Function And Inhibition Of Plasmepsin V In Targeting Malaria Virulence Proteins Into Human Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$407,845.00
Summary
Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cel ....Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cell.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102263
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Export of effector proteins by P. falciparum to the infected red blood cell. Infection by the malaria parasite has lethal consequences for humans. The parasite exports hundreds of proteins via a translocon to commandeer the red blood cell. This project aims to determine the function of one of the major translocon components and determine if it is a viable target for anti-malarial drug development.
The ins and outs of HIV biology. This project aims to delineate the fundamental mechanisms that regulate the production of HIV and the ability of HIV to cause AIDS in infected patients. It will utilise state-of-the-art technologies to unearth new clues that govern the biology of HIV, with the ultimate goal to develop novel vaccine and treatment strategies against HIV.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100157
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Confocal and single molecule microscopes for systems microscopy. This project aims to establish Australia’s first system microscopy facility with dedicated live-cell confocal and single-molecule fluorescence microscopes. In systems microscopy, the imaging workflow is automated so that large and unbiased data sets of the spatiotemporal organisation of molecules and cells can be generated. Combined with statistical and bioinformatics analyses, image-derived data provides system-wide information th ....Confocal and single molecule microscopes for systems microscopy. This project aims to establish Australia’s first system microscopy facility with dedicated live-cell confocal and single-molecule fluorescence microscopes. In systems microscopy, the imaging workflow is automated so that large and unbiased data sets of the spatiotemporal organisation of molecules and cells can be generated. Combined with statistical and bioinformatics analyses, image-derived data provides system-wide information that is not easily obtainable with other approaches. The project will enable Australian researchers to image and analyse the full complexity of biological systems, potentially transforming cell biology, drug development and understanding the molecular basis of disease. It will also demonstrate how the capacity of microscopy facilities can be enhanced and bias in imaging data reduced by automating data acquisition and mining of image-based data.Read moreRead less
The role of phosphoinositides in endosomal maturation dynamics. This project aims to investigate the regulation of an intracellular compartment within a cell called endosomes, which plays critical roles in cellular homeostasis, signalling and pathogen entry. New knowledge is expected to be generated in understanding endosome maturation and the signalling events that drive this process using a unique, multidisciplinary approach combining state of the art imaging techniques and high throughput pro ....The role of phosphoinositides in endosomal maturation dynamics. This project aims to investigate the regulation of an intracellular compartment within a cell called endosomes, which plays critical roles in cellular homeostasis, signalling and pathogen entry. New knowledge is expected to be generated in understanding endosome maturation and the signalling events that drive this process using a unique, multidisciplinary approach combining state of the art imaging techniques and high throughput protein analysis. The anticipated outcomes will be to define the molecular steps that govern the membrane-bound machinery on endosomes that directs endosomal maturation. This should provide significant benefits in delineating a process that is linked to almost all aspects of cell life.Read moreRead less
Probing sexual transformation of the human malaria parasite, Plasmodium falciparum, using novel imaging modalities. Malaria parasites adopt a characteristic banana shape prior to sexual recombination; without this shape change disease transmission via mosquitoes cannot occur. This project will use advanced imaging technologies to study sexual recombination of malaria with a view to preventing the millions of deaths due to malaria each year.
A tale of two genomes: integrating mitochondrial biogenesis into the cell cycle and metabolic control. The human genome is cordoned into two distinct compartments in our cells. Most genes are in the nucleus, while a distinct set of genes are held within our mitochondria. Using yeast as a model organism, this project will provide a holistic view of how expression of the two genomes is coordinated.
Australian Laureate Fellowships - Grant ID: FL130100038
Funder
Australian Research Council
Funding Amount
$2,796,748.00
Summary
Molecular machines and bacterial cell biology. This project will deliver a detailed understanding and visual rendering of molecular machines at work on the surface of bacteria. This ground-breaking research provides unique training opportunities for research students and staff: with projects driving frontier technology, and the transfer of new technological capabilities to Australia.
Characterisation of membrane protein ubiquitination by MARCH ligases. The goal of the project is to understand how a family of enzymes called MARCHs regulate expression and localisation of immunoregulatory receptors within cells by post-translational addition of a small protein tag called Ubiquitin. The aims are to decipher the ubiquitination patterns produced by the MARCHs; identify the E2 ligases used by the MARCHs to produce distinct Ub codes; and apply a new proteomic pipeline to identify no ....Characterisation of membrane protein ubiquitination by MARCH ligases. The goal of the project is to understand how a family of enzymes called MARCHs regulate expression and localisation of immunoregulatory receptors within cells by post-translational addition of a small protein tag called Ubiquitin. The aims are to decipher the ubiquitination patterns produced by the MARCHs; identify the E2 ligases used by the MARCHs to produce distinct Ub codes; and apply a new proteomic pipeline to identify novel representative MARCH substrates in mice deficient in six different MARCHs. It is anticipated the project will reveal novel insights into a fundamental cell biological process of major significance for regulation of protein expression and trafficking in cells of the immune system.Read moreRead less
Membrane trafficking and endosome to trans-Golgi network retrograde pathways. This project will study newly discovered and essential transport highways in cells, which connect the secretory and internalisation pathways. This research will enhance understandings of how molecules are transported along specific highways in cells. By training students, the project will contribute to the expertise of cell biology in Australia.