Yeast cell-cell communication of overcrowding and nutrient limitation: novel signalling systems and their impact on fermentation. The project will investigate known and novel signalling molecules that allow communication between yeast cells and impact on fermentation dynamics, specifically in a nutrient-depleted environment. The mechanisms by which these molecules exert their effect will be defined using a systems biology approach that integrates many analyses and data sets.
Discovery Early Career Researcher Award - Grant ID: DE170100054
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
How plants respond to cell wall signals. This project aims to discover mechanisms of plant cell wall signalling and modify plant cell walls for improved food, textiles, building materials and renewable biofuels without inadvertently activating cell wall signalling. However, attempts to improve cell walls have been ineffective because it is not known how plants use cell wall signalling to sense and compensate for cell wall changes. This project expects to develop both a genetic screen to find mut ....How plants respond to cell wall signals. This project aims to discover mechanisms of plant cell wall signalling and modify plant cell walls for improved food, textiles, building materials and renewable biofuels without inadvertently activating cell wall signalling. However, attempts to improve cell walls have been ineffective because it is not known how plants use cell wall signalling to sense and compensate for cell wall changes. This project expects to develop both a genetic screen to find mutants defective in cell wall signal transduction and a bioinformatic tool to compare genomes across species and discover cell wall signalling components. Potential benefits include addressing Australian research priorities: Food, Environmental Change, and Energy.Read moreRead less