Literature DB >> 17028203

The tomato NBARC-LRR protein Prf interacts with Pto kinase in vivo to regulate specific plant immunity.

Tatiana S Mucyn1, Alfonso Clemente, Vasilios M E Andriotis, Alexi L Balmuth, Giles E D Oldroyd, Brian J Staskawicz, John P Rathjen.   

Abstract

Immunity in tomato (Solanum lycopersicum) to Pseudomonas syringae bacteria expressing the effector proteins AvrPto and AvrPtoB requires both Pto kinase and the NBARC-LRR (for nucleotide binding domain shared by Apaf-1, certain R gene products, and CED-4 fused to C-terminal leucine-rich repeats) protein Prf. Pto plays a direct role in effector recognition within the host cytoplasm, but the role of Prf is unknown. We show that Pto and Prf are coincident in the signal transduction pathway that controls ligand-independent signaling. Pto and Prf associate in a coregulatory interaction that requires Pto kinase activity and N-myristoylation for signaling. Pto interacts with a unique Prf N-terminal domain outside of the NBARC-LRR domain and resides in a high molecular weight recognition complex dependent on the presence of Prf. In this complex, both Pto and Prf contribute to specific recognition of AvrPtoB. The data suggest that the role of Pto is confined to the regulation of Prf and that the bacterial effectors have evolved to target this coregulatory molecular switch.

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Year:  2006        PMID: 17028203      PMCID: PMC1626632          DOI: 10.1105/tpc.106.044016

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  47 in total

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4.  Comprehensive transcript profiling of Pto- and Prf-mediated host defense responses to infection by Pseudomonas syringae pv. tomato.

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5.  RIN4 interacts with Pseudomonas syringae type III effector molecules and is required for RPM1-mediated resistance in Arabidopsis.

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Journal:  Cell       Date:  2002-03-22       Impact factor: 41.582

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8.  The tomato gene Pti1 encodes a serine/threonine kinase that is phosphorylated by Pto and is involved in the hypersensitive response.

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Journal:  Cell       Date:  1995-12-15       Impact factor: 41.582

9.  Patterns of positive selection in the complete NBS-LRR gene family of Arabidopsis thaliana.

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Journal:  Genome Res       Date:  2002-09       Impact factor: 9.043

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  91 in total

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Review 2.  The ubiquitin/26S proteasome system in plant-pathogen interactions: a never-ending hide-and-seek game.

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Review 3.  Plant immunity: towards an integrated view of plant-pathogen interactions.

Authors:  Peter N Dodds; John P Rathjen
Journal:  Nat Rev Genet       Date:  2010-06-29       Impact factor: 53.242

4.  Endosome-associated CRT1 functions early in resistance gene-mediated defense signaling in Arabidopsis and tobacco.

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Journal:  Plant Cell       Date:  2010-03-23       Impact factor: 11.277

Review 5.  Plant NBS-LRR proteins in pathogen sensing and host defense.

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Journal:  Nat Immunol       Date:  2006-12       Impact factor: 25.606

6.  Indirect activation of a plant nucleotide binding site-leucine-rich repeat protein by a bacterial protease.

Authors:  Jules Ade; Brody J DeYoung; Catherine Golstein; Roger W Innes
Journal:  Proc Natl Acad Sci U S A       Date:  2007-02-02       Impact factor: 11.205

7.  Pseudomonas syringae type III effector AvrPtoB is phosphorylated in plant cells on serine 258, promoting its virulence activity.

Authors:  Fangming Xiao; Patrick Giavalisco; Gregory B Martin
Journal:  J Biol Chem       Date:  2007-08-20       Impact factor: 5.157

8.  Divergent evolution of potato immune receptor CC domain interactions with the Ran GTPase-activating protein 2.

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Journal:  Plant Signal Behav       Date:  2014

9.  Nonhost resistance of tomato to the bean pathogen Pseudomonas syringae pv. syringae B728a is due to a defective E3 ubiquitin ligase domain in avrptobb728a.

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Journal:  Mol Plant Microbe Interact       Date:  2013-04       Impact factor: 4.171

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.

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