Guan Wang; Simin Li; Dacheng Tian; Wen-Hsiung Li; Sihai Yang
Journal: Proc Natl Acad Sci U S A Date: 2019-08-26 Impact factor: 11.205

Review 10. Plant STAND P-loop NTPases: a current perspective of genome distribution, evolution, and function : Plant STAND P-loop NTPases: genomic organization, evolution, and molecular mechanism models contribute broadly to plant pathogen defense.

Authors: Preeti Arya; Vishal Acharya
Journal: Mol Genet Genomics Date: 2017-09-12 Impact factor: 3.291

Structural basis for assembly and function of a heterodimeric plant immune receptor.

Review 1. A curious case of resistance to a new encounter pathogen: myrtle rust in Australia.

2. Recognition of the Magnaporthe oryzae Effector AVR-Pia by the Decoy Domain of the Rice NLR Immune Receptor RGA5.

3. NLR Mutations Suppressing Immune Hybrid Incompatibility and Their Effects on Disease Resistance.

4. Fusion-protein-assisted protein crystallization.

5. Large-scale identification and functional analysis of NLR genes in blast resistance in the Tetep rice genome sequence.

6. All in the Family: The First Whole-Genome Survey of NLR Genes.

Review 7. NOD-like receptor-mediated plant immunity: from structure to cell death.

8. NLR network mediates immunity to diverse plant pathogens.

9. Two-faced TIRs trip the immune switch.

Review 10. Plant STAND P-loop NTPases: a current perspective of genome distribution, evolution, and function : Plant STAND P-loop NTPases: genomic organization, evolution, and molecular mechanism models contribute broadly to plant pathogen defense.