Mechanisms Underlying APOBEC3G Restriction Of HIV-1
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
In the fight against worldwide HIV-AIDS, understanding natural cell defenses to the HIV virus may identify new virus targets and strategies to block HIV in humans. Here, we will use state-of-the-art, high resolution, fluorescent microscopy to understand how the recently identified cell protein, APOBEC3G, blocks the HIV life cycle in human cells. We anticipate that APOBEC3G will stop HIV from invading the nucleus of human cells to defend against HIV, a strategy we can apply to new therapies.
Development Of Site-specific Predictive Assay For Periodontal Disease Progression Using Mass Spectrometric &RT- PCR Anal
Funder
National Health and Medical Research Council
Funding Amount
$150,000.00
Summary
In this project new DNA-based technology will be developed to determine the numbers of specific bacteria in the dental plaque of patients. The project will also use new mass spectrometric analysis techniques for the determination of compounds in gingival crevicular fluid, an exudate from the gums. These two techniques will be used in a clinical trial to determine if periodontal (gum) disease progression can be predicted by changes in the numbers of bacteria or in the composition of gingival crev ....In this project new DNA-based technology will be developed to determine the numbers of specific bacteria in the dental plaque of patients. The project will also use new mass spectrometric analysis techniques for the determination of compounds in gingival crevicular fluid, an exudate from the gums. These two techniques will be used in a clinical trial to determine if periodontal (gum) disease progression can be predicted by changes in the numbers of bacteria or in the composition of gingival crevicular fluid. This could provide insight into the development of periodontal disease and lead to new preventive and treatment regimes.Read moreRead less
Investigating Cytoskeletal Dynamics Across The Lifecycle Of The Malaria Parasite
Funder
National Health and Medical Research Council
Funding Amount
$387,741.00
Summary
During its lifecycle the malaria parasite must cross tissues and invade cells in two very different hosts - humans and mosquitos. Although the molecules that drive this process are known, we know nothing about their dynamics in live parasites. Here, we will use state-of-the art microscopy and genetics to dissect parasite motility, tracking proteins in the parasite cell on their journey from human host through to the mosquito - utilising the first Australian malaria-dedicated insectary.