Project description:Causative agent for crown gall disease in grapes

Project description:crown gall disease

Project description:Crown gall disease resistance of Prunus mahaleb

Project description:This study describes physiological changes, morphological adaptations and the regulation of pathogen defense responses in Arabidopsis crown galls. Crown gall development was induced on intact plants under most natural conditions with Agrobacterium tumefaciens. Differential gene expression and the metabolite pattern was determined by comparing crown galls with mock-inoculated inflorescence stalk segments of the same age.

Project description:Rice gall dwarf virus (RGDV) is the causal agent of rice gall dwarf disease which causes severe loss of rice yield in Asia countries. In this study, we have analyzed the relationship between symptom and host gene responses by RGDV infection.

Project description:Produces crown gall in plants

Project description:A biological control agent for the plant disease crown gall.

Project description:Effects of crown gall disease on natural microbiota of Vitis vinifera

Project description:Rice gall dwarf virus (RGDV) is the causal agent of rice gall dwarf disease which causes severe loss of rice yield in Asia countries. In this study, we have analyzed the relationship between symptom and host gene responses by RGDV infection. Comparison between RGDV and mock infected rice. Biological replicates: 3 control, 3 infected, independently grown and harvested. 1 samples derived from 5 plants grown under same conditons

Project description:Integration of the bacterial T-DNA into the plant genome by virulent agrobacteria causes crown gall development on many plant species. Plant tumor development shares fundamental similarities with mammalian cancer progression despite obvious differences in initiation of tumor development. For neoplastic growth in mammals, DNA methylation changes are known to be essential. The role of epigenetic modifications for plant tumor development is addressed here. Genome-wide comparison of methylation profiles of Arabidopsis crown galls and tumor-free tissue revealed 2,876 annotated genes that were affected by differential methylation. Thereof, 1,822 genes were hit by hypermethylated regions and 1,100 genes overlapped with hypomethylated regions (sum of hyper-and hypomethylated genes is higher than the number of affected genes because one gene may contain several differentially methylated regions [DMRs]). DMRs found to be methylated only in tumor-free tissue covered 275 kb of the genome, whereas those methylated only in crown galls total to 560 kb. Contrary to the globally hypermethylated tumor genome, promoter regions of protein coding genes appeared to be rather hypomethylated. In contrast, mammalian cancer cells are associated with global hypomethylation and local hypermethylation of gene promoters. In summary, while aberrant DNA methylation in mammals increases malignacy of the cancer phenotype, our results indicate that methylation events in the plant genome rather confine tumor growth. All 15,431 mCIP-enriched regions reported in the paper are contained in the supplementary BED files. mCIP of gDNA from crown galls vs. mCIP of gDNA from inflorescence stalks (3 biol. replicates each)