Targeting DNA with Dynamic Combinatorial Chemistry. The interaction of molecules with DNA, the molecule that controls genetic information, is fundamental to drug design, diagnosis of disease and the environment. Chemists usually synthesise these molecules in the laboratory. We will use an innovative new approach to producing molecules that interact with DNA, that as fast and efficient and mirrors the processes used by Nature to make natural products. This research may lead to the design of new ....Targeting DNA with Dynamic Combinatorial Chemistry. The interaction of molecules with DNA, the molecule that controls genetic information, is fundamental to drug design, diagnosis of disease and the environment. Chemists usually synthesise these molecules in the laboratory. We will use an innovative new approach to producing molecules that interact with DNA, that as fast and efficient and mirrors the processes used by Nature to make natural products. This research may lead to the design of new therapeutics, diagnostics and applications that will benefit the Australian community, and will provide excellent training of researchers in skills required for employment in the biotechnology and pharmaceutical fields.Read moreRead less
Tissue specific regulation of gene expression. Despite the polarized public debate concerning the use of stem cells for tissue regeneration, fundamental questions relating to the identity and hierarchy of these cells remain unanswered. The benefit to Australia will be scientific in terms of providing an understanding of how stem and progenitor cells integrate transcriptional control systems during differentiation and the networks that are involved. This is fundamental to the future isolation a ....Tissue specific regulation of gene expression. Despite the polarized public debate concerning the use of stem cells for tissue regeneration, fundamental questions relating to the identity and hierarchy of these cells remain unanswered. The benefit to Australia will be scientific in terms of providing an understanding of how stem and progenitor cells integrate transcriptional control systems during differentiation and the networks that are involved. This is fundamental to the future isolation and manipulation of these stem cell types to benefit the community. The work will also provide postgraduate students with training in state of the art genomic techniques and in the interface between bioinformatics and experimental science. Read moreRead less