Structural Analysis Of Poxvirus Immature Particles And Spheroids
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
Despite the eradication of smallpox by vaccination, poxviruses remain a threat to public health because of bioterrorist scares from kept variola stocks and because of the possible emergence of other poxvirus pathogens from the extensive animal reservoir. The structural analysis of the assembly of poxvirus will not only improve our knowledge of fundamental processes, highly conserved in DNA viruses, but could also provide valuable targets for the rational design of antiviral drugs.
RECOMBINANT MALARIAL PYRIMIDINE ENZYMES AS DRUG TARGETS
Funder
National Health and Medical Research Council
Funding Amount
$229,750.00
Summary
Malarial parasites have now developed resistance to most of the available drugs and there is an urgent need for drugs with new mechanisms of action. Institutions collaborating on the Malarial Genome Project have sequenced the majority of DNA in the 14 chromosomes. The nucleotide sequence available on the internet contains thousands of open reading frames (ORFs) which encode proteins essential for survival of the parasite. Many of these proteins are enzymes which are suitable targets for drug dev ....Malarial parasites have now developed resistance to most of the available drugs and there is an urgent need for drugs with new mechanisms of action. Institutions collaborating on the Malarial Genome Project have sequenced the majority of DNA in the 14 chromosomes. The nucleotide sequence available on the internet contains thousands of open reading frames (ORFs) which encode proteins essential for survival of the parasite. Many of these proteins are enzymes which are suitable targets for drug development. A knowledge of the molecular architecture of the active site of such enzymes provides a template for drug design. The malarial parasite, Plasmodium falciparum, can only synthesise pyrimidine nucleotides for DNA via the de novo pyrimidine pathway. We have cloned the genes encoding three of the enzymes of the de novo pathway using sequence information from the Malarial Genome Project. Dihydroorotase, orotate phosphoribosyltransferase, and OMP decarboxylase, catalyse reactions 3, 5 and 6 of the pathway. We have expressed these enzymes in the bacterium Escherichia coli enabling large-scale production of these drug targets. We propose to characterise the catalytic and inhibitory properties of these enzymes, and grow protein crystals for determination of atomic structures by x-ray diffraction. The structures will provide templates for rational design of new antimalarial drugs. In a second approach for develoment of new drugs, the 3 malarial enzymes will be screened against chemical libraries for inhibition of catalytic activity. The initial screen will utilise a high throughput Biacore 3000 instrument which detects strong interactions between a target enzyme and candidate inhibitors. A thorough knowledge of the catalytic mechanisms, the three-dimensional structures and novel first generation inhibitors of these 3 malarial target enzymes, will provide a strong basis for development of new antimalarial drugs.Read moreRead less
A Functional And Structural Approach To Understanding Leptospiral Host-pathogen Interactions
Funder
National Health and Medical Research Council
Funding Amount
$504,097.00
Summary
Leptospirosis is a zoonosis of worldwide distribution caused by infection with pathogenic Leptospira. Infection occurs due to contact with water contaminated by urine of domestic animals. It occurs infrequently in Australia, but recent local surveillance data indicate hospitalisation rate of 56% with an average duration of 5.3 days. Through the combined approach of structural biology and functional microbiology we hope to understand how leptospira interacts with the human host.
Structural Characterization Of Novel AB5 Cytotoxin - SubAB
Funder
National Health and Medical Research Council
Funding Amount
$445,011.00
Summary
AB5 toxins are virulence factors from a range of pathogenic bacteria, including Shiga toxigenic E. coli (STEC), S. dysenteriae, V. cholerae, and B. pertussis. AB5 toxins comprise a catalytic A subunit that disrupts distinct essential cellular processes within the cell and a receptor binding, pentameric B subunit that enables the toxin to target certain cell types. We are structural characterizing a novel AB5 toxin that targets an essential component of the cellular machinery.
Inhibition Of Histidine Kinase Signal Sensing: A Novel Paradigm For Antimicrobial Development
Funder
National Health and Medical Research Council
Funding Amount
$464,144.00
Summary
Staphylococcus aureus (Golden staph) has been termed a superbug because of its remarkable ability to acquire resistance to virtually all antibiotics. Until recently, Golden Staph infections were almost always acquired in hospitals, but the increasing incidence of community-acquired S. aureus infections has rendered it a major public health threat in Australia. The aim of this research is to develop antimicrobial agents to combat antibiotic-resistant strains of Staphylococcus aureus.