Cellular signals controlling oocyte activation. This research will significantly advance our understanding of the basic biological processes that underpin the fertility rate of all mammals and are key to the immediate and future health and well-being of Australian landscape and society. Understanding the processes that maintain healthy quiescent oocytes over many years before activation and subsequent growth will enable development of methods of increasing productivity in domestic animals and en ....Cellular signals controlling oocyte activation. This research will significantly advance our understanding of the basic biological processes that underpin the fertility rate of all mammals and are key to the immediate and future health and well-being of Australian landscape and society. Understanding the processes that maintain healthy quiescent oocytes over many years before activation and subsequent growth will enable development of methods of increasing productivity in domestic animals and enhancing fertility in endangered species. Knowledge of these cellular mechanisms will underpin biotechnology platforms necessary for novel methods of feral animal population control thus contributing at multiple levels to an economically sustainable Australia.Read moreRead less
Genome Approaches to Investigate Metabolic Coordination in Plant Cells. Metabolism of C and N in legume nodules requires interaction between the symbiotic bacteria and plant organelles, particularly metabolism in plastids and mitochondria. Fixed N is assimilated through the de novo synthesis of purines in both plastids and mitochondria. However, each of the nine pathway enzymes is encoded by a single gene, indicating each protein is targeted to both organelles. Purine metabolism will provide ....Genome Approaches to Investigate Metabolic Coordination in Plant Cells. Metabolism of C and N in legume nodules requires interaction between the symbiotic bacteria and plant organelles, particularly metabolism in plastids and mitochondria. Fixed N is assimilated through the de novo synthesis of purines in both plastids and mitochondria. However, each of the nine pathway enzymes is encoded by a single gene, indicating each protein is targeted to both organelles. Purine metabolism will provide a model to assess the more general occurrence of dual-targeted proteins in plants. The aim is to identify and eventually exploit the signalling mechanism(s) that mediate communication between plastids and mitochondria.Read moreRead less
The fate of single virus particles during infection. This project applies innovative imaging techniques to elucidate the logistics of cellular function. Establishing a cutting-edge technology platform will spawn discovery and research creativity in fundamental science, as well as applications in biomedical and biotechnology research disciplines. We will foster a highly skilled workforce, an essential asset for maintaining and enhancing Australia's reputation and capability as a leader in researc ....The fate of single virus particles during infection. This project applies innovative imaging techniques to elucidate the logistics of cellular function. Establishing a cutting-edge technology platform will spawn discovery and research creativity in fundamental science, as well as applications in biomedical and biotechnology research disciplines. We will foster a highly skilled workforce, an essential asset for maintaining and enhancing Australia's reputation and capability as a leader in research excellence.Read moreRead less
Hierarchical Phosphorylation of Tyrosine Hydroxylase is Dependent on the Activation Sequence of Signaling Pathways. Protein phosphorylation is a fundamental process in biology. It controls protein expression and function in all cells. Hierarchical phosphorylation is defined as the phosphorylation of a protein at one site leading to an altered phosphorylation at another site on the same protein and an altered biological outcome. We have discovered that the enzyme tyrosine hydroxylase undergoes a ....Hierarchical Phosphorylation of Tyrosine Hydroxylase is Dependent on the Activation Sequence of Signaling Pathways. Protein phosphorylation is a fundamental process in biology. It controls protein expression and function in all cells. Hierarchical phosphorylation is defined as the phosphorylation of a protein at one site leading to an altered phosphorylation at another site on the same protein and an altered biological outcome. We have discovered that the enzyme tyrosine hydroxylase undergoes a form of hierarchical phosphorylation not previously reported. Here we examine hierarchical phosphorylation in rat and human tyrosine hydroxylase and its functional consequence in intact cells. The approaches and methods developed will also be applicable to investigation of hierarchical phosphorylation in other proteins.Read moreRead less
Molecular microscopy: protein and membrane dynamics in resting and activated T cells. The aim of this research, to understand the molecular organization and dynamics of the plasma membrane that underlie the signal transduction events, is at the very heart of understanding cell communication. T cell recognition and activation initiates an adaptive immune response to invading pathogens and structurally altered proteins that can be found in cancers. By providing functional insights into the molecul ....Molecular microscopy: protein and membrane dynamics in resting and activated T cells. The aim of this research, to understand the molecular organization and dynamics of the plasma membrane that underlie the signal transduction events, is at the very heart of understanding cell communication. T cell recognition and activation initiates an adaptive immune response to invading pathogens and structurally altered proteins that can be found in cancers. By providing functional insights into the molecular mechanism of T cell activation, we will not only provide fundamental knowledge of receptor signalling but also specific details of T cell receptort triggering that may lead to the development of new therapeutic strategies to control T cell activation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668382
