microRNAs and the control of T lymphocyte differentiation, function and malignant transformation. The molecular mechanism of the immune system is not completely understood. This project will investigate how transcription factors and microRNAs, two major types of regulatory molecules work together to control immune responses. The results from this research will assist in the design of better vaccination strategies and treat certain lymphomas.
Regulation Of Haemopoietic And Immune Cells In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$19,924,984.00
Summary
This Program brings together a team of researchers with world-class multidisciplinary skills in biomedical discovery and an established track record of clinical and commercial translation of research discoveries. This Program will result in the creation of new knowledge regarding the control of blood and immune cell production and function and provide new avenues for the treatment of people suffering from cancers of the blood, inflammatory and immune disorders.
Discovering genes and mechanisms regulating immune responses. The Fellowship will retain and expand a pioneering Australian research program, and attract to Australia major international investment and technology linkages, making use of the DNA sequence of humans and other mammals to advance understanding of immunity and infection control in public health, agriculture and industry. The program will build on Australia's pre-eminent research strengths in the field of immunity and infection, and w ....Discovering genes and mechanisms regulating immune responses. The Fellowship will retain and expand a pioneering Australian research program, and attract to Australia major international investment and technology linkages, making use of the DNA sequence of humans and other mammals to advance understanding of immunity and infection control in public health, agriculture and industry. The program will build on Australia's pre-eminent research strengths in the field of immunity and infection, and will create new knowledge and resources to improve human and animal health through vaccines, pharmaceuticals and public health policy. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238631
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Ultra High Resolution Electron Recycling Spectrometer. Electron collisions with atoms and molecules provide enormous versatility through the transfer of large amounts of angular momentum and the ability to excite dipole forbidden states. However a lack of energy resolution severely restricts the processes that can be studied.
We propose to construct a unique, ultra-high resolution, electron recycling spectrometer using a radical new design. State-of-the-art spectroscopic studies of ato ....Ultra High Resolution Electron Recycling Spectrometer. Electron collisions with atoms and molecules provide enormous versatility through the transfer of large amounts of angular momentum and the ability to excite dipole forbidden states. However a lack of energy resolution severely restricts the processes that can be studied.
We propose to construct a unique, ultra-high resolution, electron recycling spectrometer using a radical new design. State-of-the-art spectroscopic studies of atoms and molecules will be enabled, including the dynamics of near-threshold processes, the formation of transient states and the examination of processes such as rotational excitation and dissociative attachment in molecules - important in a number of gas-discharge based devices.
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Investigating Near-Threshold Atomic and Molecular Collision Processes with Multiparameter Detection Techniques. We are proposing to perform state-of-the-art, electron impact excitation and ionization measurements on a range of atoms and molecules. The combination of new detector technology and innovative experimental design will enable measurements of near-threshold excitation and ionization in a number of important atomic and molecular systems. The measurements will have implications for the ....Investigating Near-Threshold Atomic and Molecular Collision Processes with Multiparameter Detection Techniques. We are proposing to perform state-of-the-art, electron impact excitation and ionization measurements on a range of atoms and molecules. The combination of new detector technology and innovative experimental design will enable measurements of near-threshold excitation and ionization in a number of important atomic and molecular systems. The measurements will have implications for the further development of atomic scattering theory, particularly the role of electron-electron correlations, and provide much needed absolute scattering information on the excitation of molecules which are of relevance to our atmosphere and various technological devices.Read moreRead less
Positronic Atoms - A Search for Positron Bound States. An experimental verification of positron bound states will solve a long standing problem in positron physics. A clear understanding of positron binding and the underlying mechanisms will open a new era in low-energy positron-atom/molecular physics, leading the way for breakthrough sciences. For instance, a positron bound state should enhance the annihilation rate between the positron and target valence electron. Positron annihilation, to pro ....Positronic Atoms - A Search for Positron Bound States. An experimental verification of positron bound states will solve a long standing problem in positron physics. A clear understanding of positron binding and the underlying mechanisms will open a new era in low-energy positron-atom/molecular physics, leading the way for breakthrough sciences. For instance, a positron bound state should enhance the annihilation rate between the positron and target valence electron. Positron annihilation, to produce two gamma rays, is a key process in both materials research (e.g. as already heavily employed in defect detection) and bio-medical treatments (e.g. the Positron Emission Tomography, or PET).Read moreRead less
