Discovery Early Career Researcher Award - Grant ID: DE230101536
Funder
Australian Research Council
Funding Amount
$473,824.00
Summary
How does heme regulate blood vessel formation in the brain? There are more than 600 kilometres of blood vessels in the brain, all of which are lined by tightly packed cells that protect the brain from toxins. My research aims to investigate how these blood vessels are formed. This project expects to reveal the role that a critical signalling molecule called heme plays in this fundamental biological process. I will use cutting-edge structural biology and biophysical techniques to uncover the mole ....How does heme regulate blood vessel formation in the brain? There are more than 600 kilometres of blood vessels in the brain, all of which are lined by tightly packed cells that protect the brain from toxins. My research aims to investigate how these blood vessels are formed. This project expects to reveal the role that a critical signalling molecule called heme plays in this fundamental biological process. I will use cutting-edge structural biology and biophysical techniques to uncover the molecular mechanisms that allow heme to enter cells and regulate blood vessel growth in the brain. The outcomes of this research will enhance our understanding of the brain’s core infrastructure and will contribute to an understanding of how cerebral blood vessels grow and maintain integrity. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100050
Funder
Australian Research Council
Funding Amount
$1,681,491.00
Summary
A national network for magnetic resonance spectroscopy. Our proposed network of high-end facilities for solid-state nuclear magnetic resonance spectroscopy aims to establish cutting-edge capabilities nationally for molecular and materials characterisation. The new infrastructure will enable advanced studies in chemistry, drug design, materials science, and environmental sciences. The expected outcomes include new discoveries, innovative applications, and potential commercialisation of new produc ....A national network for magnetic resonance spectroscopy. Our proposed network of high-end facilities for solid-state nuclear magnetic resonance spectroscopy aims to establish cutting-edge capabilities nationally for molecular and materials characterisation. The new infrastructure will enable advanced studies in chemistry, drug design, materials science, and environmental sciences. The expected outcomes include new discoveries, innovative applications, and potential commercialisation of new products, which will bring significant economic benefits to the Australian economy. Additionally, the network will foster collaborations with international researchers and industry partners in areas of biotechnology, energy capture and storage, and environmental sustainability.Read moreRead less
A peptide platform to fight pests threatening global food security. This project aims to develop a platform technology for the efficient design of new crop protection agents based on peptides to protect Australia’s food security. It will be first applied against the highly destructive fall armyworm, currently spreading alarmingly in Australia. The project is significant because insect pests cause huge economic and environmental impacts. Peptides are a new generation of crop protection agents tha ....A peptide platform to fight pests threatening global food security. This project aims to develop a platform technology for the efficient design of new crop protection agents based on peptides to protect Australia’s food security. It will be first applied against the highly destructive fall armyworm, currently spreading alarmingly in Australia. The project is significant because insect pests cause huge economic and environmental impacts. Peptides are a new generation of crop protection agents that are potentially more effective and sustainable than chemical pesticides. Expected outcomes are a new rapid response technology and associated lead molecules to protect against current and emerging pests. Major benefits are increased food security, improved crop yields and a more sustainable agriculture industry. Read moreRead less
Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools ....Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools to study protein structure, protein-protein association and protein-ligand interactions of established drug-targets. Expected outcomes include new techniques that quickly inform how drugs work, providing significant benefits to many researchers studying biomolecules, and supporting Australia’s growing biotechnology sector. Read moreRead less