Glycan-glycan Interactions Between Bacterial Pathogens And Host Cells: A Novel Mechanism Of Bacterial Adherence, A New Opportunity For Strategies To Treat And Prevent Disease And A New Paradigm In Interactions Between Macromolecules.
Funder
National Health and Medical Research Council
Funding Amount
$1,059,344.00
Summary
Cell surface carbohydrates are ubiquitous throughout nature. Human cell surface carbohydrates are specifically targeted by microbial proteins. These interactions are crucial in causing disease. We have recently shown that the carbohydrates on our cells and those on pathogenic bacteria can interact with one another. Understanding the nature and role of these newly discovered interactions may lead to strategies to block them via new drugs and vaccines.
Structural Characterization Of A Novel AB5 Cytoxin - SubAB
Funder
National Health and Medical Research Council
Funding Amount
$210,760.00
Summary
The proposed research program, using a combinantion of structural biology and biophysical techniques will provide insight into the role of novel AB5 toxin from E. coli. This study will not only improve our fundamental understanding the mode of action of this toxin from this devastating pathogen, but could lead to the design of rational antimicrobials. The knowledge gained will increase Australian international research profile.
This project concerns the basic biology of white blood cells called macrophages. Macrophages are required for the immediate defence against infection, as well as wound repair and normal turnover of tissues, but they can also produce toxic products that cause illness, especially in inflammatory diseases and cancer. We are attempting to use the availability of mouse genome information to produce a complete picture of the way that macrophages respond to a challenge from a potential disease-causing ....This project concerns the basic biology of white blood cells called macrophages. Macrophages are required for the immediate defence against infection, as well as wound repair and normal turnover of tissues, but they can also produce toxic products that cause illness, especially in inflammatory diseases and cancer. We are attempting to use the availability of mouse genome information to produce a complete picture of the way that macrophages respond to a challenge from a potential disease-causing microorganism, and the influence of genetic differences between individuals.Read moreRead less
Characterization Of A Novel Secretion And Attachment System Necessary For The Formation Of A Virulence Coat In Porphyromonas Gingivalis
Funder
National Health and Medical Research Council
Funding Amount
$828,857.00
Summary
In this study we will characterize a novel bacterial secretion system that we have discovered. This system mediates the secretion of proteins from the bacterial cell and their attachment to the cell surface. This system is essential for the virulence of a bacterium associated with severe gum disease. The chacterization of this system may offer opportunities for the development of new treatments to target this disease.