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  • Ade J, DeYoung BJ, Golstein C, Innes RW. 2007. Indirect activation of a plant nucleotide binding site-leucine-rich repeat protein by a bacterial protease. Proceedings of the National Academy of Sciences, USA 104: 25312536.
  • Bai S, Liu J, Chang C, Zhang L, Maekawa T, Wang Q, Xiao W, Liu Y, Chai J, Takken FL et al. 2012. Structure-function analysis of barley NLR immune receptor MLA10 reveals its cell compartment specific activity in cell death and disease resistance. PLoS Pathogens 8: e1002752.
  • Beck M, Zhou J, Faulkner C, MacLean D, Robatzek S. 2012. Spatio-temporal cellular dynamics of the Arabidopsis flagellin receptor reveal activation status-dependent endosomal sorting. Plant Cell 24: 42054219.
  • Bernoux M, Ve T, Williams S, Warren C, Hatters D, Valkov E, Zhang X, Ellis JG, Kobe B, Dodds PN. 2011. Structural and functional analysis of a plant resistance protein TIR domain reveals interfaces for self-association, signaling, and autoregulation. Cell Host & Microbe 9: 200211.
  • Bhattacharjee S, Halane MK, Kim SH, Gassmann W. 2011. Pathogen effectors target Arabidopsis EDS1 and alter its interactions with immune regulators. Science 334: 14051408.
  • Bonardi V, Tang S, Stallmann A, Roberts M, Cherkis K, Dangl JL. 2011. Expanded functions for a family of plant intracellular immune receptors beyond specific recognition of pathogen effectors. Proceedings of the National Academy of Sciences, USA 108: 16 46316 468.
  • Botella MA, Coleman MJ, Hughes DE, Nishimura MT, Jones JD, Somerville SC. 1997. Map positions of 47 Arabidopsis sequences with sequence similarity to disease resistance genes. Plant Journal 12: 11971211.
  • Boudsocq M, Willmann MR, McCormack M, Lee H, Shan L, He P, Bush J, Cheng SH, Sheen J. 2010. Differential innate immune signalling via Ca2+ sensor protein kinases. Nature 464: 418422.
  • Boyes DC, Nam J, Dangl JL. 1998. The Arabidopsis thaliana RPM1 disease resistance gene product is a peripheral plasma membrane protein that is degraded coincident with the hypersensitive response. Proceedings of the National Academy of Sciences, USA 95: 15 84915 854.
  • Century KS, Shapiro AD, Repetti PP, Dahlbeck D, Holub E, Staskawicz BJ. 1997. NDR1, a pathogen-induced component required for Arabidopsis disease resistance. Science 278: 19631965.
  • Chanda B, Xia Y, Mandal MK, Yu K, Sekine KT, Gao QM, Selote D, Hu Y, Stromberg A, Navarre D et al. 2011. Glycerol-3-phosphate is a critical mobile inducer of systemic immunity in plants. Nature Genetics 43: 421427.
  • Cui H, Xiang T, Zhou JM. 2009. Plant immunity: a lesson from pathogenic bacterial effector proteins. Cellular Microbiology 11: 14531461.
  • Danna CH, Millet YA, Koller T, Han SW, Bent AF, Ronald PC, Ausubel FM. 2011. The Arabidopsis flagellin receptor FLS2 mediates the perception of Xanthomonas Ax21 secreted peptides. Proceedings of the National Academy of Sciences, USA 108: 92869291.
  • Deslandes L, Olivier J, Peeters N, Feng DX, Khounlotham M, Boucher C, Somssich I, Genin S, Marco Y. 2003. Physical interaction between RRS1-R, a protein conferring resistance to bacterial wilt, and PopP2, a type III effector targeted to the plant nucleus. Proceedings of the National Academy of Sciences, USA 100: 80248029.
  • Elmore JM, Lin ZJ, Coaker G. 2011. Plant NB-LRR signaling: upstreams and downstreams. Current Opinion in Plant Biology 14: 365371.
  • Fu ZQ, Yan S, Saleh A, Wang W, Ruble J, Oka N, Mohan R, Spoel SH, Tada Y, Zheng N et al. 2012. NPR3 and NPR4 are receptors for the immune signal salicylic acid in plants. Nature 486: 228232.
  • Gao Z, Chung EH, Eitas TK, Dangl JL. 2011. Plant intracellular innate immune receptor resistance to Pseudomonas syringae pv. maculicola 1 (RPM1) is activated at, and functions on, the plasma membrane. Proceedings of the National Academy of Sciences, USA 108: 76197624.
  • Gomez-Gomez L, Boller T. 2000. FLS2: an LRR receptor-like kinase involved in the perception of the bacterial elicitor flagellin in Arabidopsis. Molecular Cell 5: 10031011.
