Regulation of synapse development, growth and plasticity

Synaptic plasticity is fundamental to nervous system development and function.  Our labs have been studying BMP and reactive oxygen species (ROS) signalling as key regulators of synapse development, growth and plasticity. For example, during critical periods of nervous system development, metabolic ROS generated in mitochondria specify the functional ‘baseline’, including through setting the size and composition of synaptic terminals. The mechanisms by which this is achieved can now be explored. Specifically, we are now investigating:
 -    novel facets of BMP signalling, and their roles in regulating synapse size, composition and transmission properties;
 -    how transient critical period experiences in the late embryo lead to dramatic, lasting changes in gene expression and neuronal function.  

This project will combine biochemical and genetic approaches with electrophysiology and methods for high-end imaging. We expect this project to redefine our understanding of how multiple signalling pathways, working at different time scales and regulating distinct elements of plasticity, integrate at the synapse.