Nanoparticle regulation of DNA replication and repair pathways. This project aims to understand how physical and chemical properties of nanoparticles influence how cells respond with respect to maintenance of their DNA integrity. It will use an innovative set of cross-disciplinary methodologies to link what nanoparticle parameters can lead to a benign fate in the environment. The project expects to generate new knowledge of how our ecosystem can be fundamentally impacted by nanoscale materials. ....Nanoparticle regulation of DNA replication and repair pathways. This project aims to understand how physical and chemical properties of nanoparticles influence how cells respond with respect to maintenance of their DNA integrity. It will use an innovative set of cross-disciplinary methodologies to link what nanoparticle parameters can lead to a benign fate in the environment. The project expects to generate new knowledge of how our ecosystem can be fundamentally impacted by nanoscale materials. The intended outcome of the project is to position Australia as a world leader in the manufacture of environmentally benign, advanced nano-scale materials. This is expected to provide economic benefits for Australian manufacturing while ensuring preservation of environmental health.Read moreRead less
Molecular dynamics of steroid receptor crosstalk. This project uses state-of-the-art technology to show how steroids (for example, testosterone) affect many aspects of human life, and how these can be disrupted by chemicals and synthetic hormones. The results can be used to interpret disease, predict safety of new drugs, and to monitor risk to humans and wildlife of environmental chemicals.