Project description:Rice, the world’s most important food crop, is attacked by multiple herbivores and pathogens.the rice striped stem borer (SSB) Chilo suppressalis is one of another most important rice insect pests. Here, we use Affymetrix Whole-Genome rice arrays to detect SSB infestation responsive genes.

Project description:Rice, the worldM-bM-^@M-^Ys most important food crop, is attacked by multiple herbivores and pathogens.the rice striped stem borer (SSB) Chilo suppressalis is one of another most important rice insect pests. Here, we use Affymetrix Whole-Genome rice arrays to detect SSB infestation responsive genes. RNA samples from five damaged stems of SSB-challenged 24 h rice plants or five stems from unchallenged plants (for control samples) were used to array analysis. Two replicate biological experiments of SSB treatment rice arrays and one control samples array were peformed.

Project description:To effectively manage resources, regulatory cross-talk between biological processes within an organism is essential. An emerging area in plant research focuses on antagonism between regulatory systems controlling growth/development and those governing immunity. Such crosstalk represents a point of vulnerability for pathogens to exploit. Here we show that the notorious potato blight pathogen Phytophthora infestans promotes a growth and development pathway in order to antagonise plant immunity. AVR2, an effector protein secreted by P. infestans, has been shown to interact with potato BSL1, a putative phosphatase implicated in brassinosteroid hormone signalling. Plants expressing AVR2 exhibit transcriptional and phenotypic overlaps with an over-active brassinosteroid signalling pathway, and have compromised immunity. The activity of AVR2 leads to up-regulation of a functional orthologue of AtHBI1, known to facilitate cross-talk between the brassinosteroid pathway and immune signalling in Arabidopsis. Transient expression of potato HBI1-like compromises immunity and enhances leaf colonisation by P. infestans. Knowledge of how pathogens manipulate regulatory cross-talk governing resource allocation in plants will inform crop breeding efforts of the future; helping to maximise both yield and resistance to ensure food security as pressure on our agricultural systems increases.

Project description:Infestation with white-backed planthopper (WBPH) to rice caused induced resistance to rice pathogens but brown planthopper (BPH) infestation induce weaker resistance to rice pathogens. We compared changes in gene expression in rice plants infested with WBPH and BPH to gain some insight into the WBPH-induced resistance to rice pathogens. An analysis, using microarrays, of gene expression in rice plants infested with these planthoppers revealed that WBPH infestation caused high induction of many defense-related genes including pathogenesis-related (PR) genes than BPH infestation. Furthermore, hydroperoxide lyase 2 (OsHPL2) which is an enzyme to produce C6 volatiles was induced by WBPH infestation, but not by BPH infestation. Experiment Overall Design: Agilent rice oligo microarray was used to investigate the gene expression profiling in rice plants infested with WBPH or BPH. Total RNA was extracted from pooled leaf blades infested with WBPH or BPH for 24 h and from mock-treated pooled leaf blades. Total RNA (200 ng) was labeled with Cy-3 or Cy-5 using an Agilent low RNA input linear amplification kit. Fluorescently labeled targets were hybridized to Agilent rice oligo microarrays. Hybridization and wash processes were performed according to the manufacturerâ??s instructions, and hybridized microarrays were scanned using an Agilent DNA microarray scanner. Agilent Feature Extraction software was employed for the image analysis and data extraction processes. Fold changes in expression level in each treatment were compared with those of the respective mock-treated controls. In each treatment, the experiment was performed independently three times.

Project description:Induced plant responses to insect herbivores are well studied, but we know very little about responses to gastropod feeding. We aim to identify the temporal dynamics of signalling- and defence-related plant responses after slug feeding in relation to induced resistance. We exposed Solanum dulcamara plants to feeding by the grey field slug (GFS; Deroceras reticulatum) for different periods and tested discs of local and systemic leaves in preference assays. Induced responses were analysed using metabolomics and transcriptomics. GFS feeding induced local and systemic responses. Slug feeding for 72h more strongly affected the plant metabolome than 24h feeding. It increased the levels of a glycoalkaloid (solasonine), phenolamides, anthocyanins, and trypsin protease inhibitors as well as polyphenol oxidase activity. Phytohormone and transcriptome analyses revealed that jasmonic acid, abscisic acid and salicylic acid signalling were activated. GFS feeding upregulated more genes than that it downregulated. The response directly after feeding was more than five times higher than after an additional 24h without feeding. Our research showed that GFS, like most chewing insects, triggers anti-herbivore defences by activating defence signalling pathways, resulting in increased resistance to further slug feeding. Slug herbivory may therefore impact other herbivores in the community.

