Regulation of cell surface sialylation by targeting the CMP-sialic acid transporter and sialyltransferase: Towards the development of anti-metastatic agents. The mortality rates for many of the cancers afflicting the world's population are mirrored in Australia, particularly colon cancer. It's generally accepted that colon cancer, and cancers as a whole, are a significant healthcare issue in this country, representing a major challenge to biomedical researchers and healthcare professional. The e ....Regulation of cell surface sialylation by targeting the CMP-sialic acid transporter and sialyltransferase: Towards the development of anti-metastatic agents. The mortality rates for many of the cancers afflicting the world's population are mirrored in Australia, particularly colon cancer. It's generally accepted that colon cancer, and cancers as a whole, are a significant healthcare issue in this country, representing a major challenge to biomedical researchers and healthcare professional. The economic and social impact is immense, placing a huge strain on the healthcare system, as well as on the families affected. Any alternative treatment reducing cancer metastasis would be of enormous national and international benefit. It's believed that the significant studies outlined in this proposal, which are based on exciting preliminary data, will make a sizeable contribution to achieving this goal.Read moreRead less
Host-pathogen interactions: the role of mimicry. The proposed research program, using a combination of structure and functional analysis will provide insight into the mechanism of nucleotide hydrolysis by the enzymes NTPDases. This study will not only improve our fundamental understanding of NTPDase action but could lead to the rational design of antimicrobials.
Modulation of cellular metabolism by protein and peptide peroxides. Oxidation of peptides and proteins by a wide range of reactive radicals and other oxidants, in the presence of oxygen, generates protein peroxides. These species are now recognised to be key intermediates in both the deterioration of foods (e.g. development of rancidity and off-flavours, changes in colour and texture) and a number of human diseases, including cancer, heart disease and ageing. How these peroxides cause biological ....Modulation of cellular metabolism by protein and peptide peroxides. Oxidation of peptides and proteins by a wide range of reactive radicals and other oxidants, in the presence of oxygen, generates protein peroxides. These species are now recognised to be key intermediates in both the deterioration of foods (e.g. development of rancidity and off-flavours, changes in colour and texture) and a number of human diseases, including cancer, heart disease and ageing. How these peroxides cause biological perturbations is poorly understood. The proposed studies will provide valuable information as to how these peroxides affect cellular metabolism and provide key leads as to strategies which may prevent such damage.Read moreRead less
Mechanistic studies on the oxidation of amino acids, peptides and proteins and its biological consequences. Exposure of amino acids and proteins to radicals, oxidants, UV light, and metal ions results in oxidation, with consequent alteration to protein structure and function. It has been shown that these reactions occur during food spoilage, exposure of plants to excess UV light, and in a number of human diseases (e.g. heart disease and cancer). Despite evidence for a key role for protein oxidat ....Mechanistic studies on the oxidation of amino acids, peptides and proteins and its biological consequences. Exposure of amino acids and proteins to radicals, oxidants, UV light, and metal ions results in oxidation, with consequent alteration to protein structure and function. It has been shown that these reactions occur during food spoilage, exposure of plants to excess UV light, and in a number of human diseases (e.g. heart disease and cancer). Despite evidence for a key role for protein oxidation in these events, the fundamental chemistry and biochemistry of protein oxidation is incompletely understood. This is addressed in this project. Knowledge of the mechanisms of these reactions is a vital pre-requisite to the rational design of preventative strategies that might enhance food quality, minimise UV damage and enhance human health.Read moreRead less
Explaining the differences in affinity and of carbohydrate binding of the glycogen-sensing enzyme, AMP-protein activated kinase (AMPK). This project will provide fundamental molecular knowledge of how a complex enzyme, AMPK is controlled by the major sugar molecule, glycogen. Our research will increase our understanding of its role in metabolic diseases such as Type 2 diabetes and obesity.