A Microscope for Molecular Reactions. We are proposing to combine new, state-of-the-art detector technology and innovative experimental techniques in the development of A Microscope for Molecular Reactions. This device will enable precise and highly efficient studies on the structure of molecules and their interactions with the physical world. It will be applied to a broad range of problems in contemporary atomic and molecular physics, and will lead to new insights into the dynamics of such re ....A Microscope for Molecular Reactions. We are proposing to combine new, state-of-the-art detector technology and innovative experimental techniques in the development of A Microscope for Molecular Reactions. This device will enable precise and highly efficient studies on the structure of molecules and their interactions with the physical world. It will be applied to a broad range of problems in contemporary atomic and molecular physics, and will lead to new insights into the dynamics of such reactions and their role in our everyday lives.Read moreRead less
Benchmark Studies of Positron Interactions with Helium. Australia has been at the forefront of experimental studies of electron-driven processes and theoretical descriptions of positron interactions. A new experimental program to study experimental low energy positron atomic physics provides a perfect synergy of these two areas of expertise. The field is a relatively new and emerging one and is focused around a number of new experimental approaches, such as those being developed at the Austral ....Benchmark Studies of Positron Interactions with Helium. Australia has been at the forefront of experimental studies of electron-driven processes and theoretical descriptions of positron interactions. A new experimental program to study experimental low energy positron atomic physics provides a perfect synergy of these two areas of expertise. The field is a relatively new and emerging one and is focused around a number of new experimental approaches, such as those being developed at the Australian National University. This set of experiments, on positron interactions with helium, will provide new experimental evidence to further our understanding of fundamental quantum processes and place Australia at the forefront of the field.Read moreRead less
Immunological mechanisms underlying the protective immune responses induced by botulinum oil adjuvanted vaccine. Botulism is recognised as an important bacterial pathogen in commercial beef cattle in Australia and around the world. Development of affective, well-researched vaccine against Clostridium botulinum is a high priority for the cattle industry. A novel oil adjuvanted vaccine (Singvac from Fort Dodge Pty Ltd) has advantage over conventional vaccines as it provides full protection follo ....Immunological mechanisms underlying the protective immune responses induced by botulinum oil adjuvanted vaccine. Botulism is recognised as an important bacterial pathogen in commercial beef cattle in Australia and around the world. Development of affective, well-researched vaccine against Clostridium botulinum is a high priority for the cattle industry. A novel oil adjuvanted vaccine (Singvac from Fort Dodge Pty Ltd) has advantage over conventional vaccines as it provides full protection following a single administration. The aims of this study are to investigate the immunological mechanisms underlying the protective response by this novel vaccine using bovine and murine models. This study will discover new control measures for botulism in Australia.Read moreRead less
Multiple atomic photoionization in superstrong electromagnetic field. Correlation, or entanglement, of electrons in matter governs many important phenomena in nature, such as chemical reactions, superconductivity and ferromagnetism. However, it is the many-electron processes in atoms which allow the study of electron correlations most clearly. In this project we will investigate such a process of two-electron atomic photoionization by an intense laser pulse. We will combine advanced theoretical ....Multiple atomic photoionization in superstrong electromagnetic field. Correlation, or entanglement, of electrons in matter governs many important phenomena in nature, such as chemical reactions, superconductivity and ferromagnetism. However, it is the many-electron processes in atoms which allow the study of electron correlations most clearly. In this project we will investigate such a process of two-electron atomic photoionization by an intense laser pulse. We will combine advanced theoretical and experimental tools with the aim of understanding how the electron correlation interplays with the superstrong electromagnetic field. This will provide insight into fundamental processes of interaction of intense laser pulses with matter which are important in a wide range of applications.Read moreRead less