Mechanosensitive properties and modulation of N-methyl-D-aspartate (NMDA) receptors by lipid environment. This project will provide new information about the molecular determinants which influence NMDA receptor channel gating that will significantly advance our understanding of a link between NMDA receptor function and many neurodegenerative diseases as well as pain and learning and memory. The outcomes of this project may lead to the discovery of novel lipid-based biomaterials for application i ....Mechanosensitive properties and modulation of N-methyl-D-aspartate (NMDA) receptors by lipid environment. This project will provide new information about the molecular determinants which influence NMDA receptor channel gating that will significantly advance our understanding of a link between NMDA receptor function and many neurodegenerative diseases as well as pain and learning and memory. The outcomes of this project may lead to the discovery of novel lipid-based biomaterials for application in medicine and the drug industry. This research is highly significant in relation to human health. The biological and nutritional aspects of polyunsaturated lipids and dietary fish oils have long been recognized. Thus this project will provide further knowledge that could benefit the health of the nation with consequent reduced health care costs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668017
Funder
Australian Research Council
Funding Amount
$1,047,000.00
Summary
Membrane Protein Structure and Interaction Facility. While it is estimated that a third of the human genome encodes for membrane proteins, the structures of only relatively few membrane proteins are currently known. It will be some time before membrane protein structure determination becomes routine, yet over 50% of the drugs on the market today rely on the activity of membrane proteins for their efficacy. This application seeks to establish a Membrane Protein Structure and Interaction Facility ....Membrane Protein Structure and Interaction Facility. While it is estimated that a third of the human genome encodes for membrane proteins, the structures of only relatively few membrane proteins are currently known. It will be some time before membrane protein structure determination becomes routine, yet over 50% of the drugs on the market today rely on the activity of membrane proteins for their efficacy. This application seeks to establish a Membrane Protein Structure and Interaction Facility for the development and application of novel techniques and approaches to study the structure and interactions of membrane proteins. Research progress will be greatly enhanced by the establishment of this dedicated facility with cutting-edge technologies for the study of membrane proteins.Read moreRead less