Red Cell Polymorphisms and Malaria. Certain red blood cell disorders have been associated with innate protection against malaria infection. However many early studies were inconclusive. We intend to carry out a comprehensive study to investigate the effect of red blood cell differences on the invasion and/or growth of Plasmodium falciparum in vitro using improved techniques. Identification of red cell components involved in interaction with P.falciparum would give a better understanding of host ....Red Cell Polymorphisms and Malaria. Certain red blood cell disorders have been associated with innate protection against malaria infection. However many early studies were inconclusive. We intend to carry out a comprehensive study to investigate the effect of red blood cell differences on the invasion and/or growth of Plasmodium falciparum in vitro using improved techniques. Identification of red cell components involved in interaction with P.falciparum would give a better understanding of host parasite interactions which may in turn suggest novel approaches or pathways to persue. This may eventually lead to the development of novel therapeutics.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561013
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
X-ray diffraction System for Protein Crystallography and Structural Biology. Knowledge of protein structures enables researchers to explain cellular function at a molecular level. In particular, it provides essential information to understand the mechanism of diseases, such as cancer or AIDS, and it ultimately leads to the design of better drugs.
An in-house X-ray protein crystallography facility will allow us to determine the structures of key proteins effectively and competitively, opening up ....X-ray diffraction System for Protein Crystallography and Structural Biology. Knowledge of protein structures enables researchers to explain cellular function at a molecular level. In particular, it provides essential information to understand the mechanism of diseases, such as cancer or AIDS, and it ultimately leads to the design of better drugs.
An in-house X-ray protein crystallography facility will allow us to determine the structures of key proteins effectively and competitively, opening up extensive possibilities for multi-disciplinary ground-breaking research.
The University research portfolio has evolved to embrace the revolution in structural biology with numerous projects and collaborations focusing on proteins involved in bacterial infections, degenerative disorders and biotechnological applications.Read moreRead less