Molecular Approaches To Cardiac Development, Disease And Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
Prof Harvey’s work explores the molecular and cellular networks that underpin heart development in the embryo and heart regeneration in the adult, and how these networks unravel in heart disease. Based on this knowledge, his work seeks to develop novel approaches for alleviating suffering in babies with congenital heart defects and adults enduring the devastating consequences of heart attack or heart failure.
Molecular Pathways Linking Nutrition And Age-related Health
Funder
National Health and Medical Research Council
Funding Amount
$376,012.00
Summary
Nutrition is the major modifiable factor that influences age-related health. Yet the relationships between nutrition, age-related health and underlying biological mechanisms are complex and poorly understood. We will tame this complexity by applying nutritional geometry and systems biology to nutrient sensing pathways and ageing phenotype across a macronutrient landscape. This will allow us to optimise diets and develop drugs to improve age-related health and extend healthspan.
Redirecting Carbon Flow through Mesophyll and Bundle Sheath Cells of Sugarcane to Produce Poly-3-Hydroxybutyrate. This project is part of the National Priorities "Frontier Technologies for Building and Transforming Australian Industries." Using innovative plant metabolic engineering technologies combined with sophisticated computer modeling we are generating green plants that produce renewable, biodegradable, bioplastics possessing properties such that they are suitable replacements for petrol ....Redirecting Carbon Flow through Mesophyll and Bundle Sheath Cells of Sugarcane to Produce Poly-3-Hydroxybutyrate. This project is part of the National Priorities "Frontier Technologies for Building and Transforming Australian Industries." Using innovative plant metabolic engineering technologies combined with sophisticated computer modeling we are generating green plants that produce renewable, biodegradable, bioplastics possessing properties such that they are suitable replacements for petroleum-derived products in many applications. During the course of these studies, we are increasing our basic level of understanding of plant metabolism of important bioenergy crops. The production of renewable, bioplastics in sugarcane will help to diversify the Australian sugarcane industry by providing a value-added product with significant world-wide markets.Read moreRead less
Niemann Pick Disease Type C And Intracellular Sterol Trafficking
Funder
National Health and Medical Research Council
Funding Amount
$317,741.00
Summary
Abnormal distribution of cellular cholesterol causes Nieman Pick Disease type C (NP-C), and is also strongly associated with common neurodegenerative diseases such as Alzheimer's disease. We aim to understand the molecular mechanisms by which cholesterol is sorted and transported in the cell. Our results may help develop effective therapeutic strategies against NP-C, Alzheimers' disease and other cholesterol related disorders.
The cell wall substrate delivery mechanisms in plants. This project aims to study the delivery of substrates plants need to biosynthesise sugar polymers. Sugar polymers play key structural and functional roles in plant development and determine quality for all plant-based products including food, textile fibres, building materials and renewable biomass. However, unknown mechanisms regulate and control the transport mechanisms that deliver the building blocks for polysaccharide biosynthesis. This ....The cell wall substrate delivery mechanisms in plants. This project aims to study the delivery of substrates plants need to biosynthesise sugar polymers. Sugar polymers play key structural and functional roles in plant development and determine quality for all plant-based products including food, textile fibres, building materials and renewable biomass. However, unknown mechanisms regulate and control the transport mechanisms that deliver the building blocks for polysaccharide biosynthesis. This project is expected to increase understanding of nucleotide sugar transport and develop and enhance the biological toolbox for applications involving modelling and engineering of plants, synthesis of industrial biopolymers and production of functional foods.Read moreRead less
Sleeping snails: investigating hypometabolism to reveal critical factors that aid life extension. The apparent state of eternal dormancy has fascinated people for hundreds of years. This project will explore new frontiers in life extension and snail control by defining those genes and peptides involved in snail hypometabolism. To achieve this, the project will interrogate the snails' natural state of hypometabolism called estivation.
Physiological Function Of Nedd4-2 In Regulating The Epithelial Sodium Channel
Funder
National Health and Medical Research Council
Funding Amount
$805,797.00
Summary
The epithelial sodium channel (ENaC) controls sodium balance, blood volume and blood pressure. Abnormal regulation of ENaC is associated with conditions such as hypertension and pulmonary oedema. Delineating the regulation of ENaC is vital in understanding disease mechanisms and in defining targets for novel therapeutics for the treatment of disorders that arise due to sodium imbalance. This grant will enable us to understand how ENaC is regulated by a novel protein known as Nedd4-2.
Molecular-genetic organization and evolution of dinoflagellate mitochondria. Dinoflagellates are unicellular organisms that are important parts of the biota as significant primary producers of the oceans. Certain dinoflagellates form essential symbionts of reef-forming corals and loss of the symbiont causes coral bleaching and death, a phenomenon linked to global warming. Dinoflagellate blooms are also notorious for causing fish kills and human illnesses such as paralytic shellfish poisoning. My ....Molecular-genetic organization and evolution of dinoflagellate mitochondria. Dinoflagellates are unicellular organisms that are important parts of the biota as significant primary producers of the oceans. Certain dinoflagellates form essential symbionts of reef-forming corals and loss of the symbiont causes coral bleaching and death, a phenomenon linked to global warming. Dinoflagellate blooms are also notorious for causing fish kills and human illnesses such as paralytic shellfish poisoning. My studies of the mitochondrion will address a major aspect of the biology of this poorly understood group. Mitochondrial function is often a target for drugs and other controlling agents, and therefore these studies could offer scope to better interpret and manage dinoflagellates in our environment.Read moreRead less
The Hippo/Yap Pathway Reprograms Glucose Metabolism To Fuel Tissue Growth.
Funder
National Health and Medical Research Council
Funding Amount
$659,105.00
Summary
Liver disease is a common cause of sickness and death in Australia. While factors critical to liver function are known, the cellular networks responsible for causing liver cancer are largely undefined. Our studies will use zebrafish as a model to study how the circuit known as the Hippo pathway reprograms metabolism to promote liver cancer. These studies will enhance our understanding how metabolism regulates liver growth and identify therapeutic targets to combat liver cancer.
A unified model of amino acid homeostasis. This project aims to develop a unified model of amino acid homeostasis in mammalian cells and apply it to brain cells. The model will be underpinned by a mathematical algorithm that allows predicting amino acid levels in the cytosol based on fundamental parameters such as transport and metabolism. This project should provide the significant benefit of enabling the prediction of essential functions such as cell growth and survival.