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
e-Research Infrastructure for the Molecular and Materials Structure Sciences. Understanding molecular and materials structure in atomic detail is vital to a knowledge-based economy and a healthy society. The development of smart materials, nanotechnological devices, hydrogen storage materials, molecular switches, magnets and sensors, for example, depends on knowledge of three-dimensional atomic structure. Cures for illnesses such as SARS, AIDS and Alzheimer's disease and understanding the aging ....e-Research Infrastructure for the Molecular and Materials Structure Sciences. Understanding molecular and materials structure in atomic detail is vital to a knowledge-based economy and a healthy society. The development of smart materials, nanotechnological devices, hydrogen storage materials, molecular switches, magnets and sensors, for example, depends on knowledge of three-dimensional atomic structure. Cures for illnesses such as SARS, AIDS and Alzheimer's disease and understanding the aging process depends on knowledge of biomolecular structure. The deployment and development of automation-enhanced remote access to structural instruments through the web will greatly enhance Australian structure-based research, and make this science accessible to the public. Read moreRead less
YrdC translational control: physical and functional interactions, identification and influence of amino acid phosphorylation. This project will expand our basic understanding of the mechanisms with which a newly identified and highly conserved protein, YrdC203 regulates the process of protein synthesis from mRNA. This work will lead to basic insights into how gene expression is regulated at the level of translation, and generate valuable research tools, such as YrdC203 knockdown tools, peptide m ....YrdC translational control: physical and functional interactions, identification and influence of amino acid phosphorylation. This project will expand our basic understanding of the mechanisms with which a newly identified and highly conserved protein, YrdC203 regulates the process of protein synthesis from mRNA. This work will lead to basic insights into how gene expression is regulated at the level of translation, and generate valuable research tools, such as YrdC203 knockdown tools, peptide mimetics and decoys, phospho-specific and phospho-non specific antibodies. Exploitation of this breakthrough science will open up new avenues for therapeutic intervention in the future, while commercial exploitation of such reagents that recognise or interfere with YrdC203 will generate economic returns to Australia.Read moreRead less
PKC-zeta-dependent Sp1 Phosphorylation: Regulatory Insights using Novel Phospho-Specific Sp1 Antibodies and Peptide Decoys. This project will demonstrate the value of novel phospho-specific Sp1 antibodies and phospho-Sp1 peptide decoys as new molecular tools to provide invaluable insights into the regulatory roles of phosphorylated Sp1 in the control of gene expression, an area poorly defined at the present time. These agents will be used to increase our fundamental understanding of Sp1 activity ....PKC-zeta-dependent Sp1 Phosphorylation: Regulatory Insights using Novel Phospho-Specific Sp1 Antibodies and Peptide Decoys. This project will demonstrate the value of novel phospho-specific Sp1 antibodies and phospho-Sp1 peptide decoys as new molecular tools to provide invaluable insights into the regulatory roles of phosphorylated Sp1 in the control of gene expression, an area poorly defined at the present time. These agents will be used to increase our fundamental understanding of Sp1 activity by identifying physiologic agonists of the PKC-zeta-phospho-Sp1 axis and FasL-dependent apoptosis, interactions of phospho-Sp1 with the authentic FasL promoter and its recruitment of collaborative factors. The commercial exploitation of phospho-specific Sp1 antibodies and phospho-Sp1 peptide decoys will generate economic returns to Australia.Read moreRead less
PKC-zeta-dependent Sp1 phosphorylation: Identification of phosphorylated amino acids, demonstration of functional significance, generation and use of novel phospho-specific Sp1 antibodies. Sp1 is a widely expressed transcription factor that controls the basal expression of virtually every mammalian gene, including that of PDGF-B. We recently reported that PDGF-B expression atypical protein kinase C-zeta phosphorylation of Sp1. Building on these seminal findings, this project will first, delinea ....PKC-zeta-dependent Sp1 phosphorylation: Identification of phosphorylated amino acids, demonstration of functional significance, generation and use of novel phospho-specific Sp1 antibodies. Sp1 is a widely expressed transcription factor that controls the basal expression of virtually every mammalian gene, including that of PDGF-B. We recently reported that PDGF-B expression atypical protein kinase C-zeta phosphorylation of Sp1. Building on these seminal findings, this project will first, delineate the specific amino acid residues in the zinc finger region of Sp1 phosphorylated by PKC-zeta; second, demonstrate the functional importance of these site-specific modifications in the PKC-zeta-Sp1-PDGF-B system and the expression of other genes, and third, generate and use novel antibodies uniquely recognising phosphorylated Sp1 as molecular and diagnostic agents.Read moreRead less