  • Grant MR, Godiard L, Straube E, Ashfield T, Lewald J, Sattler A, Innes RW, Dangl JL. 1995. Structure of the Arabidopsis RPM1 gene enabling dual specificity disease resistance. Science 269: 843846.
  • Heidrich K, Wirthmueller L, Tasset C, Pouzet C, Deslandes L, Parker JE. 2011. Arabidopsis EDS1 connects pathogen effector recognition to cell compartment-specific immune responses. Science 334: 14011404.
  • Jones DA, Jones JDG. 1997. The role of leucine-rich repeat proteins in plant defences. Advances in Botanical Research 24: 89167.
  • Kirik A, Mudgett MB. 2009. SOBER1 phospholipase activity suppresses phosphatidic acid accumulation and plant immunity in response to bacterial effector AvrBsT. Proceedings of the National Academy of Sciences, USA 106: 20 53220 537.
  • Lee H, Chah OK, Sheen J. 2011. Stem-cell-triggered immunity through CLV3p-FLS2 signalling. Nature 473: 376379.
  • Leipe DD, Koonin EV, Aravind L. 2004. STAND, a class of P-loop NTPases including animal and plant regulators of programmed cell death: multiple, complex domain architectures, unusual phyletic patterns, and evolution by horizontal gene transfer. Journal of Molecular Biology 343: 128.
  • Lu D, Lin W, Gao X, Wu S, Cheng C, Avila J, Heese A, Devarenne TP, He P, Shan L. 2011. Direct ubiquitination of pattern recognition receptor FLS2 attenuates plant innate immunity. Science 332: 14391442.
  • Lu D, Wu S, Gao X, Zhang Y, Shan L, He P. 2010. A receptor-like cytoplasmic kinase, BIK1, associates with a flagellin receptor complex to initiate plant innate immunity. Proceedings of the National Academy of Sciences, USA 107: 496501.
  • Luna E, Bruce TJ, Roberts MR, Flors V, Ton J. 2012. Next-generation systemic acquired resistance. Plant Physiology 158: 844853.
  • Maekawa T, Cheng W, Spiridon LN, Toller A, Lukasik E, Saijo Y, Liu P, Shen QH, Micluta MA, Somssich IE et al. 2011. Coiled-coil domain-dependent homodimerization of intracellular barley immune receptors defines a minimal functional module for triggering cell death. Cell Host & Microbe 9: 187199.
  • Mestre P, Baulcombe DC. 2006. Elicitor-mediated oligomerization of the tobacco N disease resistance protein. Plant Cell 18: 491501.
  • Meyers BC, Kozik A, Griego A, Kuang H, Michelmore RW. 2003. Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. Plant Cell 15: 809834.
  • Molinier J, Ries G, Zipfel C, Hohn B. 2006. Transgeneration memory of stress in plants. Nature 442: 10461049.
  • Mueller K, Chinchilla D, Albert M, Jehle AK, Kalbacher H, Boller T, Felix G. 2012. Contamination risks in work with synthetic peptides: flg22 as an example of a pirate in commercial peptide preparations. The Plant Cell 24: 31933197.
  • Narusaka M, Shirasu K, Noutoshi Y, Kubo Y, Shiraishi T, Iwabuchi M, Narusaka Y. 2009. RRS1 and RPS4 provide a dual resistance-gene system against fungal and bacterial pathogens. Plant Journal 60: 218226.
  • Návarová H, Bernsdorff F, Döring A-C, Zeier J. 2012. Pipecolic acid, an endogenous mediator of defense amplification and priming, is a critical regulator of inducible plant immunity. The Plant Cell 24: 51235141.
  • Navarro L, Zipfel C, Rowland O, Keller I, Robatzek S, Boller T, Jones JD. 2004. The transcriptional innate immune response to flg22. Interplay and overlap with Avr gene-dependent defense responses and bacterial pathogenesis. Plant Physiology 135: 11131128.
  • Parker JE, Holub EB, Frost LN, Falk A, Gunn ND, Daniels MJ. 1996. Characterization of eds1, a mutation in Arabidopsis suppressing resistance to Peronospora parasitica specified by several different RPP genes. The Plant Cell 8: 20332046.
  • Robatzek S, Chinchilla D, Boller T. 2006. Ligand-induced endocytosis of the pattern recognition receptor FLS2 in Arabidopsis. Genes & Development 20: 537542.
  • Romer P, Hahn S, Jordan T, Strauss T, Bonas U, Lahaye T. 2007. Plant pathogen recognition mediated by promoter activation of the pepper Bs3 resistance gene. Science 318: 645648.
