McMaster University will continue to host undergraduate academic activities remotely for the Spring/Summer/Intersession term with only a few exceptions for courses that need student access to specialized equipment.
The brain controls behaviour in an extremely complex manner, involving various processes at molecular, cellular, circuit, and network levels. In our lab, we use a multi-level, integrative research strategy to study how gene mutations associated with psychiatric disorders affect each of these neurobiological levels, and their contributions to disrupted social behaviour. In particular, we focus on the following questions using genetic models of autism spectrum disorders (ASD): 1.What are the potential mechanisms by which ASD gene mutations impair oxytocin signaling in the brain, and how are they linked to the social symptoms of ASD? 2.100s of genes have been identified to be associated with ASD. On which neurobiological pathways do these genes converge, and how are they connected to behaviour?
Integrative neurobiology of psychiatric disorders, molecular biology, cellular and synaptic physiology, circuits and network, neurodevelopmental disorders, functional magnetic resonance imaging, lightsheet microscopy, social behaviour, disease modeling in animals