Structure and Function of the AMP-activated protein kinase. The AMP-activated protein kinase (AMPK) is a member of the metabolic stress sensing protein kinase subfamily that is present in all eukaryotes, including the yeast homologue, snf1p protein kinase essential for adapting to growth without glucose. The AMPK plays an important role in matching metabolism to nutrient supply and energy demand of perhaps all physiological processes. The aim of this project is to understand the structure and ....Structure and Function of the AMP-activated protein kinase. The AMP-activated protein kinase (AMPK) is a member of the metabolic stress sensing protein kinase subfamily that is present in all eukaryotes, including the yeast homologue, snf1p protein kinase essential for adapting to growth without glucose. The AMPK plays an important role in matching metabolism to nutrient supply and energy demand of perhaps all physiological processes. The aim of this project is to understand the structure and function of the AMPK. This work may provide important opportunities for drug design, understanding the impact of metabolism and ageing as well as increasing our knowledge of signalling pathways that control cellular events.Read moreRead less
The control of elongation factor 2 and its role in the regulation of protein synthesis. Protein synthesis is a key process in living cells. The main stage, elongation, is regulated through phosphorylation of elongation factor eEF2 in response to hormones, amino acids and cellular energy status, via changes in the activity of eEF2 kinase. We will study how these conditions control eEF2 kinase by studying its phosphorylation and identifying new kinases that regulate it. We will explore the role of ....The control of elongation factor 2 and its role in the regulation of protein synthesis. Protein synthesis is a key process in living cells. The main stage, elongation, is regulated through phosphorylation of elongation factor eEF2 in response to hormones, amino acids and cellular energy status, via changes in the activity of eEF2 kinase. We will study how these conditions control eEF2 kinase by studying its phosphorylation and identifying new kinases that regulate it. We will explore the role of eEF2 in controlling protein synthesis, seek new substrates for eEF2 kinase and initiate work to elucidate the structure of this unusual enzyme. This will enhance, in a range of ways, fundamental understanding of cell physiology.Read moreRead less
Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ....Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ageing as well as suppress age onset diseases that include obesity diabetes cardiovascular disease hypertension and neurodegeneration.Read moreRead less
Systems therapeutics for metabolism: AMPK isoform specific drugs. Living cells have to maintain a steady balance between energy production and consumption in order to function properly. A key regulator of energy balance is an enzyme known as 5' AMP-activated protein kinase (AMPK), which regulates the burning and storage of fuels such as fat and sugars, in response to changes in energy demand. This project will provide a major advancement in our understanding of the regulation of AMPK at the mo ....Systems therapeutics for metabolism: AMPK isoform specific drugs. Living cells have to maintain a steady balance between energy production and consumption in order to function properly. A key regulator of energy balance is an enzyme known as 5' AMP-activated protein kinase (AMPK), which regulates the burning and storage of fuels such as fat and sugars, in response to changes in energy demand. This project will provide a major advancement in our understanding of the regulation of AMPK at the molecular level, and lay the foundations for the development of more effective drugs to treat energy balance disorders such as obesity and Type 2 diabetes. Furthermore, this proposal will contribute to enriching Australia's international profile and competitiveness in this important area of research.Read moreRead less