  • Roux M, Schwessinger B, Albrecht C, Chinchilla D, Jones A, Holton N, Malinovsky FG, Tör M, de Vries S, Zipfel C. 2011. The Arabidopsis leucine-rich repeat receptor–like kinases BAK1/SERK3 and BKK1/SERK4 are required for innate immunity to hemibiotrophic and biotrophic pathogens. The Plant Cell 23: 24402455.
  • Salmeron JM, Oldroyd GE, Rommens CM, Scofield SR, Kim HS, Lavelle DT, Dahlbeck D, Staskawicz BJ. 1996. Tomato Prf is a member of the leucine-rich repeat class of plant disease resistance genes and lies embedded within the Pto kinase gene cluster. Cell 86: 123133.
  • Segonzac C, Feike D, Gimenez-Ibanez S, Hann DR, Zipfel C, Rathjen JP. 2011. Hierarchy and roles of pathogen-associated molecular pattern-induced responses in Nicotiana benthamiana. Plant Physiology 156: 687699.
  • Segonzac C, Nimchuk ZL, Beck M, Tarr PT, Robatzek S, Meyerowitz EM, Zipfel C. 2012. The shoot apical meristem regulatory peptide CLV3 does not activate innate immunity. The Plant Cell 24: 31863192.
  • Segonzac C, Zipfel C. 2011. Activation of plant pattern-recognition receptors by bacteria. Current Opinion in Microbiology 14: 5461.
  • Shen Q-H, Saijo Y, Mauch S, Biskup C, Bieri S, Keller B, Seki H, Ülker B, Somssich IE, Schulze-Lefert P. 2007. Nuclear activity of MLA immune receptors links isolate-specific and basal disease-resistance responses. Science 315: 10981103.
  • Slaughter A, Daniel X, Flors V, Luna E, Hohn B, Mauch-Mani B. 2012. Descendants of primed Arabidopsis plants exhibit resistance to biotic stress. Plant Physiology 158: 835843.
  • Slootweg E, Roosien J, Spiridon LN, Petrescu AJ, Tameling W, Joosten M, Pomp R, van Schaik C, Dees R, Borst JW et al. 2010. Nucleocytoplasmic distribution is required for activation of resistance by the potato NB-LRR receptor Rx1 and is balanced by its functional domains. Plant Cell 22: 41954215.
  • Spoel SH, Dong X. 2012. How do plants achieve immunity? Defence without specialized immune cells. Nature Reviews Immunology 12: 89100.
  • Spoel SH, Mou Z, Tada Y, Spivey NW, Genschik P, Dong X. 2009. Proteasome-mediated turnover of the transcription coactivator NPR1 plays dual roles in regulating plant immunity. Cell 137: 860872.
  • Takken FL, Albrecht M, Tameling WI. 2006. Resistance proteins: molecular switches of plant defence. Current Opinion in Plant Biology 9: 383390.
  • Takken FL, Goverse A. 2012. How to build a pathogen detector: structural basis of NB-LRR function. Current Opinion in Plant Biology 15: 375384.
  • Tameling WI, Elzinga SD, Darmin PS, Vossen JH, Takken FL, Haring MA, Cornelissen BJ. 2002. The tomato R gene products I-2 and MI-1 are functional ATP binding proteins with ATPase activity. Plant Cell 14: 29292939.
  • Tameling WI, Nooijen C, Ludwig N, Boter M, Slootweg E, Goverse A, Shirasu K, Joosten MH. 2010. RanGAP2 mediates nucleocytoplasmic partitioning of the NB-LRR immune receptor Rx in the Solanaceae, thereby dictating Rx function. Plant Cell 22: 41764194.
  • Thomma BP, Nurnberger T, Joosten MH. 2011. Of PAMPs and effectors: the blurred PTI-ETI dichotomy. Plant Cell 23: 415.
  • Wirthmueller L, Zhang Y, Jones JD, Parker JE. 2007. Nuclear accumulation of the Arabidopsis immune receptor RPS4 is necessary for triggering EDS1-dependent defense. Current Biology 17: 20232029.
  • Wu Y, Zhang D, Chu JY, Boyle P, Wang Y, Brindle ID, De Luca V, Despres C. 2012. The Arabidopsis NPR1 protein is a receptor for the plant defense hormone salicylic acid. Cell Reports 1: 639647.
  • Yamaguchi Y, Pearce G, Ryan CA. 2006. The cell surface leucine-rich repeat receptor for AtPep1, an endogenous peptide elicitor in Arabidopsis, is functional in transgenic tobacco cells. Proceedings of the National Academy of Sciences, USA 103: 10 10410 109.
  • Zhang J, Li W, Xiang T, Liu Z, Laluk K, Ding X, Zou Y, Gao M, Zhang X, Chen S et al. 2010. Receptor-like cytoplasmic kinases integrate signaling from multiple plant immune receptors and are targeted by a Pseudomonas syringae effector. Cell Host & Microbe 7: 290301.