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Investigating B Cell Development, Maintenance And High-affinity Antibody Production By ENU Mutagenesis
Funder
National Health and Medical Research Council
Funding Amount
$408,388.00
Summary
B cells are essential for the protection against infections. This application aims to identify new genes that are crucial for the development or function of B cells and will investigate how mutations in newly discovered genes contribute to defects in the development and function of B cells and the pathogenesis of B cell leukaemia.
Modeling Human Actin Related Protein 2/3 Complex Subunit 1B (ARPC1B) Deficiency In Mice
Funder
National Health and Medical Research Council
Funding Amount
$755,005.00
Summary
The actin cytoskeleton forms the structure that not only keeps cells in their normal shape but is also essential for the movement of cells and for interaction between cells. We have recently identified the first patients with an immunodeficiency caused by a defect in a gene called ARPC1B, which plays a crucial role in the regulation of actin. Through the investigation of novel mouse models we will elucidate the pathomechanism underlying the disease of these patients.
Role Of SPPL2A On B Cell Survival And Antibody Production In Mice And Humans
Funder
National Health and Medical Research Council
Funding Amount
$592,989.00
Summary
B lymphocytes are a specialised type of blood cells that produce antibodies in response to a pathogen or a vaccine. We have recently discovered that all mature B cells depend for their survival on a previously unknown protein called SPPL2A. This application will investigate the molecular mechanism through which SPPL2A contributes to the survival of B cells. We will also investigate if humans with currently unexplained B cell deficiency have mutations in SPPL2A.
Genotypes And Phenotypes Of Human Primary Non-congenital Antibody Deficiency
Funder
National Health and Medical Research Council
Funding Amount
$544,692.00
Summary
Antibodies represent a key component of the immune system, and a particularly important in defence against bacterial and viral infections. In some individuals, antibody production fails, rendering them more susceptible to infection. In most cases, the mechanism of antibody failure is unknown. This project seeks to determine the genetic and cellular mechanisms of antibody failure. This could improve diagnosis for immune deficiency, and improve our overall understanding of the immune system.
Understanding The Role Of The Putative Phospholipid Translocase ATP11c In B Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$455,153.00
Summary
The immune system protects humans against recurrent infections with a wide range of pathogens. Formation of antibodies is a crucial element of the immune response. Defects in the production of antibodies can lead to recurrent and often life-threatening infections. This project seeks to understand a genetic defect in mice resulting in an almost complete absence of antibody producing cells, thereby causing a disease that is similar to some forms of human immunodeficiency.
How BANK1 Pathway Defects In B Cells Cause Human Lupus
Funder
National Health and Medical Research Council
Funding Amount
$1,316,839.00
Summary
Autoimmune diseases affect 1 in 20 Australians and are incurable. To find effective therapies, we need to understand the genes that cause disease in humans. We have sequenced the entire genome of patients with an autoimmune disease and found several patients carrry two mutations in genes important for activation of B cells and shown these mutations cause disease. We plan to understand how these genes prevent autoimmunity, and to identify the best treatment for patients with these mutations.
Australian Laureate Fellowships - Grant ID: FL170100019
Funder
Australian Research Council
Funding Amount
$2,606,250.00
Summary
Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know- ....Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know-how to Australia and allow the interrogation of 3D structure and dynamics in selected protein regions. The expected outcomes of the project will have immediate benefits for the rational engineering of biocatalysts and in the design of lead compounds in drug development.Read moreRead less
Uncovering The Basis Of Inflammatory And Immunodeficiency Diseases
Funder
National Health and Medical Research Council
Funding Amount
$15,718,075.00
Summary
A world-class team from 3 institutions, spanning disciplines of clinical and experimental immunology, therapeutics, signalling and genetics, will identify how immune and inflammatory responses are controlled in both health and disease. The major outcomes of this work will be the generation of new knowledge, concepts and approaches to diagnose, prevent and treat the major human health problems of autoimmune diseases, inflammation, allergy and immunodeficiency.
ARC Research Network in Spatially Integrated Social Science. The ARC Research Network in Spatially Integrated Social Science (SISS) builds Australia's capacity and capability for innovative, collaborative, cross-disciplinary effort to investigate the impacts of change on the behaviour and well-being of people and the fortunes of places. SISS theories and research tools permit the integration of diverse and complex databases, the generation of new synthetic datasets, the incorporation of spatial ....ARC Research Network in Spatially Integrated Social Science. The ARC Research Network in Spatially Integrated Social Science (SISS) builds Australia's capacity and capability for innovative, collaborative, cross-disciplinary effort to investigate the impacts of change on the behaviour and well-being of people and the fortunes of places. SISS theories and research tools permit the integration of diverse and complex databases, the generation of new synthetic datasets, the incorporation of spatial concepts into statistical analysis and modelling, powerful visualisation of information, and the building spatial decision support systems, to provide an improved evidence base and better informed decision-making to address the significant challenges facing Australia's people and its places.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100026
Funder
Australian Research Council
Funding Amount
$178,839.00
Summary
Ultrafast magic angle spinning solid-state nuclear magnetic resonance capability. This project aims to extend an existing nuclear magnetic resonance (NMR) spectrometer for structural investigations of proteins in the solid state. Many proteins, such as amyloids and flexible proteins, cannot be studied by X-ray crystallography, solution NMR spectroscopy or cryoelectron microscopy, because they cannot be crystallised or are not sufficiently soluble, or are structurally too heterogeneous. This proj ....Ultrafast magic angle spinning solid-state nuclear magnetic resonance capability. This project aims to extend an existing nuclear magnetic resonance (NMR) spectrometer for structural investigations of proteins in the solid state. Many proteins, such as amyloids and flexible proteins, cannot be studied by X-ray crystallography, solution NMR spectroscopy or cryoelectron microscopy, because they cannot be crystallised or are not sufficiently soluble, or are structurally too heterogeneous. This project will extend the capability of an existing 800 MHz NMR spectrometer to solid-state NMR. By offering ultrafast magic angle spinning speeds, the system aims to afford greatly enhanced sensitivity and multidimensional NMR spectra of protein systems not previously amenable to structural analysis by NMR spectroscopy or other techniques. This will have important applications in biotechnology and biomedicine.Read moreRead less