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Items: 1 to 20 of 117


A novel elicitor protein from Phytophthora parasitica induces plant basal immunity and systemic acquired resistance.

Chang YH, Yan HZ, Liou RF.

Mol Plant Pathol. 2015 Feb;16(2):123-36. doi: 10.1111/mpp.12166. Epub 2014 Aug 8.


NPP1, a Phytophthora-associated trigger of plant defense in parsley and Arabidopsis.

Fellbrich G, Romanski A, Varet A, Blume B, Brunner F, Engelhardt S, Felix G, Kemmerling B, Krzymowska M, Nürnberger T.

Plant J. 2002 Nov;32(3):375-90.


Tomato SOBIR1/EVR Homologs Are Involved in Elicitin Perception and Plant Defense Against the Oomycete Pathogen Phytophthora parasitica.

Peng KC, Wang CW, Wu CH, Huang CT, Liou RF.

Mol Plant Microbe Interact. 2015 Aug;28(8):913-26. doi: 10.1094/MPMI-12-14-0405-R. Epub 2015 Jul 15.


Phytophthora sojae avirulence effector Avr3b is a secreted NADH and ADP-ribose pyrophosphorylase that modulates plant immunity.

Dong S, Yin W, Kong G, Yang X, Qutob D, Chen Q, Kale SD, Sui Y, Zhang Z, Dou D, Zheng X, Gijzen M, Tyler BM, Wang Y.

PLoS Pathog. 2011 Nov;7(11):e1002353. doi: 10.1371/journal.ppat.1002353. Epub 2011 Nov 10.


Pathogen-associated molecular pattern-triggered immunity and resistance to the root pathogen Phytophthora parasitica in Arabidopsis.

Larroque M, Belmas E, Martinez T, Vergnes S, Ladouce N, Lafitte C, Gaulin E, Dumas B.

J Exp Bot. 2013 Sep;64(12):3615-25. doi: 10.1093/jxb/ert195. Epub 2013 Jul 12.


Homologous RXLR effectors from Hyaloperonospora arabidopsidis and Phytophthora sojae suppress immunity in distantly related plants.

Anderson RG, Casady MS, Fee RA, Vaughan MM, Deb D, Fedkenheuer K, Huffaker A, Schmelz EA, Tyler BM, McDowell JM.

Plant J. 2012 Dec;72(6):882-93. doi: 10.1111/j.1365-313X.2012.05079.x. Epub 2012 Oct 26.


Synergistic biosynthesis of biphasic ethylene and reactive oxygen species in response to hemibiotrophic Phytophthora parasitica in tobacco plants.

Wi SJ, Ji NR, Park KY.

Plant Physiol. 2012 May;159(1):251-65. doi: 10.1104/pp.112.194654. Epub 2012 Mar 2.


Coordinated regulation of genes for secretion in tobacco at late developmental stages: association with resistance against oomycetes.

Hugot K, Rivière MP, Moreilhon C, Dayem MA, Cozzitorto J, Arbiol G, Barbry P, Weiss C, Galiana E.

Plant Physiol. 2004 Feb;134(2):858-70. Epub 2004 Feb 5.


RNase activity prevents the growth of a fungal pathogen in tobacco leaves and increases upon induction of systemic acquired resistance with elicitin.

Galiana E, Bonnet P, Conrod S, Keller H, Panabières F, Ponchet M, Poupet A, Ricci P.

Plant Physiol. 1997 Dec;115(4):1557-67.


Cellulose binding domains of a Phytophthora cell wall protein are novel pathogen-associated molecular patterns.

Gaulin E, Dramé N, Lafitte C, Torto-Alalibo T, Martinez Y, Ameline-Torregrosa C, Khatib M, Mazarguil H, Villalba-Mateos F, Kamoun S, Mazars C, Dumas B, Bottin A, Esquerré-Tugayé MT, Rickauer M.

Plant Cell. 2006 Jul;18(7):1766-77. Epub 2006 Jun 9.


Elicitin genes expressed in vitro by certain tobacco isolates of Phytophthora parasitica are down regulated during compatible interactions.

Colas V, Conrod S, Venard P, Keller H, Ricci P, Panabières F.

Mol Plant Microbe Interact. 2001 Mar;14(3):326-35.


Pathogen-induced elicitin production in transgenic tobacco generates a hypersensitive response and nonspecific disease resistance.

Keller H, Pamboukdjian N, Ponchet M, Poupet A, Delon R, Verrier JL, Roby D, Ricci P.

Plant Cell. 1999 Feb;11(2):223-35.


Lipoxygenase gene expression in the tobacco-Phytophthora parasitica nicotianae interaction.

Véronési C, Rickauer M, Fournier J, Pouénat ML, Esquerré-Tugayé MT.

Plant Physiol. 1996 Nov;112(3):997-1004.


Involvement of specific calmodulin isoforms in salicylic acid-independent activation of plant disease resistance responses.

Heo WD, Lee SH, Kim MC, Kim JC, Chung WS, Chun HJ, Lee KJ, Park CY, Park HC, Choi JY, Cho MJ.

Proc Natl Acad Sci U S A. 1999 Jan 19;96(2):766-71.


Global gene expression of Poncirus trifoliata, Citrus sunki and their hybrids under infection of Phytophthora parasitica.

Boava LP, Cristofani-Yaly M, Mafra VS, Kubo K, Kishi LT, Takita MA, Ribeiro-Alves M, Machado MA.

BMC Genomics. 2011 Jan 17;12:39. doi: 10.1186/1471-2164-12-39.


Silencing of DS2 aminoacylase-like genes confirms basal resistance to Phytophthora infestans in Nicotiana benthamiana.

Nakano M, Nishihara M, Yoshioka H, Ohnishi K, Hikichi Y, Kiba A.

Plant Signal Behav. 2014;9(2):e28004. Epub 2014 Feb 10.


Mammalian pro-apoptotic bax gene enhances tobacco resistance to pathogens.

Dong S, Zhang Z, Zheng X, Wang Y.

Plant Cell Rep. 2008 Sep;27(9):1559-69. doi: 10.1007/s00299-008-0554-5. Epub 2008 May 29. Erratum in: Plant Cell Rep. 2011 Aug;30(8):1571. Suomeng, Dong [corrected to Dong, Suomeng]; Zhengguang, Zhang [corrected to Zhang, Zhengguang]; Xiaobo, Zheng [corrected to Zheng, Xiaobo]; Yuanchao, Wang [corrected to Wang, Yuanchao].


Silencing of acidic pathogenesis-related PR-1 genes increases extracellular beta-(1->3)-glucanase activity at the onset of tobacco defence reactions.

Rivière MP, Marais A, Ponchet M, Willats W, Galiana E.

J Exp Bot. 2008;59(6):1225-39. doi: 10.1093/jxb/ern044. Epub 2008 Apr 4.


Identification of a novel NPR1-like gene from Nicotiana glutinosa and its role in resistance to fungal, bacterial and viral pathogens.

Zhang Y, Shi J, Liu JY, Zhang Y, Zhang JD, Guo XQ.

Plant Biol (Stuttg). 2010 Jan;12(1):23-34. doi: 10.1111/j.1438-8677.2009.00210.x.

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