Literature DB >> 31727786

AvrRpm1 Functions as an ADP-Ribosyl Transferase to Modify NOI Domain-Containing Proteins, Including Arabidopsis and Soybean RPM1-Interacting Protein4.

Thomas J Redditt1, Eui-Hwan Chung2, Hana Zand Karimi1, Natalie Rodibaugh1, Yixiang Zhang3, Jonathan C Trinidad3, Jin Hee Kim4, Qian Zhou4, Mingzhe Shen4, Jeffery L Dangl2,5, David Mackey4,6, Roger W Innes7.   

Abstract

The Pseudomonas syringae effector protein AvrRpm1 activates the Arabidopsis (Arabidopsis thaliana) intracellular innate immune receptor protein RESISTANCE TO PSEUDOMONAS MACULICOLA1 (RPM1) via modification of a second Arabidopsis protein, RPM1-INTERACTING PROTEIN4 (AtRIN4). Prior work has shown that AvrRpm1 induces phosphorylation of AtRIN4, but homology modeling indicated that AvrRpm1 may be an ADP-ribosyl transferase. Here, we show that AvrRpm1 induces ADP-ribosylation of RIN4 proteins from both Arabidopsis and soybean (Glycine max) within two highly conserved nitrate-induced (NOI) domains. It also ADP ribosylates at least 10 additional Arabidopsis NOI domain-containing proteins. The ADP-ribosylation activity of AvrRpm1 is required for subsequent phosphorylation on Thr-166 of AtRIN4, an event that is necessary and sufficient for RPM1 activation. We also show that the C-terminal NOI domain of AtRIN4 interacts with the exocyst subunits EXO70B1, EXO70E1, EXO70E2, and EXO70F1. Mutation of either EXO70B1 or EXO70E2 inhibited secretion of callose induced by the bacterial flagellin-derived peptide flg22. Substitution of RIN4 Thr-166 with Asp enhanced the association of AtRIN4 with EXO70E2, which we posit inhibits its callose deposition function. Collectively, these data indicate that AvrRpm1 ADP-ribosyl transferase activity contributes to virulence by promoting phosphorylation of RIN4 Thr-166, which inhibits the secretion of defense compounds by promoting the inhibitory association of RIN4 with EXO70 proteins.plantcell;31/11/2664/FX1F1fx1.
© 2019 American Society of Plant Biologists. All rights reserved.

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Year:  2019        PMID: 31727786      PMCID: PMC6881136          DOI: 10.1105/tpc.19.00020R2

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


  46 in total

1.  Crystal structures of the type III effector protein AvrPphF and its chaperone reveal residues required for plant pathogenesis.

Authors:  Alex U Singer; Darrell Desveaux; Laurie Betts; Jeff H Chang; Zachary Nimchuk; Sarah R Grant; Jeffery L Dangl; John Sondek
Journal:  Structure       Date:  2004-09       Impact factor: 5.006

2.  Optimization of LTQ-Orbitrap Mass Spectrometer Parameters for the Identification of ADP-Ribosylation Sites.

Authors:  Florian Rosenthal; Paolo Nanni; Simon Barkow-Oesterreicher; Michael O Hottiger
Journal:  J Proteome Res       Date:  2015-08-10       Impact factor: 4.466

3.  The type III effector repertoire of Pseudomonas syringae pv. syringae B728a and its role in survival and disease on host and non-host plants.

Authors:  Boris A Vinatzer; Gail M Teitzel; Min-Woo Lee; Joanna Jelenska; Sara Hotton; Keke Fairfax; Jenny Jenrette; Jean T Greenberg
Journal:  Mol Microbiol       Date:  2006-08-30       Impact factor: 3.501

4.  The Pseudomonas syringae effector AvrRpt2 cleaves its C-terminally acylated target, RIN4, from Arabidopsis membranes to block RPM1 activation.

Authors:  Han-Suk Kim; Darrell Desveaux; Alex U Singer; Priyesh Patel; John Sondek; Jeffery L Dangl
Journal:  Proc Natl Acad Sci U S A       Date:  2005-04-21       Impact factor: 11.205

5.  Two Pseudomonas syringae type III effectors inhibit RIN4-regulated basal defense in Arabidopsis.

Authors:  Min Gab Kim; Luis da Cunha; Aidan J McFall; Youssef Belkhadir; Sruti DebRoy; Jeffrey L Dangl; David Mackey
Journal:  Cell       Date:  2005-06-03       Impact factor: 41.582

6.  A glucocorticoid-mediated transcriptional induction system in transgenic plants.

Authors:  T Aoyama; N H Chua
Journal:  Plant J       Date:  1997-03       Impact factor: 6.417

Review 7.  Regulated Disorder: Posttranslational Modifications Control the RIN4 Plant Immune Signaling Hub.

