Identification of the basic elements of Plasmodium transcription. This Discovery Project falls under the NRP for safeguarding Australia. Australian troops stationed in malaria endemic areas face the threat of infection and require medical attention upon return.Any research on malaria will expand our knowledge on prevention and treatment. Australia near malariaendemic locations such as Indonesia and Papua New Guinea.These countries do not have the means to support effective basic research into ....Identification of the basic elements of Plasmodium transcription. This Discovery Project falls under the NRP for safeguarding Australia. Australian troops stationed in malaria endemic areas face the threat of infection and require medical attention upon return.Any research on malaria will expand our knowledge on prevention and treatment. Australia near malariaendemic locations such as Indonesia and Papua New Guinea.These countries do not have the means to support effective basic research into the disease and wealthier countries such as Australia have the responsibility to fill this void.Furthermore, the aims of this Discovery Project are unique within the Australian malaria research community and the results fully complement other studies on transcription regulation of antigenic genes. Read moreRead less
Activation of invasion in Toxoplasma. Host cell invasion is critical for the establishment and maintenance of infection by the single-celled parasite Toxoplasma gondii, the causative agent of Toxoplasmosis. This project will use the latest molecular techniques to understand how invasion is activated and will define a new set of drug targets to treat Toxoplasmosis and related diseases.
Discovery of Novel Respiratory Viruses Causing Influenza-Like Illness in Healthy Australian Adults Aged 18 to 64 Years. This work will inform our understanding of the causes of acute respiratory illnesses in Australia at the present time by looking for both known and previously undiscovered respiratory viruses. Increasing the knowledge base regarding causes of disease will have downstream relevance for health policy planners seeking to assess the burden of disease due to different causes. Early ....Discovery of Novel Respiratory Viruses Causing Influenza-Like Illness in Healthy Australian Adults Aged 18 to 64 Years. This work will inform our understanding of the causes of acute respiratory illnesses in Australia at the present time by looking for both known and previously undiscovered respiratory viruses. Increasing the knowledge base regarding causes of disease will have downstream relevance for health policy planners seeking to assess the burden of disease due to different causes. Early identification and description of new diseases will allow pre-emptive evaluation of new public health threats. This information will help to ensure availability and marketability of vaccines to prevent infection.Read moreRead less
Novel target of amiloride analogues - picornaviral RNA polymerase. Picornaviruses cause a range of diseases such as poliomyelitis, meningitis, myocarditis, hepatitis A, neonatal sepsis and common cold. No antiviral treatment is available for these infections. Nearly 50% of antiviral drugs used in medicine are viral polymerase inhibitors; however picornaviral RNA polymerase has been largely overlooked as a drug target. We have discovered a group of compounds that inhibit picornaviral RNA polymera ....Novel target of amiloride analogues - picornaviral RNA polymerase. Picornaviruses cause a range of diseases such as poliomyelitis, meningitis, myocarditis, hepatitis A, neonatal sepsis and common cold. No antiviral treatment is available for these infections. Nearly 50% of antiviral drugs used in medicine are viral polymerase inhibitors; however picornaviral RNA polymerase has been largely overlooked as a drug target. We have discovered a group of compounds that inhibit picornaviral RNA polymerase. This project aims to define the inhibition mechanism and to evaluate a potential use of these compounds for antiviral drug development.Read moreRead less
Mechanisms of human immunodeficiency virus entry into cells. This project will develop an understanding of how human immunodeficiency virus (HIV) evolves in people to become better able to infect, and hence destroy, cells of the immune system. It is expected that new knowledge into how HIV alters the way it interacts with these cells will reveal insights for the design of vaccines, drugs and new diagnostic tests.
Development of class-leading bioluminescence resonance energy transfer technologies for real-time monitoring of molecular interactions. The purpose of this project is to develop improved technologies for identifying and developing pharmaceuticals with fewer side effects. The expected outcome is the development of technologies that provide a level of sensitivity and data quality that enables adoption by the biotechnology and pharmaceutical industries.
Immuno-epidemiological insights into the development of immunity to malaria and drug resistance. This project aims to better understand the maintenance and acquisition of immunity to malaria in high risk groups. It will also attempt to elucidate how immunity can interfere with the therapeutic efficacy of antimalarials, especially in the assessment of emerging drug resistance. The over-riding hypothesis is that differences in malaria transmission will lead to differential acquisition of immunity ....Immuno-epidemiological insights into the development of immunity to malaria and drug resistance. This project aims to better understand the maintenance and acquisition of immunity to malaria in high risk groups. It will also attempt to elucidate how immunity can interfere with the therapeutic efficacy of antimalarials, especially in the assessment of emerging drug resistance. The over-riding hypothesis is that differences in malaria transmission will lead to differential acquisition of immunity and efficacy of malaria interventions within and between populations. Understanding immunity to malaria is pivotal to develop new interventions, to understand the effectiveness of current malaria treatment and control programs to reduce the global burden of malarial disease.Read moreRead less
Transfer ribonucleic acid (tRNA) synthetases as drug targets in Plasmodium falciparum. Malaria is a major worldwide infectious disease. The disease kills around 2 million people every year, and current drugs are increasingly failing due to parasite drug resistance, creating an urgent demand for new drugs, that inhibit different targets. The Fellow will study a new class of parasite drug targets, the transfer ribonucleic acid (tRNA) synthetase enzymes to find novel inhibitors. Compounds blocking ....Transfer ribonucleic acid (tRNA) synthetases as drug targets in Plasmodium falciparum. Malaria is a major worldwide infectious disease. The disease kills around 2 million people every year, and current drugs are increasingly failing due to parasite drug resistance, creating an urgent demand for new drugs, that inhibit different targets. The Fellow will study a new class of parasite drug targets, the transfer ribonucleic acid (tRNA) synthetase enzymes to find novel inhibitors. Compounds blocking these enzymes may lead to new drugs to combat malaria.Read moreRead less
Drug targets in the relict plastid of malaria parasites. Malaria is a major world health problem and new drugs are needed urgently. Essential genes are potentially excellent targets for anti-malarial drugs. This project will use a novel strategy to identify genes that the parasite cannot exist without. Function and drug potential of these genes will be explored.
The development and testing of a device to enhance the application of repetitive transcranial magnetic stimulation. This project aims to develop and evaluate a new device designed to substantially enhance the use of transcranial magnetic stimulation, a technology, which is increasingly being applied in the treatment of disorders such as depression, as well as in the study of normal and abnormal brain function.