Encapsulation of magnetic nanoparticles for the hyperthermia treatment of liver cancer. This project will provide targeted hyperthermia treatment for liver cancer. The treatment will be non systemic and therefore, unlike radiotherapy and chemotherapy, will cause minimal collateral damage to healthy tissue within the patient. Liver cancer is one of the commoner forms of cancer in humans with estimates of up to 2 million patients per year being affected worldwide. Currently 95% of these patients w ....Encapsulation of magnetic nanoparticles for the hyperthermia treatment of liver cancer. This project will provide targeted hyperthermia treatment for liver cancer. The treatment will be non systemic and therefore, unlike radiotherapy and chemotherapy, will cause minimal collateral damage to healthy tissue within the patient. Liver cancer is one of the commoner forms of cancer in humans with estimates of up to 2 million patients per year being affected worldwide. Currently 95% of these patients will die from the condition. This project will lead to improvements in health outcomes for liver cancer patients. As a consequence of the worldwide demand for this treatment, and related equipment, the project will generate foreign exchange earnings through exports and new job opportunities in the clever end of small business enterprise.Read moreRead less
Guarding and evolving the genome: interactions between DNA-repair enzymes and damaged DNA. The application of structural biology techniques to the area of DNA repair allows us to understand the full implications linking genes and proteins to the molecular mechanisms of diseases such as cancer and hereditory conditions. Studies in this highly internationally competitive area are already established in the Bond laboratory, which has recently relocated to Australia. The use of forward-thinking stru ....Guarding and evolving the genome: interactions between DNA-repair enzymes and damaged DNA. The application of structural biology techniques to the area of DNA repair allows us to understand the full implications linking genes and proteins to the molecular mechanisms of diseases such as cancer and hereditory conditions. Studies in this highly internationally competitive area are already established in the Bond laboratory, which has recently relocated to Australia. The use of forward-thinking structural biology approaches to solve difficult technical problems will foster collaborations within Australia and with leading laboratories abroad, providing excellent up-to-date research training for students and postdoctoral researchers.
Read moreRead less
BIOSYNTHESIS OF A FUNGAL TOXIN AND ITS ROLE IN PLANT DISEASE. This project will determine how an important class of toxic molecules, epipolythiodioxopiperazines (EPTs), are made by fungi. Knowledge of the domains and actions of these genes in the biosynthetic pathway may lead to the ability to engineer secondary metabolites with altered specificity, and drugs that alleviate symptoms of secondary fungal toxicoses associated with leukemia, organ transplants and HIV AIDS. Also this project will a ....BIOSYNTHESIS OF A FUNGAL TOXIN AND ITS ROLE IN PLANT DISEASE. This project will determine how an important class of toxic molecules, epipolythiodioxopiperazines (EPTs), are made by fungi. Knowledge of the domains and actions of these genes in the biosynthetic pathway may lead to the ability to engineer secondary metabolites with altered specificity, and drugs that alleviate symptoms of secondary fungal toxicoses associated with leukemia, organ transplants and HIV AIDS. Also this project will also elucidate the role of an EPT, sirodesmin, in blackleg of canola, a disease that costs the Australian canola industry up to $50 million in losses annually. Outcomes of this project may lead to novel blackleg disease control strategies. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453832
Funder
Australian Research Council
Funding Amount
$550,910.00
Summary
New directions in biomolecular mass spectrometry. The combined UoW/ANU mass spectrometry facility supports a range of research projects in high priority areas including proteomics, mechanisms of aging, anticancer drugs and pathogenicity. The facility has several key deficiencies: 1) the ability to study very high molecular weight biomolecular complexes, 2) the ability to study ion-molecule interactions that have implications in mechanisms of chemistry in nature, and 3) researchers at ANU lack es ....New directions in biomolecular mass spectrometry. The combined UoW/ANU mass spectrometry facility supports a range of research projects in high priority areas including proteomics, mechanisms of aging, anticancer drugs and pathogenicity. The facility has several key deficiencies: 1) the ability to study very high molecular weight biomolecular complexes, 2) the ability to study ion-molecule interactions that have implications in mechanisms of chemistry in nature, and 3) researchers at ANU lack essential walk-up access to high sensitivity protein sequence analysis (MS/MS). The placement of resources that address these deficiencies in one geographical region and collaboration between these institutions will produce a research interaction unique in Australia.Read moreRead less