Project description:Under disease stress, activation of defense response in plants often comes with the cost of a reduction in growth and yield, which is referred as the growth-defense trade-off. The microorganisms which can be recruited by plants to mitigate the growth-defense trade-off are of great value in crop breeding. The proteomic, physiological and transcriptional profiling data offer insights into the molecular basis underlying the balancing between defense and growth in endophyte-rice symbiont. The findings provide an example for the endophyte-mediated modulation of growth-defense trade-offs in plants and indicated the promising application of endophytic actinobacterial strains in agriculture to breed “microbe-optimized crops”.
Project description:The experiments were performed to understand the molecular basis of plant growth promotion in rice by Rhodotorula mucilaginosa JGTA-S1, an endophytic yeast from Typha angustifolia
Project description:The experiments were performed to understand the molecular basis of plant growth promotion in rice by Rhodotorula mucilaginosa JGTA-S1, an endophytic yeast from Typha angustifolia.
Project description:The experiments were performed to understand the molecular basis of plant growth promotion in rice by Rhodotorula mucilaginosa JGTA-S1, an endophytic yeast from Typha angustifolia Three week old rice plant grown in untreated condition were supplemented with Rhodototorula cell suspension. Shoots were harvested 0hr, 6hrs or 24hrs post treatment. Total RNA isolated from those shoot tissue & used for Microarray. 0 hr treated sample considered here as Control
Project description:The data presented here are related to the proteins detected in rice plants inoculated with ACC deaminase producing Methylobacterium oryzae CBMB20 and imposed with salt stress.