Project description:The rice lesion mimic, spotted leaf 5 (spl5), created by M-NM-3-ray radiation, has spontaneous HR-like lesions on its leaves and shows enhanced resistance to rice blast and bacterial blight pathogens. Some genes were differentially expressed in this mutant compared with its WT control ZF802, and these genes were also associated with some important signaling pathways, such as defense response, oxidation-reduction process and stress response. We analyzed the transcriptional profiling of spl5 mutant and WT using the microarray, in order to reveal the signal pathway of SPL5 gene in regulation of disease resistance. Rice leaves were selected at lesion stages of spl5 mutant for RNA extraction and hybridization on Affymetrix microarrays. The lesions in rice leaves were belong to HR phenotype, which was one of the important reasons for rice disease resistance. In order to realize which genes were associated with the degree of lesions and mediated the disease resistance, we put the leaves of spl5 mutant into two categories, based on the degree of lesion formation: few lesions (FL), leaf area with 10-20% lesions and many lesions (ML), leaf area with 70-80% lesions.

Project description:Yield loss in crop plants due to biotic stresses is a major problem and pyramiding of R genes is often suggested for sustained and durable resistance against target pests. Information is available for single R gene interaction in rice and other crop plants, but not much data is available for multiple R gene interaction against multiple pathogens/pests. In this study we carried out transcriptional analysis of two rice lines introgressed with either R gene against bacterial blight and gall midge or, against bacterial blight and fungal blast. The gene expression changes were investigated through microarray and the expression pattern upon co-infection with multiple pathogens was analyzed to study the synergistic effect of R gene mediated defense responses as well as to explore the possibility of any antagonism between the R genes as defense pathway employed due to R gene mediated resistance varies as per the attacking pathogen/pest. Keywords: Expression profiling by array

Project description:Yield loss in crop plants due to biotic stresses is a major problem and pyramiding of R genes is often suggested for sustained and durable resistance against target pests. Information is available for single R gene interaction in rice and other crop plants, but not much data is available for multiple R gene interaction against multiple pathogens/pests. In this study we carried out transcriptional analysis of two rice lines introgressed with either R gene against bacterial blight and gall midge or, against bacterial blight and fungal blast. The gene expression changes were investigated through microarray and the expression pattern upon co-infection with multiple pathogens was analyzed to study the synergistic effect of R gene mediated defense responses as well as to explore the possibility of any antagonism between the R genes as defense pathway employed due to R gene mediated resistance variesaccording to the attacking pathogen/pest. Keywords: Expression profiling by array

Project description:Vascular plant diseases, such as rice bacterial blight caused by Xanthomonas oryzae pv. oryzae (Xoo) and crucifer black rot caused by Xanthomonas campestris pv. campestris (Xcc), cause huge yield loss of crops worldwide. However, how plants operate vascular defense against these obligate pathogens remains elusive. In this study, we used both Arabidopsis and rice pathosystems to address the long-standing question. We found that the loss of function mutation of Arabidopsis mitogen-activated protein kinase (MAPK) phosphatase 1 (MKP1) lost the non-host resistance to Xoo and supported Xoo to grow in the leaf veins, which also enhanced susceptibility to Xcc. MKP1 regulates the MPK3-mediated phosphorylation of the transcription factor MYB4 that functions in vascular lignification. Importantly, the MKP-MAPK cascade-mediated lignin biosynthesis is also conserved in rice through regulating OsMYB102 and OsMYB108, which control rice vascular resistance to adapted Xoo. Interestingly, the Arabidopsis and rice mutants enhanced resistance to the mesophyll cell pathogens most likely through upregulating salicylic acid biosynthesis, Pseudomonas syringae (P. syringae) and Xanthomonas oryzae pv. oryzicole (Xoc), respectively; strongly suggesting that this immune mechanism is likely specific to the obligate vascular pathogens. Therefore, our study uncovers a previously unrecognized vascular-specific and lignin-based immune mechanism, shedingshedding new sight on tissue-specific immunity in plants, as well as providing a practical approach for improvement of disease resistance against vascular pathogens in crops

Project description:The rice lesion mimic, spotted leaf 5 (spl5), created by γ-ray radiation, has spontaneous HR-like lesions on its leaves and shows enhanced resistance to rice blast and bacterial blight pathogens. Some genes were differentially expressed in this mutant compared with its WT control ZF802, and these genes were also associated with some important signaling pathways, such as defense response, oxidation-reduction process and stress response. We analyzed the transcriptional profiling of spl5 mutant and WT using the microarray, in order to reveal the signal pathway of SPL5 gene in regulation of disease resistance.