How Do Anaesthetics Work? A Rational Basis For Safer General Anaesthesia.
Funder
National Health and Medical Research Council
Funding Amount
$592,008.00
Summary
General anaesthetics are a mainstay of modern medicine, but have a small safety margin, requiring skilled anaesthetists for their safe use. There is growing evidence that general anaesthetic exposure may have long-term effects on brain function in both newborns and the elderly. This project will provide a detailed molecular description of anaesthetic action and specificity. It will provide the basis for designing new anaesthetics that are safer, both immediately and for long-term brain function.
Developing Drugs To Prevent Prostate Cancer Spread.
Funder
National Health and Medical Research Council
Funding Amount
$99,248.00
Summary
Current therapies for prostate cancer lose their efficacy as the cancer advances. Moreover, despite the spread of cancer being the major cause of prostate cancer mortality, there is no therapy available which selectively targets this process, thus new agents are needed. By using computer modelling to predict molecules that bind to the cell surface protein CD151 and testing these in biological assays, we aim to discover molecules that reduce cell migration of prostate cancer and that can be devel ....Current therapies for prostate cancer lose their efficacy as the cancer advances. Moreover, despite the spread of cancer being the major cause of prostate cancer mortality, there is no therapy available which selectively targets this process, thus new agents are needed. By using computer modelling to predict molecules that bind to the cell surface protein CD151 and testing these in biological assays, we aim to discover molecules that reduce cell migration of prostate cancer and that can be developed into anti-migration drugs.Read moreRead less
Designer RNA-binding Proteins For Research And Therapeutic Purposes
Funder
National Health and Medical Research Council
Funding Amount
$557,480.00
Summary
It has become clear recently that ribonucleic acids play many roles in the switching on and off of genes in humans and other organisms. These molecules play roles in a number of diseases, including HIV-AIDS, hepatitis, and a large number of inherited disorders. We propose to build a library of protein molecules that can bind specifically to a wide range of RNA targets and modulate their function. These molecules have the capacity to act as therapeutics for a wide range of diseases.