Disrupting Chemical Communication in Bacteria: A Novel and Effective Antimicrobial Strategy. Due to increased application of antibiotics for disease control, many pathogenic bacteria have developed resistance to existing antimicrobials. The infections associated with the resistant bacteria incur a high cost in terms of human health, well being and health care costs. Thus, there is a clear need to develop new antimicrobials that have a novel mechanism of action. The technology proposed here has ....Disrupting Chemical Communication in Bacteria: A Novel and Effective Antimicrobial Strategy. Due to increased application of antibiotics for disease control, many pathogenic bacteria have developed resistance to existing antimicrobials. The infections associated with the resistant bacteria incur a high cost in terms of human health, well being and health care costs. Thus, there is a clear need to develop new antimicrobials that have a novel mechanism of action. The technology proposed here has the potential to deliver enormous health and social welfare benefits to the Australian population as well as commercial benefits to Australian industry, through provision of new, locally produced technologies for the control of bacterial virulence.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668471
Funder
Australian Research Council
Funding Amount
$262,706.00
Summary
Hyphenated Capillary Electrophoresis - Mass Spectrometry Facility. The requested funding will facilitate the expansion of the activities of the University of Tasmania (UTas) node of the Australian Centre for Research on Separation Science and its collaborators. This initiative will involve the application of integrated, high resolution technologies for the separation and identification of complex chemical and biological samples. The instrument is to be shared by a number of highly research-activ ....Hyphenated Capillary Electrophoresis - Mass Spectrometry Facility. The requested funding will facilitate the expansion of the activities of the University of Tasmania (UTas) node of the Australian Centre for Research on Separation Science and its collaborators. This initiative will involve the application of integrated, high resolution technologies for the separation and identification of complex chemical and biological samples. The instrument is to be shared by a number of highly research-active groups at UTas in the fields of chemistry, biochemistry, plant and agricultural science, Antarctic studies, and pharmacy where detailed structural identification of components separated from complex mixtures is essential. These projects all focus on fundamental and applied research of great national significance.Read moreRead less
Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in th ....Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in the treatment of Alzheimer's disease, cancer and viral infections.Read moreRead less