Project description:Plant pathogenic bacteria disseminate and survive through transmission to and by seeds of hosts and non-hosts plants. To investigate the interaction between xanthomonads and developing seeds of Medicago truncatula, plants at the flower bud stage were spray inoculated until runoff with xanthomonads suspensions. Using the Medicago NimbleGen chip, a transcriptomic analysis was performed on seeds to characterize the molecular dialogue between Xanthomonas campestris pv. campestris in an incompatible situation with M. truncatula seeds and Xanthomonas alfalfae pv. alfalfae in a compatible situation at two developmental time points (16 and 32 days atfter pollination (DAP).
Project description:To compare the early transcriptional changes that occur in sweet orange leaves in response to Xanthomonas citri versus Xanthomonas aurantifolii pathotype C infection, plant leaves infiltrated with each bacterial pathogen were examined by RNAseq.
Project description:Complete genome sequences of four Xanthomonas hortorum species level clade strains sequenced with short- and long-read technologies
Project description:Xanthomonas campestris pv. campestris (Xcc) is a major bacterial pathogen of cruciferous plants worldwide. The pathogen produces polysaccharides including extracellular cyclic glucan, xanthan, and extracellular enzymes that are key virulence factors. Different Xcc mutants (8397-defective in xanthan and 8523- defective in extracellular glucans) have been obtained and characterized in previously, wich shown to be less infective than the wild type strain when inoculated in N.benthamiana, wich has shown to be an excellent model for the study of Xcc-plant interaction. The objective of this work is evaluate this compounds functions in the plant-pathogen interaction, in particular in the plant transcriptoma modulation to confer susceptibility or resistance to the infection. Plant gene expression profiles would be obtained from independently inoculated leaves of N.benthamiana with the following strains of xanthomonas: Xcc. 8004 (wild type), Xcc. 8397 (xanthan minus), Xcc. 8523 (glucan minus), ant water (control). Leaves discs will be collected at 24 hs post infection and immediately submerged in liquid N2. Total RNA will be extracted with plant RNA specific kits (RNA easy QIAGen), treated with DNase, purified and quantified. Keywords: Reference design
Project description:Plant pathogenic bacteria disseminate and survive through transmission to and by seeds of hosts and non-hosts plants. To investigate the interaction between xanthomonads and developing seeds of Medicago truncatula, plants at the M-oM-,M-^Bower bud stage were spray inoculated until runoff with xanthomonads suspensions. Using the Medicago NimbleGen chip, a transcriptomic analysis was performed on seeds to characterize the molecular dialogue between Xanthomonas campestris pv. campestris in an incompatible situation with M. truncatula seeds and Xanthomonas alfalfae pv. alfalfae in a compatible situation at two developmental time points (16 and 32 days atfter pollination (DAP). Six-condition experiment, 16dap_Mock versus 16dap_Xaa, 16dap_Mock versus 16dap_Xcc, 32dap_Mock versus 32dap_Xaa, 32dap_Mock versus 32dap_Xcc. Biological replicates: 6 controls (16dap_Mock, 32dap_Mock), 12 treatments (16dap_Xaa, 16dap_Xcc, 32dap_Xaa, 32dap_Xcc), independently grown and harvested. One replicate per array.
Project description:Transcription activator-like effectors (TALEs) from Xanthomonas activate host susceptibility genes to promote disease. We report here the tomato transcriptome changes after inoculation with Xanthomonas strains delivering Brg11*, a TALE-like effector from Ralstonia solanacearum or delivering the Brg11-derivative lacking the DNA binding domain as a control. After diffenential gene expression analysis we identified 117 genes were up-regulated and 8 genes were down-regulated by Brg11. This provides us a candidate gene list facilitating identification of Brg11 direct target genes in tomato.
Project description:Xanthomonas campestris pv. campestris (Xcc) is a major bacterial pathogen of cruciferous plants worldwide. The pathogen produces polysaccharides including extracellular cyclic glucan, xanthan, and extracellular enzymes that are key virulence factors. Different Xcc mutants (8397-defective in xanthan and 8523- defective in extracellular glucans) have been obtained and characterized in previously, wich shown to be less infective than the wild type strain when inoculated in N.benthamiana, wich has shown to be an excellent model for the study of Xcc-plant interaction. The objective of this work is evaluate this compounds functions in the plant-pathogen interaction, in particular in the plant transcriptoma modulation to confer susceptibility or resistance to the infection. Plant gene expression profiles would be obtained from independently inoculated leaves of N.benthamiana with the following strains of xanthomonas: Xcc. 8004 (wild type), Xcc. 8397 (xanthan minus), Xcc. 8523 (glucan minus), ant water (control). Leaves discs will be collected at 24 hs post infection and immediately submerged in liquid N2. Total RNA will be extracted with plant RNA specific kits (RNA easy QIAGen), treated with DNase, purified and quantified. Keywords: Reference design 11 hybs total
