Diene regenerative Diels-Alder reactions to access chemical scaffolds. This project aims to develop methods and strategies that allow rapid access to biologically active chemical scaffolds based on natural products. Natural products and their analogues are vital starting points for drug discovery as they provide unique chemical diversity. Without efficient methods for their production, it is not possible to exploit this diversity. This project will develop an efficient, modular strategy that wil ....Diene regenerative Diels-Alder reactions to access chemical scaffolds. This project aims to develop methods and strategies that allow rapid access to biologically active chemical scaffolds based on natural products. Natural products and their analogues are vital starting points for drug discovery as they provide unique chemical diversity. Without efficient methods for their production, it is not possible to exploit this diversity. This project will develop an efficient, modular strategy that will allow the preparation of a wide range of chemicals in a timely manner. Restoring access to potent biologically active materials is expected to generate chemical probes and lead to molecules that could have biomedical value.Read moreRead less
New strategies for the stereoselective synthesis of Stemona alkaloids and the discovery of new bioactive molecules. The project aims to develop innovative methods to prepare bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. These products would be of benefit to Australians in the future.
New methods for the chemical synthesis of a library of glycopeptide-based tri-component cancer vaccines. A novel method for the synthesis of tumour-associated glycopeptides will be developed in this research as well as the preparation of a library of glycopeptide-based cancer vaccines. These vaccines will be tested in immunological studies with a view to elucidating new immune-based therapies for the treatment of cancer.
Discovery Early Career Researcher Award - Grant ID: DE140101632
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Development of Innovative Chemical Tools for Studying Glycosyltransferases . This project aims to develop chemical probes capable of selectively binding and inhibiting two classes of carbohydrate processing enzymes known as O-linked beta-N-acetylglucosamine transferase and sialyltransferases. These enzymes are overexpressed in various cancers and play critical roles in cancer progression. Probes will be developed to analyse the activities of these enzymes in cancer cells.
Synthesis of novel biologically active isoflavones. Cancer and heart disease are two of the main diseases that affect our society indiscriminately and put enormous drains on our health-care resources. Therefore, discovery and development of drugs that can treat these diseases are of utmost importance. Given the established success of Novogen Ltd in the development of drugs through to human clinical trials, novel isoflavones proposed in this study may lead to the discovery of new drug leads or t ....Synthesis of novel biologically active isoflavones. Cancer and heart disease are two of the main diseases that affect our society indiscriminately and put enormous drains on our health-care resources. Therefore, discovery and development of drugs that can treat these diseases are of utmost importance. Given the established success of Novogen Ltd in the development of drugs through to human clinical trials, novel isoflavones proposed in this study may lead to the discovery of new drug leads or therapeutic agents. The project has the potential to deliver enormous commercial benefits to Australian industry and social benefits to our ageing population through provision of new, locally produced therapeutics.Read moreRead less
New peptide ligation technology for the rapid assembly of modified proteins. The project aims to develop novel technologies to enable the synthesis of modified proteins that are of widespread biological and therapeutic interest. More than 70 per cent of all human proteins are modified with a range of functionalities after translation from the ribosome. Although these modifications are of crucial importance for biological activity, characterising the effect of a given modification on function is ....New peptide ligation technology for the rapid assembly of modified proteins. The project aims to develop novel technologies to enable the synthesis of modified proteins that are of widespread biological and therapeutic interest. More than 70 per cent of all human proteins are modified with a range of functionalities after translation from the ribosome. Although these modifications are of crucial importance for biological activity, characterising the effect of a given modification on function is difficult due to problems in obtaining the protein in pure form. The goal of this project is to develop a peptide ligation methodology to access pure modified proteins in a rapid manner through the exploitation of a new reaction recently discovered in our laboratory. The project plans to explore the scope and mechanism of the new reaction as well as its application in the total chemical synthesis and structure-function studies of important modified proteins.Read moreRead less
Fine-tuning the conformations of cyclic peptides: a paradigm for optimising synthetic efficiency and biological activity. This proposal develops a strategy for optimising the synthesis and properties of an important class of drug molecules known as cyclic peptides. Such molecules show great promise as therapeutic agents, but they can be very difficult to synthesise and their three-dimensional shapes can be difficult to control. This project simultaneously addresses both of these problems, by exp ....Fine-tuning the conformations of cyclic peptides: a paradigm for optimising synthetic efficiency and biological activity. This proposal develops a strategy for optimising the synthesis and properties of an important class of drug molecules known as cyclic peptides. Such molecules show great promise as therapeutic agents, but they can be very difficult to synthesise and their three-dimensional shapes can be difficult to control. This project simultaneously addresses both of these problems, by exploiting a series of unusual amino acid building blocks that have a variety of shapes and different levels of conformational flexibility. This strategy will enable the development of a wide variety of therapeutically-relevant cyclic peptides, and to exemplify this concept a panel of cyclic peptides will be created that are specifically targeted for activity against solid tumours.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101673
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Access to biomimetic carbohydrate receptors using dynamic combinatorial chemistry. This project aims to utilise novel synthetic technology for the development of cyclic peptide libraries as novel drug leads for the treatment of Dengue virus, HIV and cancer.
Discovery Early Career Researcher Award - Grant ID: DE120101653
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Selective fluorination chemistry: a tool for creating bioactive, shape-controlled peptides. Fluorine atoms are desirable substituents in drug candidates because they can increase metabolic stability and hydrophobicity, and because they can be used to constrain molecules into optimal bioactive conformations. These concepts are being exploited to create shape-controlled peptides with applications in anti-cancer and anti-microbial therapy.
Synthesis and Structure-Function Studies of the Glycoprotein Adiponectin. This project aims to understand the role of carbohydrate modifications on the structure and function of the fat cell-derived hormone adiponectin, which has shown protective effects against obesity, type 2 diabetes and cardiovascular disease. Advancing knowledge of the molecular mechanisms that regulate fat is crucial to unravelling the processes involved in the development of these diseases. The project plans to use novel ....Synthesis and Structure-Function Studies of the Glycoprotein Adiponectin. This project aims to understand the role of carbohydrate modifications on the structure and function of the fat cell-derived hormone adiponectin, which has shown protective effects against obesity, type 2 diabetes and cardiovascular disease. Advancing knowledge of the molecular mechanisms that regulate fat is crucial to unravelling the processes involved in the development of these diseases. The project plans to use novel synthetic technologies to access a library of adiponectins with defined patterns of carbohydrates attached to the peptide backbone, thus potentially enabling detailed dissection of the role of these modifications on structure, cell signalling and insulin sensitising activities.Read moreRead less