Structure and function of a new class of multi-zinc finger (MZF) transcriptional regulators. An understanding of how genes are switched on and off during the development and lifetime of an organism is central to developing the ability to fight many diseases in a rational way. This project will advance our knowledge in this area at a fundamental molecular level by examining the mechanisms through which a specific set of proteins controls gene expression.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100111
Funder
Australian Research Council
Funding Amount
$475,000.00
Summary
Expanding the Genomic Frontier - from Species to Strains and Individuals to Populations. Expanding the genomic frontier from species to strains and individuals to populations: The Ramaciotti Centre for Gene Function Analysis, a consortium of five universities, provides a large number of genomics and transcriptomics analyses. This project will establish an Ion Proton semiconductor-based sequencer and iScan platform to facilitate research breakthroughs in genomics, epigenomics, transcriptomics, an ....Expanding the Genomic Frontier - from Species to Strains and Individuals to Populations. Expanding the genomic frontier from species to strains and individuals to populations: The Ramaciotti Centre for Gene Function Analysis, a consortium of five universities, provides a large number of genomics and transcriptomics analyses. This project will establish an Ion Proton semiconductor-based sequencer and iScan platform to facilitate research breakthroughs in genomics, epigenomics, transcriptomics, and SNP analysis. Cell screening technology will also be established to allow the rapid analysis of cells of interest, prior to genomic / transcriptomic analysis. The increased data output, and concomitant reduction in analysis cost on the new platforms, will expand the genomics frontier, allowing researchers to fully analyse many strains from a single-celled species or many individuals from a population.Read moreRead less
The MYB gene as a model for global transcriptional regulation: stopping, starting and looping. This project will study how transcriptional elongation controls the MYB gene, a key regulator of normal and cancerous growth and regulation. There are three major benefits that are likely to flow from the proposed research It will strengthen research in new and important areas of transcriptional regulation, by building research capacity in Australia in the area of gene expression, particularly with res ....The MYB gene as a model for global transcriptional regulation: stopping, starting and looping. This project will study how transcriptional elongation controls the MYB gene, a key regulator of normal and cancerous growth and regulation. There are three major benefits that are likely to flow from the proposed research It will strengthen research in new and important areas of transcriptional regulation, by building research capacity in Australia in the area of gene expression, particularly with respect to transcriptional elongation and long-range regulation. It will highlight a new approach to the therapeutic targeting of MYB in cancer: data generated from this research may enable us to target MYB expression in a range of cancers including breast cancer by inhibiting transcriptional elongation. And it will provide training in advanced molecular biology to postdoctoral scientists and students.Read moreRead less
CD151 and functional overlap in tetraspanins. The applicants are currently world leaders in the tetraspanin field. This project will enhance existing international collaborations to maintain and increase the applicants', and hence Australia's, international standing in this field and Australia's reputation in cell and molecular biology in general.
The project will greatly increase our understanding of this important but poorly understood family of proteins. It will also provide training opport ....CD151 and functional overlap in tetraspanins. The applicants are currently world leaders in the tetraspanin field. This project will enhance existing international collaborations to maintain and increase the applicants', and hence Australia's, international standing in this field and Australia's reputation in cell and molecular biology in general.
The project will greatly increase our understanding of this important but poorly understood family of proteins. It will also provide training opportunities for postgraduate students in state-of-the-art approaches in biotechnology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102763
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
The contribution of histone post-translational modifications to eukaryotic evolution. By comparing the complete DNA sequence of closely related species, it is possible to identify changes in DNA that account for the diversity between these species. The project will use this approach to ask whether DNA changes that influence how DNA itself is packaged into cells have contributed to the evolution of new yeast species.
Discovery of novel microRNA biogenesis and functional components. Discovery of novel microRNA components will provide new strategies for confronting a diverse array of challenges Australia faces, such as the increasing rates of certain cancers in our population, to stresses on our crop plants faced with environmental changes. The biological mechanisms underlying these disparate problems are unified by microRNA involvement in many instances. By finding microRNA controlling factors common to all h ....Discovery of novel microRNA biogenesis and functional components. Discovery of novel microRNA components will provide new strategies for confronting a diverse array of challenges Australia faces, such as the increasing rates of certain cancers in our population, to stresses on our crop plants faced with environmental changes. The biological mechanisms underlying these disparate problems are unified by microRNA involvement in many instances. By finding microRNA controlling factors common to all higher organisms, we expect our community will benefit from the increased knowledge base that will help our researchers adopt new strategies in fighting diseases and improving our agricultural industry.Read moreRead less