Project description:In order to obtain a global view about the strategies used by phytopathogenic bacteria, in response to physiologically relevant temperature changes. We used the DNA microarray technology to compare gene expression profile in the model bacterial pathogen P. syringae pv. phaseolicola NPS3121 grown at 18 M-BM-:C and 28M-BM-:C. To carry out this study, we used this DNA microarray of P. syringae pv. phaseolicola NPS3121. Each microarray experiment was repeated six times; two technical replicates with the same RNA samples and three biological replicates using RNA isolated from a different culture.
Project description:In order to obtain a global view about the strategies used by phytopathogenic bacteria, in response to physiologically relevant temperature changes. We used the DNA microarray technology to compare gene expression profile in the model bacterial pathogen P. syringae pv. phaseolicola NPS3121 grown at 18 ºC and 28ºC.
Project description:Many genes involve in pathogenicity and virulence are induced only in plant or in the presence of host components. Plant apoplast is the primary site of infection for P. syringae, which obtain nutrients directly from apoplastic fluid of host plants. In this work we investigated the effect of apoplastic fluid on the transcriptomic profile of the bacterium, when grown at low temperature in minimal medium with or without apoplastic fluid extracted from healthy bean leaves.
Project description:P. syringae pv. phaseolicola is the causal agent of the halo blight disease of beans (Phaseolus vulgaris L). The disease attacks both foliage and pods of plant host. Many genes involve in pathogenicity and virulence are induced only in plant or in the presence of host components. In this work we investigated the effect of bean pod extract on the transcriptomic profile of the bacterium, when grown at low temperature in minimal medium with or without bean pod extract.
Project description:P. syringae pv. phaseolicola is the causal agent of the halo blight disease of beans (Phaseolus vulgaris L). The disease attacks both foliage and pods of plant host. Many genes involve in pathogenicity and virulence are induced only in plant or in the presence of host components. In this work we investigated the effect of bean pod extract on the transcriptomic profile of the bacterium, when grown at low temperature in minimal medium with or without bean pod extract. Two RNA samples were compared, one prepared from cells grown in minimal medium M9 and the other from cells grown in minimal medium supplemented with bean pod extract.To control de biological variation that might interfere with data interpretation, a minimum of three biological replicates and two technical replicates (swap) were prepared.
Project description:P. syringae pv. phaseolicola, the causal agent of halo blight disease in bean, produces a toxin known as phaseolotoxin, whose synthesis involves the product of some of the genes found within the Pht region. This region, considered a pathogenicity island, comprises 23 genes arranged in five transcriptional units; two single-gene units (argK, phtL) and three arranged as operons (phtA, phtD, phtM), most with unknown function. In P. syringae pv. phaseolicola, maximal expression of most of the genes encoded in the Pht region and the synthesis of phaseolotoxin require the product of the phtL gene, which has been proposed to have a regulatory function. In order to evaluate the role of phtL gene in P. syringae pv. phaseolicola, we performed a comparative transcriptional analysis with the wild type and a phtL- mutant strains using microarrays. The microarray data analysis showed that PhtL regulates the expression not only of genes within the Pht region, but also alters the expression of genomic genes related with the iron-acquisition system, pathogenicity, oxidative stress and virulence. This study suggests the possible relation of the PhtL protein with the iron response genes and with the pathogenicity and or virulence of this bacterium.
Project description:P. syringae pv. phaseolicola, the causal agent of halo blight disease in bean, produces a toxin known as phaseolotoxin, whose synthesis involves the product of some of the genes found within the Pht region. This region, considered a pathogenicity island, comprises 23 genes arranged in five transcriptional units; two single-gene units (argK, phtL) and three arranged as operons (phtA, phtD, phtM), most with unknown function. In P. syringae pv. phaseolicola, maximal expression of most of the genes encoded in the Pht region and the synthesis of phaseolotoxin require the product of the phtL gene, which has been proposed to have a regulatory function. In order to evaluate the role of phtL gene in P. syringae pv. phaseolicola, we performed a comparative transcriptional analysis with the wild type and a phtL- mutant strains using microarrays. The microarray data analysis showed that PhtL regulates the expression not only of genes within the Pht region, but also alters the expression of genomic genes related with the iron-acquisition system, pathogenicity, oxidative stress and virulence. This study suggests the possible relation of the PhtL protein with the iron response genes and with the pathogenicity and or virulence of this bacterium. The microarrays used in this study correspond to an assembled DNA microarray of P. syringae pv. phaseolicola NPS3121 previously reported (GEO accession number GPL7115) (HernM-CM-!ndez-Morales et al., 2009). This microarray consist of 1911 probes, with an average length 2.4 Kbp, representing 1X the genome of P. syringae pv. phaseolicola NPS3121, as well as several PCR products corresponding to various known genes, which were printed as controls. Each microarray experiment was repeated six times (two technical replicates with the same RNA samples and three biological replicates using RNA isolated from a different culture). cDNA synthesis, labeling, hybridization, washing, and chip scanning were performed at the Microarray Core Facility at Cinvestav-Langebio. Hybridized microarray slides were scanned (GenePix 4000, Axon Instruments, Inc) at a 10 um resolution adjusting the laser and gain parameters to obtain similar levels of fluorescence intensity in both channels. The spot intensities were quantified using Axon GenePrix Pro 6.0 image analysis software. First, an automatic spot finding and quantification option of the software was used. Subsequently, all spots were inspected individually and in some cases, the spot diameters were corrected or the spots were removed from the analysis. The mean of the signals and the median of backgrounds were used for further analysis. Raw data were imported into the R.2.2.1 software. Background signals were subtracted using the Robust Multichip Analysis (RMA) whereas the normalization of the signal intensities within slides was carried out using M-bM-^@M-^\print-tip loessM-bM-^@M-^] method and the LIMMA package. Normalized data were log2 transformed and then fitted into mixed model ANOVAs using the Mixed procedure. The p-values of the phtL effects were adjusted for by the False Discovery Rate Method M-bM-^@M-^\FDRM-bM-^@M-^]. Changes in signal intensity of M-BM-11.5-fold or higher/lower between phtL- mutant and wild type were highly significant (FDR, p-value M-bM-^IM-$0.05), however we focused only in differential expressed genes that fell within the more traditional criteria, which is the cut-off threshold for up-regulated (M-bM-^IM-%1.8) and down-regulated genes (M-bM-^IM-$0.50).