Ambient spatial intelligence: Spatial analysis and event detection in environmental geosensor networks. This project will design and test innovative new decentralised algorithms for responding to spatiotemporal queries in environmental monitoring networks. The research is essential for constructing larger, denser, and more reliable networks, helping to embed spatial intelligence within the environment itself (ambient spatial intelligence). The project builds on Australia's existing research exce ....Ambient spatial intelligence: Spatial analysis and event detection in environmental geosensor networks. This project will design and test innovative new decentralised algorithms for responding to spatiotemporal queries in environmental monitoring networks. The research is essential for constructing larger, denser, and more reliable networks, helping to embed spatial intelligence within the environment itself (ambient spatial intelligence). The project builds on Australia's existing research excellence in geographic information science. By making smarter use of spatial information, the project will further strengthen Australia's world-leading spatial information industry, and support sustainable and economic environmental management through important applications like conservation contracts and carbon sequestration monitoring.Read moreRead less
Epigenetic regulation of centromere and telomere chromatin. Epigenetics is a system that turns genes on and off without sequence alterations in the DNA. This process works by attaching chemical tags, known as epigenetic marks, to DNA. Centromeres and telomeres are chromosomal DNA domains essential for faithful chromosome segregation and genome stability. Their function and structural integrity are tightly regulated by specific epigenetic marks. This project aims to assess the functions of key ep ....Epigenetic regulation of centromere and telomere chromatin. Epigenetics is a system that turns genes on and off without sequence alterations in the DNA. This process works by attaching chemical tags, known as epigenetic marks, to DNA. Centromeres and telomeres are chromosomal DNA domains essential for faithful chromosome segregation and genome stability. Their function and structural integrity are tightly regulated by specific epigenetic marks. This project aims to assess the functions of key epigenetic factors including chromatin remodelers, histone variants and non-coding RNA in controlling centromere and telomere activity. The data should describe novel pathways that maintain the identity, transcription silencing, DNA replication fidelity and structural stability at these domains.Read moreRead less
Towards a new understanding of the reproductive system. The proposed analysis of the reproductive system will provide important new knowledge of gene regulation driving organ development. The insights and technologies developed in this program will be widely applicable in biotechnological and pharmacogenomic research in Australia and worldwide, and assert Australia's leadership in this area of research.