Project description:The yeast Rhodotorula mucilaginosa shown the capability to degrade patulin by the intracellular enzymes. However, the enzymes which risponsible for the degradation process was unkonown. Transcriptome change in response to mycotoxin patulin was analyzed. The molecular mechanism of Rhodotorula mucilaginosa withstand patulin was revealed.
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:To confirm the transcriptional mechanism of xylose gene activation in Rhodotorula toruloides is principally determined by acetate and not other factors, like nitrogen content. RNA-Seq was conducted to understand xylose pathway metabolism. Ultimately, we used new-found understanding in RNA-Seq to engineer R. toruloides better.
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