Authors:  Tania Y Toruño; Mingzhe Shen; Gitta Coaker; David Mackey
Journal:  Mol Plant Microbe Interact       Date:  2018-11-12       Impact factor: 4.171

8.  Arabidopsis RIN4 is a target of the type III virulence effector AvrRpt2 and modulates RPS2-mediated resistance.

Authors:  David Mackey; Youssef Belkhadir; Jose M Alonso; Joseph R Ecker; Jeffery L Dangl
Journal:  Cell       Date:  2003-02-07       Impact factor: 41.582

9.  Interference between Two Specific Pathogen Recognition Events Mediated by Distinct Plant Disease Resistance Genes.

Authors:  C. Ritter; J. L. Dangl
Journal:  Plant Cell       Date:  1996-02       Impact factor: 11.277

10.  Evolutionary relationship of disease resistance genes in soybean and Arabidopsis specific for the Pseudomonas syringae effectors AvrB and AvrRpm1.

Authors:  Tom Ashfield; Thomas Redditt; Andrew Russell; Ryan Kessens; Natalie Rodibaugh; Lauren Galloway; Qing Kang; Ram Podicheti; Roger W Innes
Journal:  Plant Physiol       Date:  2014-07-17       Impact factor: 8.340
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  14 in total

1.  ADP Ribosylation: The Modification Causing a Disease Resistance Sensation.

Authors:  Jennifer Mach
Journal:  Plant Cell       Date:  2019-10-09       Impact factor: 11.277

2.  RIN4 homologs from important crop species differentially regulate the Arabidopsis NB-LRR immune receptor, RPS2.

Authors:  Maheen Alam; Jibran Tahir; Anam Siddiqui; Mazin Magzoub; Syed Shahzad-Ul-Hussan; David Mackey; A J Afzal
Journal:  Plant Cell Rep       Date:  2021-09-05       Impact factor: 4.570

3.  The host exocyst complex is targeted by a conserved bacterial type-III effector that promotes virulence.

Authors:  Vassiliki A Michalopoulou; Glykeria Mermigka; Konstantinos Kotsaridis; Andriani Mentzelopoulou; Patrick H N Celie; Panagiotis N Moschou; Jonathan D G Jones; Panagiotis F Sarris
Journal:  Plant Cell       Date:  2022-08-25       Impact factor: 12.085

4.  The Upregulated Expression of the Citrus RIN4 Gene in HLB Diseased Citrus Aids Candidatus Liberibacter Asiaticus Infection.

Authors:  Chunzhen Cheng; Yun Zhong; Bin Wang; Yongyan Zhang; Huan Wu; Nonghui Jiang; Bo Wu; Yuanda Lv; Bo Jiang
Journal:  Int J Mol Sci       Date:  2022-06-23       Impact factor: 6.208

5.  Noncanonical mono(ADP-ribosyl)ation of zinc finger SZF proteins counteracts ubiquitination for protein homeostasis in plant immunity.

Authors:  Liang Kong; Baomin Feng; Yan Yan; Chao Zhang; Jun Hyeok Kim; Lahong Xu; Johannes Gregor Matthias Rack; Ying Wang; Jyan-Chyun Jang; Ivan Ahel; Libo Shan; Ping He
Journal:  Mol Cell       Date:  2021-09-29       Impact factor: 19.328

6.  Pathogenic Bacteria Target Plant Plasmodesmata to Colonize and Invade Surrounding Tissues.

Authors:  Kyaw Aung; Panya Kim; Zhongpeng Li; Anna Joe; Brian Kvitko; James R Alfano; Sheng Yang He
Journal:  Plant Cell       Date:  2019-12-30       Impact factor: 11.277

7.  Exocyst subunit Exo70B2 is linked to immune signaling and autophagy.

Authors:  Carla Brillada; Ooi-Kock Teh; Franck Anicet Ditengou; Chil-Woo Lee; Till Klecker; Bushra Saeed; Giulia Furlan; Marco Zietz; Gerd Hause; Lennart Eschen-Lippold; Wolfgang Hoehenwarter; Justin Lee; Thomas Ott; Marco Trujillo
Journal:  Plant Cell       Date:  2021-04-17       Impact factor: 11.277

Review 8.  Functions of RPM1-interacting protein 4 in plant immunity.

Authors:  Guangdong Zhao; Dezheng Guo; Lijun Wang; Han Li; Chen Wang; Xingqi Guo
Journal:  Planta       Date:  2021-01-03       Impact factor: 4.116

Review 9.  Recent Advances in Effector-Triggered Immunity in Plants: New Pieces in the Puzzle Create a Different Paradigm.

Authors:  Quang-Minh Nguyen; Arya Bagus Boedi Iswanto; Geon Hui Son; Sang Hee Kim
Journal:  Int J Mol Sci       Date:  2021-04-29       Impact factor: 5.923

Review 10.  What the Wild Things Do: Mechanisms of Plant Host Manipulation by Bacterial Type III-Secreted Effector Proteins.

Authors:  Karl J Schreiber; Ilea J Chau-Ly; Jennifer D Lewis
Journal:  Microorganisms       Date:  2021-05-11
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