The Role Of Novel And Essential Bromodomain Proteins In Coordinating Malaria Parasite Gene Regulation And Their Potential As Anti-malarial Targets
Funder
National Health and Medical Research Council
Funding Amount
$689,034.00
Summary
Malaria kills over 400,000 people a year and new therapies are needed. Malaria parasites activate groups of genes by novel mechanisms that could be targeted by drugs. We will characterise a novel group of proteins to identify those that activate genes essential for parasite survival. We will also search for molecules that inhibit the proteins and kill malaria parasites. Thus we will discover how parasites control their genes and identify drug targets and inhibitors for drug development.
Functional Dissection Of The Malaria RhopH Complex And Its Contribution To New Permeation Pathways
Funder
National Health and Medical Research Council
Funding Amount
$604,718.00
Summary
The ability of Plasmodium to invade and remodel its host erythrocyte are the most significant contributors to its ability to cause the disease malaria. This project aims to understand how proteins secreted from a specialized rhoptry organelle during erythrocyte invasion help Plasmodium to remodel the erythrocyte so that the parasite can gain access to the vital nutrients it requires for survival. This research will validate whether drugs targeting the rhoptry proteins are viable drug targets.
Identifying Malaria PfEMP1 Proteins That Elicit Antibodies Associated With Protection From Cerebral Malaria
Funder
National Health and Medical Research Council
Funding Amount
$494,117.00
Summary
The malaria parasite changes molecules it uses to cause disease, this alters its appearance so it can escape people's immune response. However some of these molecules are similar in the parasites that cause the most severe disease. We aim to identify these similar molecules because they may make useful vaccines for protecting people from severe malaria disease.