The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561173
Funder
Australian Research Council
Funding Amount
$207,189.00
Summary
High throughput proteomics - Thermo Finnigan ProteomeX LCQ Integrated Proteomics Workstation. As research in the biological sciences moves into post-genomics era, so attention has focused on the development of technologies capable of characterizing the molecular complexity inherent in the proteome. Recent technical innovations in this field have resulted in the advancement of mass spectrometers that are capable of exemplifying unknown proteins with great efficiency. These new technologies are ....High throughput proteomics - Thermo Finnigan ProteomeX LCQ Integrated Proteomics Workstation. As research in the biological sciences moves into post-genomics era, so attention has focused on the development of technologies capable of characterizing the molecular complexity inherent in the proteome. Recent technical innovations in this field have resulted in the advancement of mass spectrometers that are capable of exemplifying unknown proteins with great efficiency. These new technologies are central to any institution committed to the development of a competitive research nexus in biological sciences. The purpose of this application is to upgrade the mass spectrometry facility at the University of Newcastle such that it is able to provide cutting edge support to the extensive scientific community within the Hunter region.Read moreRead less
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454170
Funder
Australian Research Council
Funding Amount
$187,341.00
Summary
Biacore3000-Expansion of Proteomics Facility. The sequencing of the human genome has led to redirection of effort towards the rapid characterisation of the products of genes, proteins. This project will establish state of the art facilities for protein identification and characterisation in the Hunter Region. The investigators are representative of several major research programs and are unified by their specific expertise in the fundamental molecular mechanisms underlying the control of cellula ....Biacore3000-Expansion of Proteomics Facility. The sequencing of the human genome has led to redirection of effort towards the rapid characterisation of the products of genes, proteins. This project will establish state of the art facilities for protein identification and characterisation in the Hunter Region. The investigators are representative of several major research programs and are unified by their specific expertise in the fundamental molecular mechanisms underlying the control of cellular processes in plants, animals and humans. Understanding these mechanisms will provide the basis for improved management of the environment and pathological conditions through identifying molecular targets for diagnosis, genetic manipulation or drug design.Read moreRead less
Developmental Switches: Nuclear Transport and Spermatogenesis. We propose to test the novel hypothesis that changes in the nuclear import machinery are a key facet of cellular differentiation. We will investigate a new paradigm in developmental biology regarding whether differentiation is achieved, or can be directed, by altering transport of macromolecules, such as specific transcription factors, into the nucleus. This project will define changes in the nuclear import machinery that accomp ....Developmental Switches: Nuclear Transport and Spermatogenesis. We propose to test the novel hypothesis that changes in the nuclear import machinery are a key facet of cellular differentiation. We will investigate a new paradigm in developmental biology regarding whether differentiation is achieved, or can be directed, by altering transport of macromolecules, such as specific transcription factors, into the nucleus. This project will define changes in the nuclear import machinery that accompany germ and somatic cell differentiation in the developing and adult mammalian testis. This will be linked to changes in the function of key proteins acting within the nucleus using both in vitro and in vivo approaches.
Read moreRead less
Steroidal control of male meiosis. This innovative project will study a complex cellular process (meiosis) essential for sperm development and sexual reproduction. Collaborations and novel experimental design provide cutting edge techniques and opportunity for Australian researchers to contribute important discoveries to this field. We aim to provide new knowledge of steroid-dependent molecular factors that may activate (or inhibit) meiosis. Such novel information may significantly impact divers ....Steroidal control of male meiosis. This innovative project will study a complex cellular process (meiosis) essential for sperm development and sexual reproduction. Collaborations and novel experimental design provide cutting edge techniques and opportunity for Australian researchers to contribute important discoveries to this field. We aim to provide new knowledge of steroid-dependent molecular factors that may activate (or inhibit) meiosis. Such novel information may significantly impact diverse areas related to controlling mammalian reproductive development, such as health and well-being (a healthy start to life, fertility control), farming and agriculture (livestock production, pest management) and the Australian environment (conservation, pest management).Read moreRead less
Investigation of Macrophage Function in an Immunologically Privileged Site. The unique phenotype of the testicular macrophage demands understanding, and this project has the potential to open up an entirely new direction of research. The basic information so generated could facilitate development of strategies to alter either host or donor tissue macrophage functions in order to prevent rejection responses in humans, and be used in the development of new anti-inflammatory drugs. Such technologie ....Investigation of Macrophage Function in an Immunologically Privileged Site. The unique phenotype of the testicular macrophage demands understanding, and this project has the potential to open up an entirely new direction of research. The basic information so generated could facilitate development of strategies to alter either host or donor tissue macrophage functions in order to prevent rejection responses in humans, and be used in the development of new anti-inflammatory drugs. Such technologies will have application in development of novel therapeutics for transplantation and the treatment of chronic inflammatory diseases. Read moreRead less
Transporting proteins to and within mitochondria. Mitochondria are found in all of our cells and are essential for life. They act like a nuclear power plant, providing the bulk of energy - but they can also kill the cell if the mitochondrial wall (membrane) is opened. Mitochondria contain about 1000 different proteins to function properly but almost all of them are made outside the compartment and must squeeze in through narrow membrane channels. This project will provide new insights into how p ....Transporting proteins to and within mitochondria. Mitochondria are found in all of our cells and are essential for life. They act like a nuclear power plant, providing the bulk of energy - but they can also kill the cell if the mitochondrial wall (membrane) is opened. Mitochondria contain about 1000 different proteins to function properly but almost all of them are made outside the compartment and must squeeze in through narrow membrane channels. This project will provide new insights into how proteins get into mitochondria and what factors help in this process. Besides providing new information about a process that is essential for life, the project will train students in molecular cellular biology techniques and will help foster strong international collaborations.Read moreRead less
A structural investigation into the peptide-loading complex molecular machine. The proposed research program, using laboratory-based and synchrotron-based radiation, will provide fundamental insight into a process central to immunity, namely antigen presentation. Investigating the process of Antigen presentation is important, as it will further our understanding how a cell is "ear-marked" for being infected by viruses or bacteria. Such knowledge will increase Australia's international research ....A structural investigation into the peptide-loading complex molecular machine. The proposed research program, using laboratory-based and synchrotron-based radiation, will provide fundamental insight into a process central to immunity, namely antigen presentation. Investigating the process of Antigen presentation is important, as it will further our understanding how a cell is "ear-marked" for being infected by viruses or bacteria. Such knowledge will increase Australia's international research standing.Read moreRead less
The functional organisation of the trans-Golgi network: From cultured cells to physiological systems. This research will result in a better understanding of the secretory pathway of all eukaryotic cells, a process of broad biological and biomedical significance. It will impact on cell biology in the broadest sense, from membrane biogenesis to lipid domain organization, as well as membrane transport, protein structure and protein targeting. Furthermore, this work will utilize and develop fronti ....The functional organisation of the trans-Golgi network: From cultured cells to physiological systems. This research will result in a better understanding of the secretory pathway of all eukaryotic cells, a process of broad biological and biomedical significance. It will impact on cell biology in the broadest sense, from membrane biogenesis to lipid domain organization, as well as membrane transport, protein structure and protein targeting. Furthermore, this work will utilize and develop frontier technologies of live cell imaging and RNA interference as a genetic tool to investigate functions of a protein family. By training post-graduate students and post-doctoral staff, it will contribute to the expertise of cell biology in Australia. International collaborations will enhance connections between Australia and overseas research.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