New guardians of the mucosa: Molecular characterisation of M cell biology. We aim to completely define the cellular and molecular biology of gut and lung M cells for the first time. We will elucidate how they develop, are regulated and function at a molecular level, and how M cells maintain normal gut and lung tissues and induce immune responses to protect against microbial challenges. In the future, the new insights will be essential pre-requisites for the development of mucosal-based intervent ....New guardians of the mucosa: Molecular characterisation of M cell biology. We aim to completely define the cellular and molecular biology of gut and lung M cells for the first time. We will elucidate how they develop, are regulated and function at a molecular level, and how M cells maintain normal gut and lung tissues and induce immune responses to protect against microbial challenges. In the future, the new insights will be essential pre-requisites for the development of mucosal-based interventions and vaccines that protect the gut and lung from infectious and inflammatory issues. The harnessing of effective immune responses to control such challenges, are of enormous fundamental and long-standing biological interest, and are amongst the most important areas of current scientific research.Read moreRead less
Roadblocks in DNA replication. This project aims to develop the technology to visualise and understand the molecular processes responsible for the faithful copying of cellular DNA in the presence of roadblocks caused by chemical pressures and competing intracellular events. Understanding this process is important as DNA replication is responsible for copying the DNA genetic blueprint of cells and is crucial to all life on earth. This project will have as key outcomes the development of novel mol ....Roadblocks in DNA replication. This project aims to develop the technology to visualise and understand the molecular processes responsible for the faithful copying of cellular DNA in the presence of roadblocks caused by chemical pressures and competing intracellular events. Understanding this process is important as DNA replication is responsible for copying the DNA genetic blueprint of cells and is crucial to all life on earth. This project will have as key outcomes the development of novel molecular visualisation technology and the first molecular description of the dynamic processes used by the DNA-replication machinery to navigate roadblocks. These outcomes should provide significant benefits including enhanced collaboration and scientific capacity in Australia.Read moreRead less
Reverse chemical proteomics: harnessing yeast display for drug discovery. This project aims to develop a technique that can rapidly identify the cellular protein targets of biologically active natural products. This project expects to provide fundamental biological and chemical insights into Australia's unique biodiversity that will facilitate the development of new therapeutic agents and agrochemicals based on leads provided by Nature. Expected outcomes of this project include an optimised and ....Reverse chemical proteomics: harnessing yeast display for drug discovery. This project aims to develop a technique that can rapidly identify the cellular protein targets of biologically active natural products. This project expects to provide fundamental biological and chemical insights into Australia's unique biodiversity that will facilitate the development of new therapeutic agents and agrochemicals based on leads provided by Nature. Expected outcomes of this project include an optimised and validated platform technology for accelerating drug discovery and development. This should substantially reduce the costs associated with fighting human and animal diseases, leading to improved health, productivity and quality of life.Read moreRead less