Defining a new family of sodium channel accessory proteins (2024-2027)

Abstract

Voltage-gated sodium channels are key proteins that function as multi-subunit complexes to regulate neuronal excitability. The project aims to investigate the structure and function of a novel family of accessory subunits by utilizing a class of toxins, derived from the giant Australian stinging tree, that directly binds to these proteins to modulate sodium channel function. The project aims to generate significant new knowledge on the function of sodium channels as multi-protein complexes. Expected outcomes of this project include development of novel channel-modulating molecules that may have applications as neuroscience tools to address fundamental questions about ion channel function and biology.

Experts

Professor Irina Vetter

Affiliate of The Centre for Chemist: Centre for Chemistry and Drug Discovery; Institute for Molecular Bioscience

Affiliate of Centre for Marine Scie: Centre for Marine Science; Faculty of Science

NHMRC Leadership Fellow - Group Lea: School of Pharmacy; Faculty of Health and Behavioural Sciences

NHMRC Leadership Fellow - Group Lea: Institute for Molecular Bioscience

Irina Vetter

Professor Mehdi Mobli

Affiliate of ARC COE for Innovation: ARC Centre of Excellence for Innovations in Peptide and Protein Science; Institute for Molecular Bioscience

Affiliate Associate Professor: School of Chemistry and Molecular Biosciences; Faculty of Science

Affiliate Associate Professor: Institute for Molecular Bioscience

Professorial Research Fellow: Australian Institute for Bioengineering and Nanotechnology

Mehdi Mobli