Understanding the molecular basis of heparanase activity. This project aims to advance our understanding of the structure and impact on biological processes of heparanase (HSPE), an enzyme of critical importance. HSPE’s ability to interact with heparan sulfate (HS), a key component of the extracellular matrix and basement membranes, makes HPSE a pivotal enzyme in many important physiological and disease-related processes ranging from angiogenesis, tumour metastasis, inflammation, hair follicle ....Understanding the molecular basis of heparanase activity. This project aims to advance our understanding of the structure and impact on biological processes of heparanase (HSPE), an enzyme of critical importance. HSPE’s ability to interact with heparan sulfate (HS), a key component of the extracellular matrix and basement membranes, makes HPSE a pivotal enzyme in many important physiological and disease-related processes ranging from angiogenesis, tumour metastasis, inflammation, hair follicle development to wrinkle formation. The knowledge gained through this project is expected to provide new insight into the interaction between HSPE and HS/HSPG to reveal new pathways to the development of inhibitors to treat diseases such as cancer and diabetes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100015
Funder
Australian Research Council
Funding Amount
$405,000.00
Summary
Global positioning system for small molecules: accelerating lead discovery. This project aims to establish a tool to accelerate lead generation from very small molecules. This will shift the paradigm in the identification of small molecules that can serve as lead compounds for the development of specific probes or drugs. This project offers a new strategy to rapidly generate lead compounds from a library of compound fragments. The new approach is expected to facilitate identification and develop ....Global positioning system for small molecules: accelerating lead discovery. This project aims to establish a tool to accelerate lead generation from very small molecules. This will shift the paradigm in the identification of small molecules that can serve as lead compounds for the development of specific probes or drugs. This project offers a new strategy to rapidly generate lead compounds from a library of compound fragments. The new approach is expected to facilitate identification and development of new lead molecules, drawing on advances made in the field of fragment-based lead discovery, which is increasingly used in the pharmaceutical industries. The tools developed can also be applied for imaging of biological processes. By developing new technologies, the project should deliver intellectual property with potential for commercialisation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100142
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
An integrated liquid chromatography mass spectrometry nuclear magnetic resonance (LC-MS-NMR) facility for applications in proteomics and organic chemistry. This application completes the requested liquid chromatography mass spectrometry nuclear magnetic resonance (LCMS-NMR) facility and will allow the training of over 150 researchers, significantly enhancing their research productivity and translation of outcomes in areas of national importance. New breakthroughs in drug development, smart mate ....An integrated liquid chromatography mass spectrometry nuclear magnetic resonance (LC-MS-NMR) facility for applications in proteomics and organic chemistry. This application completes the requested liquid chromatography mass spectrometry nuclear magnetic resonance (LCMS-NMR) facility and will allow the training of over 150 researchers, significantly enhancing their research productivity and translation of outcomes in areas of national importance. New breakthroughs in drug development, smart materials, organic electronic materials and biomedical research require routine access to cutting edge technology. The LCMS-NMR augments the capabilities of our research teams at the forefront of these efforts. These include understanding the impact of the environment on plant and animal development, pest animal control, development of new biotechnology tools, new drugs and new methods for the detection of narcotics and explosives.Read moreRead less
ARC Centre of Excellence for Innovations in Peptide and Protein Science. The ARC Centre of Excellence for Innovations in Peptide and Protein Science (CIPPS) strives to build a critical understanding of peptides and proteins in order to unleash the potential of these biomolecules for human benefit. We will discover nature’s untapped reservoir of peptides and proteins, decode their structures and functions, and
develop enhanced synthetic technologies to address biology’s next grand challenge—the d ....ARC Centre of Excellence for Innovations in Peptide and Protein Science. The ARC Centre of Excellence for Innovations in Peptide and Protein Science (CIPPS) strives to build a critical understanding of peptides and proteins in order to unleash the potential of these biomolecules for human benefit. We will discover nature’s untapped reservoir of peptides and proteins, decode their structures and functions, and
develop enhanced synthetic technologies to address biology’s next grand challenge—the design of peptides and proteins for targeted scientific, agricultural, biotechnology, animal health and pharmaceutical applications. CIPPS will assemble leading researchers from diverse disciplines to create a sustainable national entity that will drive new Australian industries and train next generation researchers.Read moreRead less