Molecular Interactions in the Eubacterial Replisome: A Paradigm for Study of Dynamic Macromolecular Machines. Many pathogenic bacteria have developed resistance to antibiotics in common use, and new drugs are urgently required to kill them. Copying of their chromosomes before they divide into two new cells is essential for bacteria to live, so DNA synthesis is a good process to target for development of new antibiotics. This project will use state-of-the-art equipment available in several labora ....Molecular Interactions in the Eubacterial Replisome: A Paradigm for Study of Dynamic Macromolecular Machines. Many pathogenic bacteria have developed resistance to antibiotics in common use, and new drugs are urgently required to kill them. Copying of their chromosomes before they divide into two new cells is essential for bacteria to live, so DNA synthesis is a good process to target for development of new antibiotics. This project will use state-of-the-art equipment available in several laboratories in Australia and overseas to develop new understanding of how the molecular machine that copies DNA works. This k nowledge could lead to new drugs, and will give us new information about how cellular machines function.Read moreRead less
Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set ....Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set of protease-based signal transducers and ligand activated allosteric receptors will be created. The developed components are intended to be used to construct artificial signaling networks in mammalian cells that are orthogonal to the endogenous signaling cascades.Read moreRead less
Macrocyclic Peptidomimetics. Proteins and peptides are among the most exquisite examples of hosts/guests for molecular recognition. Composed of amino acid building blocks, peptides are highly flexible and structurally promiscuous, switching between multiple structures (random/strand/sheet/turn/helical) in solution. Peptides pay a significant entropy penalty to organize into the one structure recognised by a biological receptor and responsible for activity. We are developing new macrocycles, comp ....Macrocyclic Peptidomimetics. Proteins and peptides are among the most exquisite examples of hosts/guests for molecular recognition. Composed of amino acid building blocks, peptides are highly flexible and structurally promiscuous, switching between multiple structures (random/strand/sheet/turn/helical) in solution. Peptides pay a significant entropy penalty to organize into the one structure recognised by a biological receptor and responsible for activity. We are developing new macrocycles, composed of molecular constraints and amino acids, organized into specific strand, turn, or helical shapes. These building blocks are more structured, more chemically stable, and have higher receptor affinities than peptides enabling potential uses as new biological tools, drug leads, catalysts, devices or new materials.Read moreRead less
The design and synthesis of angiotensin converting enzyme-2 (ACE2) inhibitors. A vast number of current drugs on the market are inhibitors of enzymes whose action needs to be controlled in order to treat many conditions. This proposal will apply our new approaches to the design of enzyme inhibitors with superior therapeutic action. The benefits of this research reside in new treatments for a range of cardiovascular diseases (the 3rd largest cause of mortality in Australia) and provide a platform ....The design and synthesis of angiotensin converting enzyme-2 (ACE2) inhibitors. A vast number of current drugs on the market are inhibitors of enzymes whose action needs to be controlled in order to treat many conditions. This proposal will apply our new approaches to the design of enzyme inhibitors with superior therapeutic action. The benefits of this research reside in new treatments for a range of cardiovascular diseases (the 3rd largest cause of mortality in Australia) and provide a platform for new biotech companies to be formed in Australia.Read moreRead less
Investigating the structure, function and inhibition of the adrenaline-synthesizing enzyme PNMT. We determined the structure of the enzyme PNMT and we plan to use this in the design of PNMT inhibitors to enable us to probe the role of adrenaline and PNMT in the central nervous system. As part of this work, we will further characterise the structure of PNMT by crystallography and mutagenesis. The significance is that designed PNMT inhibitors could eventually be used as leads in the development of ....Investigating the structure, function and inhibition of the adrenaline-synthesizing enzyme PNMT. We determined the structure of the enzyme PNMT and we plan to use this in the design of PNMT inhibitors to enable us to probe the role of adrenaline and PNMT in the central nervous system. As part of this work, we will further characterise the structure of PNMT by crystallography and mutagenesis. The significance is that designed PNMT inhibitors could eventually be used as leads in the development of compounds with novel pharmacological and therapeutic activity. Furthermore, our analysis of PNMT will determine rules that can be applied to the design of new methyltransferase enzymes with novel functions.Read moreRead less