Detecting Bioactivity In A Naturally-occurring Aggrecan Fragment
Funder
National Health and Medical Research Council
Funding Amount
$407,634.00
Summary
The dynamic balance of anabolic and catabolic processes in healthy cartilage is disturbed in arthritis, with increased catabolism leading to irreparable cartilage damage. We will study the ability of a naturally-occuring aggrecan fragment to modulate cartilage catabolism. Our in vitro and in vivo experiments suggest that the aggrecan fragment limits cartilage destruction. This study tests our hypothesis that the aggrecan fragment antagonises cartilage damage and promote cartilage repair.
Discovery Early Career Researcher Award - Grant ID: DE240100449
Funder
Australian Research Council
Funding Amount
$426,600.00
Summary
Diversity Oriented Clicking - Streamlined Synthesis of Molecular Frameworks. Innovation in synthetic chemistry drives the discovery of new life-changing drugs, agrochemicals and functional materials. This project aims to use a novel chemical concept, termed Diversity Oriented Clicking, for new sustainable and streamlined synthetic transformations. The new chemical processes are expected to deliver improved economy, efficiency and precision in the synthesis of bioactive molecules and functional m ....Diversity Oriented Clicking - Streamlined Synthesis of Molecular Frameworks. Innovation in synthetic chemistry drives the discovery of new life-changing drugs, agrochemicals and functional materials. This project aims to use a novel chemical concept, termed Diversity Oriented Clicking, for new sustainable and streamlined synthetic transformations. The new chemical processes are expected to deliver improved economy, efficiency and precision in the synthesis of bioactive molecules and functional materials that are inaccessible or challenging to prepare with existing technologies. The conceptual and practical outcomes of this project are expected to benefit both academia and industry as the synthetic routes to diverse complex molecules can be greatly streamlined, and reducing chemical waste and required purification.Read moreRead less
Relaxin family peptides are small proteins that have numerous essential biological roles in the vascular system, brain and gut. The hormone relaxin is currently in Phase III clinical trials to treat heart failure and the other peptides show great potential as drugs to treat diseases including mental illnesses and obesity. My research focuses on developing drugs targeting the receptors for these important peptide systems and understanding how these drugs can be best used therapeutically
Novel Candidate Genes, Lung Function And Allergic Airways Disease
Funder
National Health and Medical Research Council
Funding Amount
$581,892.00
Summary
We propose to study airway remodelling (structural changes to the airway) and in asthma using human samples and rodent models of asthma. We are particularly interested in investigating the role of trefoil peptide 2 and relaxin, two genes identified as determining lung function. To do this we need to understand the mechanisms of airway remodelling and its impact on disease severity in the patient. A strength of this study is availability of samples from a large study of human asthma.
Biosynthetic Hooks for an Enigmatic Marine Toxin. This project aims to characterise the genetic basis for the production of tetrodotoxin; a potent neurotoxin of ecological and biomedical significance. We hypothesise that tetrodotoxin is produced by microorganisms and transferred via the food web to fish, molluscs and other marine animals. Our integrated genomic and synthetic biology approach, targeting key biosynthesis genes, will reveal pathways for the production of tetrodotoxin and other pote ....Biosynthetic Hooks for an Enigmatic Marine Toxin. This project aims to characterise the genetic basis for the production of tetrodotoxin; a potent neurotoxin of ecological and biomedical significance. We hypothesise that tetrodotoxin is produced by microorganisms and transferred via the food web to fish, molluscs and other marine animals. Our integrated genomic and synthetic biology approach, targeting key biosynthesis genes, will reveal pathways for the production of tetrodotoxin and other potentially valuable compounds. In addition to providing unprecedented insight into the ecology and biosynthesis of this enigmatic toxin, the data generated will enable improved management of seafood safety and provide a foundation for the future development of novel neuroactive compounds.Read moreRead less
The Bcl-2 family of proteins is crucial for apoptosis (a form of programmed cell death) regulation. They target the mitochondrial outer membrane where they interact to determine cell fate. We will evaluate the membrane interactions of the Bcl-2 proteins in complementary biophysical and cellular experiments to redefine our understanding of the mechanism of apoptosis and provide new avenues for the development of compounds to selectively modulate diseases in which apoptosis is unregulated.
Development Of Selective Melanocortin Receptor Agonists And Antagonists
Funder
National Health and Medical Research Council
Funding Amount
$684,607.00
Summary
Human melanocortin receptors play a key role in a variety of physiological processes ranging from energy regulation, skin pigmentation and regulation of food intake. This project aims to generate novel peptide based molecules that will selectively interact with different melanocortin receptors to better understand their pharmacology thereby opening the potential for future drug development for obesity, stroke or inflammatory skin disorders.