Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a ....Biologically-Inspired Recognition and Processing in Colloidal Systems. The proposed research will enhance the understanding of forces and adsorption in biologically-inspired synthetic systems, and thereby create new strategies for improving selective adsorption, stabilization, coagulation, and separation. The expected outcomes are: increased understanding of chiral interactions at surfaces, a technique for rapid measurement of surface selectivity, new and better agents for chiral separation, a reduction in the use of organic pollutants, new methods for colloidal processing that will enable the preparation of new materials, and new surface coatings for increasing the useful life-time of medical implants.Read moreRead less
Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of b ....Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of bacteria were amongst the first organisms trialed as biological weapons, and the pathogenic species remain rated as Class 3 organisms by the Centers for Disease Control.Read moreRead less
Molecular control of apoptosis and protein homeostasis. A million cells are produced every second by cell division. At the same time a million cells commit suicide by a process called apoptosis. When cells fail to die when they should they can develop into cancers. In heart attacks, stroke and neurodegenerative diseases, many cells appear to activate their self destruct mechanism to die unnecessarily. Drugs that can cause cancer cells to kill themselves, or drugs that prevent cells dying when th ....Molecular control of apoptosis and protein homeostasis. A million cells are produced every second by cell division. At the same time a million cells commit suicide by a process called apoptosis. When cells fail to die when they should they can develop into cancers. In heart attacks, stroke and neurodegenerative diseases, many cells appear to activate their self destruct mechanism to die unnecessarily. Drugs that can cause cancer cells to kill themselves, or drugs that prevent cells dying when they shouldn't, would make a major impact on many important diseases. Understanding the molecular mechanisms of cell death is the first step towards developing these drugs.Read moreRead less