Project description:Rice blast disease caused by Magnaporthe oryzae is one of the most damaging diseases affecting rice productivity. Previously, we reported a novel M. oryzae- secreted protein MSP1, which triggers cell death and pathogen-associated molecular pattern (PAMP)-triggered immune (PTI) responses in rice. To investigate the MSP1 induced defense response in rice at the protein level, we employed a label-free quantitative proteomic approach, in parallel with the flg22, which is a wellknown elicitor. Proteomics analysis using the MaxQuant-Perseus platform led to the identification of 4087 proteins of which 417 showed significant differences (multiple sample test, ANOVA p<0.05) in response to MSP1 and/or flg22 treatments. Functional annotation of the differential proteins showed that proteins related to the primary metabolism, secondary metabolism and lipid metabolism were strongly down-regulated, while elevated proteins were mainly associated with the stress response, chromatin remodeling, post-translational modification of proteins and signaling.

Project description:Verticillium longisporum is a soil-borne fungal pathogen causing vascular disease predominantly in oilseed rape. The pathogen enters its host through the roots and entertains a parasitic life stage in the xylem before invading other tissues late in the infection cycle. We have started to approach the question how and when the host plant senses the colonization of the xylem using Arabidopsis thaliana as a model plant. Although the stress-related phytohormones salicylic acid, jasmonic acid and abscisic acid increase only at 28 to 35 days, expression of V. longisporum-induced genes (VliGs) starts in the leaf veins as early as 5 dpi when disease symptoms and fungal DNA cannot yet be detected. It is concluded that an elicitor is transported from the root to the aerial parts. More than one third of the VliGs identified by whole genome expression profiling at 18 dpi encode apoplastically localized proteins involved in cell wall modifications and potential defense responses. The identified VliGs provide a useful tool to elucidate the contribution of the induced genes to the disease phenotype and the defense response. Moreover, they will help to identify the elicitor(s) and the components of the signal transduction chain that shape the V. longisporum – plant interaction. Keywords: Arabidopsis, cell wall, microarray, phytohormones, Verticillium longisporum, xylem

Project description:in this work, initially we ectopically expressed the legume Nod factor receptor genes (NFRP genes – MtNFP, MtLYK3 and LjLNP) in rice and assessed their impact on NF perception and consequently-triggered biological processes in roots. RNA-seq transcriptomic analysis revealed that the ectopic expression of the legume NFRPs in roots suppressed diverse genes associated with plant pathogen interaction and other defense response pathways including the ones involved in secondary metabolism. Overall, results the study indicate that (1) rice (control) plants have inherent ability to perceive NFs, and the perception of NFs resulted in suppression of a significant number of genes involved in innate immune response in roots; (2) Ectopic expression of NFRPs primed root hairs to respond to NFs; and (3) Expression of NFRPs made rice roots hypersensitive to NFs, as they triggered massive up-regulation of diverse defense response and secondary metabolism genes.

Project description:We aim to understand the global transcriptional response of hybrid poplar NM6 (Populus nigra x Populus maximoviczii) to infection by two biotrophic Melampsora fungi, M. larici-populina and M. medusae f. sp. deltoidae separately and simultanously. Transcript profilling revealed 699 differentially expressed genes whose expression level was equal or higher than 2-fold between infected and noninfected tissues. In the mixed infection, our results showed an additive response of the two pathogens. Genes regulated as a result of Melampsora infection were generally induced and mainly involved in primary/secondary metabolism that include cell wall reinforcement and lignification, defense-related processes like pathogenesis-related and stress response, signal perception and transduction mechanisms and regulation of transcription. Keywords: Stress response

Project description:Plant immune elicitor

Project description:To see the function of CERK1 receptor-like kinase in the chitin elicitor signaling in Arabidopsis, we compared the gene expression profiles in the chitin oligosaccharide treated seedlings of wild type A. thaliana and CERK1 knock-out mutant. Keywords: Defense response

Project description:To see the function of OsCERK1 receptor-like kinase in the chitin elicitor signaling in Rice, we compared the gene expression profiles in the chitin oligosaccharide treated cultured rice cells of vector control and OsCERK1 knock-down mutant (RNAi). Keywords: Defense response

Project description:Using the ATH1 Affymetrix microarrays consisting of about 23,000 genes, we examined the response of Arabidopsis seedlings to chito-tetramers, chito-octamers and hydrolyzed chitin after 30 min of treatment. Keywords = chitin Keywords = defense Keywords = elicitor Keywords = mutant Keywords = powdery mildew Keywords = Erysiphe cichoracearum Keywords: ordered

Project description:The structure and composition of plant cell walls are modified to accommodate the needs of the cell and in response to environmental stimuli. Growth, development, and defense may demand potentially conflicting functional cell wall requirements, and thus modifications of the cell wall are tightly controlled in an adaptive manner. These modifications are mediated by a dedicated cell wall integrity (CWI) maintenance mechanism. We investigated the responses to cell wall damage (CWD) that compromise CWI and the underlying mechanisms in Arabidopsis thaliana. Inhibitor- and enzyme-triggered CWD induced similar, turgor-sensitive stress responses. Genetic analysis showed that the receptor-like kinase (RLK) FEI2 and the plasma membrane-localized mechano-sensitive Ca2+- channel MCA1 function downstream of the RLK THE1 in CWD perception. Phenotypic clustering with 27 genotypes identified a core group of RLKs and ion channels required for activation of CWD responses. In contrast, the responses were repressed by pattern-triggered immunity (PTI) signaling components including the receptors for plant elicitor peptides (AtPeps) PEPR1 and PEPR2 (PEPR1/2). Application of AtPep1 and AtPep3 repressed CWD-induced phytohormone accumulation in a concentration dependent manner. CWD induced the expression of both PROPEP1 and PROPEP3 as well as the release of a PROPEP3 fusion protein into the growth medium. These results suggest that AtPep-mediated signaling suppresses CWD-induced defense responses. If key PTI signaling elements acting downstream of PEPR1/2 are dysfunctional, suppression of CWD-induced responses is alleviated, thus compensating for the impairment.

Project description:Treatment of rice tissues with purified preparations of a Xanthomonas oryzae pv. oryzae (Xoo) secreted plant cell wall degrading enzyme, Lipase/Esterase (LipA), elicits cell wall damage induced innate immune responses. LipA activity is required for induction of defense responses. In order to characterize the early events during elaboration of cell wall degrading enzyme, Lipase/Esterase (LipA) induced innate immune response in rice, we have performed global gene expression profiling of rice leaves treated with purified LipA at early time points, 30 minutes and 120min, after treatment. Whole genome transcriptional profiling was performed using Affymetrix Rice GeneChips Leaves of two weeks old green house grown susceptible rice cultivar (Taichung Native-1; TN-1) were infiltrated with either 30-40μl of purified Xoo Lipase/Esterase (LipA)(500μg/ml) or with buffer (10mM potassium phosphate buffer pH 6.0) alone (as described in Jha et al. 2007; MPMI vol 20, pp 31-40). The plants were shifted to a growth chamber (28oC; 80% relative humidity; 12/12h light/dark cycle) 48 hours before the treatment. 20-30 leaf pieces covering the infiltrated zone from each of the treatments were harvested 30 min. and 120 min. after infiltration. Total RNA isolated from the pooled samples was subjected for expression analysis using Affymetrix GeneChip System. The experiment was repeated with three different biological replicates using RNA isolated from three batches of rice leaves treated with the freshly purified Xoo Lipase/Esterase (LipA)and the buffer Gene Expression profiling of rice leaves undergoing an innate immune respone induced by LipA (Lipase/Esterase A) enzyme