Dissecting The Molecular Basis Of Actin Filament Disassembly In The Malaria Parasite
Funder
National Health and Medical Research Council
Funding Amount
$576,716.00
Summary
Cell movement by the malaria parasites is fundamental to parasite infection and disease. However, whilst core components of the parasite motor driving movement are known, little is understood about their regulation, in particular actin – the dynamic force behind all parasite motility. Here by dissecting the role of actin-depolymerizing-factor-1, an essential parasite actin regulator, we hope to reveal one of the central processes that underlies motility and develop it into a potential drug targe ....Cell movement by the malaria parasites is fundamental to parasite infection and disease. However, whilst core components of the parasite motor driving movement are known, little is understood about their regulation, in particular actin – the dynamic force behind all parasite motility. Here by dissecting the role of actin-depolymerizing-factor-1, an essential parasite actin regulator, we hope to reveal one of the central processes that underlies motility and develop it into a potential drug target.Read moreRead less
Dissecting The Molecular Mechanisms Behind Actin Filament Disassembly - An Essential Process In Malaria Parasite Cell Movement
Funder
National Health and Medical Research Council
Funding Amount
$311,860.00
Summary
The malaria parasite’s survival is reliant on efficient cell movement - a process that depends on the remodeling of the parasite actin cytoskeleton. The aim of this project is to understand how the actin cytoskeleton is disassembled when the parasite moves and to dissect the role of a key parasite protein, PfADF1, in the process. This project will elucidate fundamental insights into a key aspect of malaria parasite biology and, significantly, will shed light on how parasite movement can be inhib ....The malaria parasite’s survival is reliant on efficient cell movement - a process that depends on the remodeling of the parasite actin cytoskeleton. The aim of this project is to understand how the actin cytoskeleton is disassembled when the parasite moves and to dissect the role of a key parasite protein, PfADF1, in the process. This project will elucidate fundamental insights into a key aspect of malaria parasite biology and, significantly, will shed light on how parasite movement can be inhibited.Read moreRead less