Developing a multicomponent platform for targeted gene delivery. Gene delivery systems are important tools in biological research and offer many exciting future prospects. Delivering gene material is very difficult in practice: rapid deterioration, poor cell uptake, and reaching the right tissue and cell types are major obstacles. Ways to overcome each barrier individually have been suggested in existing research but these components have not yet been combined in a single solution, which this pr ....Developing a multicomponent platform for targeted gene delivery. Gene delivery systems are important tools in biological research and offer many exciting future prospects. Delivering gene material is very difficult in practice: rapid deterioration, poor cell uptake, and reaching the right tissue and cell types are major obstacles. Ways to overcome each barrier individually have been suggested in existing research but these components have not yet been combined in a single solution, which this project will tackle. This proposal aims to create a technology to stabilise and deliver active gene material to target cells. The gene delivery tool developed in this project will advance biological research greatly with many potential future applications.Read moreRead less
Expanding access to modified proteins via a novel semi-synthetic platform. This project aims to address a critical knowledge gap in understanding how post-translational modifications modulate the structure and activity of proteins. By developing an innovative semi-synthetic platform to produce pure proteins inaccessible by existing methods, the project will reveal how natural protein modifications influence structure and function. Expected outcomes include the delivery of breakthrough technologi ....Expanding access to modified proteins via a novel semi-synthetic platform. This project aims to address a critical knowledge gap in understanding how post-translational modifications modulate the structure and activity of proteins. By developing an innovative semi-synthetic platform to produce pure proteins inaccessible by existing methods, the project will reveal how natural protein modifications influence structure and function. Expected outcomes include the delivery of breakthrough technologies for accessing modified proteins for a range of applications in academia and industry, as well as the generation of new knowledge in the fields of chemistry and biology. The project will lead to the training of interdisciplinary early career researchers and has the potential to benefit Australia’s biotechnology sector.Read moreRead less
Conotoxin diversification and evolution of venom peptides in cone snails. The marine snails of the genus Conus have evolved one of the most complex venoms that has emerged as a rich source of novel bioactive peptides. However, < 0.1% of their true potential has been characterised to-date. Using advanced genomic, proteomic, structural and pharmacological approaches pioneered in our laboratory, this study will decipher how conotoxin diversification from ancestral worm hunters facilitated the shift ....Conotoxin diversification and evolution of venom peptides in cone snails. The marine snails of the genus Conus have evolved one of the most complex venoms that has emerged as a rich source of novel bioactive peptides. However, < 0.1% of their true potential has been characterised to-date. Using advanced genomic, proteomic, structural and pharmacological approaches pioneered in our laboratory, this study will decipher how conotoxin diversification from ancestral worm hunters facilitated the shift in diet to modern fish and mollusc hunting species by determining the evolutionary trajectories of positively selected conotoxins. Investigation of the structure and function of these highly optimised venom peptides will provide new research tools and potential leads to new pharmaceuticals and agrochemicals.Read moreRead less
Harnessing molecular strain for drug discovery and bioconjugation. Peptides and proteins are increasingly important therapies for the treatment of disease. Nevertheless, the synthesis and optimisation of these high-value compounds still relies primarily on technologies developed decades ago. There is a desperate need for modern strategies to unlock the full potential of peptides and proteins for diverse applications in drug discovery. This interdisciplinary research aims to develop new tools for ....Harnessing molecular strain for drug discovery and bioconjugation. Peptides and proteins are increasingly important therapies for the treatment of disease. Nevertheless, the synthesis and optimisation of these high-value compounds still relies primarily on technologies developed decades ago. There is a desperate need for modern strategies to unlock the full potential of peptides and proteins for diverse applications in drug discovery. This interdisciplinary research aims to develop new tools for the construction and modification of peptides and proteins by harnessing the energy in a unique class of strained molecules. A focus on peptide-based inhibitors of the proteasome, a critical target for modern cancer treatments, should provide future health and economic benefits for the Australian community.Read moreRead less
Aquatic chemo-modulators: a novel source for potent molecular probes. This project aims to investigate peptides that modulate prey behaviour. Chemical signalling constitutes much of the language of life underwater. Certain cone snails evolved a hunting strategy, where they release potent peptides to modulate fish behaviour through yet unknown mechanisms. The snail then expands its mouth and eats the fish without resistance. This project will investigate the mechanisms at play using transcriptomi ....Aquatic chemo-modulators: a novel source for potent molecular probes. This project aims to investigate peptides that modulate prey behaviour. Chemical signalling constitutes much of the language of life underwater. Certain cone snails evolved a hunting strategy, where they release potent peptides to modulate fish behaviour through yet unknown mechanisms. The snail then expands its mouth and eats the fish without resistance. This project will investigate the mechanisms at play using transcriptomics, proteomics, peptide synthesis, behavioural pharmacology and nuclear magnetic resonance. This will advance the knowledge of aquatic chemo-modulators on a functional, structural and evolutionary level, and provide a source of molecular probes with unique pharmacology and applications in human physiology, developmental biology and aquacultures.Read moreRead less
A new platform technology for gene therapy . The project aims to make a landmark contribution to biological science by enabling programmed delivery of therapeutic payloads from biocompatible materials. It will employ a novel synthetic biology approach to form two distinct peptide-enabled molecular architectures in a single system. This is expected to deliver a platform technology that will allow successful programmed delivery of viral vectors. The project is likely to deliver significant societa ....A new platform technology for gene therapy . The project aims to make a landmark contribution to biological science by enabling programmed delivery of therapeutic payloads from biocompatible materials. It will employ a novel synthetic biology approach to form two distinct peptide-enabled molecular architectures in a single system. This is expected to deliver a platform technology that will allow successful programmed delivery of viral vectors. The project is likely to deliver significant societal benefit as a fundamental scientific platform, improving Australia's capacity and impact in the agriculture and the healthcare sectors. The platform technology has the potential to increase the quality of life for patients and their carers, while also produce fitter, healthier livestock.Read moreRead less
Poly(amino acids) as immune stimulators. This project aims to develop nanoparticles built from natural hydrophobic amino acids as an immune stimulatory delivery system for peptide antigens. Currently available immune stimulants (adjuvants) are often toxic and/or are poorly chemically defined fragments of bacteria or toxins and vary from batch-to-batch. New adjuvants are in high demand; especially to facilitate the use of optimal, but weakly immunogenic, peptide antigens. It is expected that the ....Poly(amino acids) as immune stimulators. This project aims to develop nanoparticles built from natural hydrophobic amino acids as an immune stimulatory delivery system for peptide antigens. Currently available immune stimulants (adjuvants) are often toxic and/or are poorly chemically defined fragments of bacteria or toxins and vary from batch-to-batch. New adjuvants are in high demand; especially to facilitate the use of optimal, but weakly immunogenic, peptide antigens. It is expected that the proposed project will develop a novel efficient, safe and notably biodegradable self-adjuvanting delivery system that can be fully customised to match an antigen of choice. This foundational research should provide important advances for commercial immune stimulatory applications.Read moreRead less