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
Development of a multicomponent delivery system for oligonucleotides. Gene therapy has the ability to prevent faulty genes from causing disease, however the ability to deliver genetic material into specific cells remains a major barrier. Our research will overcome this hurdle by generating systems that are superior to existing technologies.
Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by ....Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by implementing innovative approaches.
Expected Outcomes: Expected outcomes include significant new knowledge and a new multi-disciplinary platform for measuring peptide absorption.
Benefits: This should provide significant benefits by informing the future design of peptides for supplements, therapeutics and carriers. Read moreRead less
Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as i ....Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as innovative chemistry strategies and novel molecular probes to advance fundamental research across the chemical and biological sciences. Anticipated benefits include technological innovations of relevance to Australia’s biotechnology sector and enhanced capacity for cross-disciplinary collaboration.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102556
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
The influence of crosstalk between protein post-translational modifications on the propagation of molecular signals. The ability of a cell to respond appropriately to its surroundings is a result of interactions between proteins and chemical modifiers termed post-translational modifications (PTM). This project will show how PTM interactions (competition/ cooperation) influence cellular outcomes in response to changes in the environment.
Discovery Early Career Researcher Award - Grant ID: DE150101196
Funder
Australian Research Council
Funding Amount
$403,536.00
Summary
Elucidation and characterisation of the misfolded protein interactome. Correct expression, folding, and clearance of proteins are critical for all cell functions. However, cell stresses and aging can cause protein balance mechanisms to become overloaded, resulting in the misfolding and aggregation of proteins. Understanding the mechanisms by which protein aggregation occurs and how to prevent the process have become major scientific challenges. This project aims to gain unprecedented insights in ....Elucidation and characterisation of the misfolded protein interactome. Correct expression, folding, and clearance of proteins are critical for all cell functions. However, cell stresses and aging can cause protein balance mechanisms to become overloaded, resulting in the misfolding and aggregation of proteins. Understanding the mechanisms by which protein aggregation occurs and how to prevent the process have become major scientific challenges. This project aims to gain unprecedented insights into the interactors, effectors and fate of misfolded protein aggregates within cells, using new, cutting-edge, catalytic-tagging biochemical tools. Critical interactions will be investigated for their roles in protein aggregation cell death, and in whether modulation of the interaction can also mitigate or reverse the process.Read moreRead less