The effect of nitrogen monoxide on intracellular iron metabolism. We discovered that the crucial signalling molecule nitrogen monoxide (NO) mediates iron (Fe) and glutathione (GSH) release by the transporter MRP1 probably as an NO-Fe-GSH complex [DR(2006) PNAS USA 103:7670-5]. During our current ARC grant we have markedly extended these findings by showing that another molecule, GST Pi and MRP1 form part of a coordinated system that stores and transports NO as complexes of Fe and GSH, markedly e ....The effect of nitrogen monoxide on intracellular iron metabolism. We discovered that the crucial signalling molecule nitrogen monoxide (NO) mediates iron (Fe) and glutathione (GSH) release by the transporter MRP1 probably as an NO-Fe-GSH complex [DR(2006) PNAS USA 103:7670-5]. During our current ARC grant we have markedly extended these findings by showing that another molecule, GST Pi and MRP1 form part of a coordinated system that stores and transports NO as complexes of Fe and GSH, markedly extending NO half-life from milliseconds to hours. This has broad implications for understanding NO activity in many processes which have major vital health implications, including tumour cell killing by macrophages and blood pressure control.Read moreRead less
The Effect of Nitrogen Monoxide on Intracellular Iron Metabolism. For the first time, we discovered that nitric oxide (NO) is actively transported from cells by a protein that is known to also transport glutathione (GSH). This is important, as NO was thought to passively diffuse from cells. Active transport overcomes the problems of diffusion which is inefficient and non-targeted. Moreover, NO is released as a complex with iron and GSH which markedly increases its half-life. These findings have ....The Effect of Nitrogen Monoxide on Intracellular Iron Metabolism. For the first time, we discovered that nitric oxide (NO) is actively transported from cells by a protein that is known to also transport glutathione (GSH). This is important, as NO was thought to passively diffuse from cells. Active transport overcomes the problems of diffusion which is inefficient and non-targeted. Moreover, NO is released as a complex with iron and GSH which markedly increases its half-life. These findings have broad implications for understanding the activity of NO in many processes which have major health implications, including tumour cell killing by macrophages, blood pressure etc.Read moreRead less
The effect of nitrogen monoxide on intracellular iron metabolism. During our current ARC grant we discovered a novel relationship between energy metabolism and NO-mediated Fe efflux and showed that glutathione (GSH) is vital for this release mechanism (DR5,6). Intriguingly, this transport process is part of the cytotoxic effector machinery of activated macrophages against tumours, and requires further elucidation. We also showed that CO affects Fe metabolism by binding to Fe, and CO may modulate ....The effect of nitrogen monoxide on intracellular iron metabolism. During our current ARC grant we discovered a novel relationship between energy metabolism and NO-mediated Fe efflux and showed that glutathione (GSH) is vital for this release mechanism (DR5,6). Intriguingly, this transport process is part of the cytotoxic effector machinery of activated macrophages against tumours, and requires further elucidation. We also showed that CO affects Fe metabolism by binding to Fe, and CO may modulate NO's function. We will:-
(1) Examine if NO-mediated Fe release results in GSH efflux
(2) Identify the mechanism of NO-mediated Fe efflux.
(3) Assess the effect of inducing haem oxygenase 1 on Fe metabolism
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Delineating the role of the GxxxG motif in transmembrane protein metabolism. This study will define how a well defined motif involved in transmembrane interactions affects the metabolism of proteins. Since this motif is present in proteins involved in Alzheimer's disease it has potential benefits for community health and combating ageing.
Molecular basis of antimicrobial and insecticidal activity of floral defensins from the Solonaceae. The flowers of Solanaceous plants produce high levels of defensins that protect the reproductive tissues against potential damage from microorganisms. The presence of related defensins in mammals, insects and plants indicates that they are part of an ancient defence mechanism. The floral defensins are potent antifungal molecules and surprisingly also have insecticidal activity. The aim of this pro ....Molecular basis of antimicrobial and insecticidal activity of floral defensins from the Solonaceae. The flowers of Solanaceous plants produce high levels of defensins that protect the reproductive tissues against potential damage from microorganisms. The presence of related defensins in mammals, insects and plants indicates that they are part of an ancient defence mechanism. The floral defensins are potent antifungal molecules and surprisingly also have insecticidal activity. The aim of this project is to understand the molecular basis of the antifungal and insecticide activity and to use this knowledge to produce improved molecules for crop protection.Read moreRead less
Structure, dynamics and interactions of Plasmodium falciparum merozoite surface protein-2. The solution structure of the merozoite surface protein-2 (MSP-2), from Plasmodium falciparum the causative agent of malaria, will be determined along with an analysis of the motions of residues within the protein. This will allow insights into interactions occurring at the surface coat of the organism, where MSP-2 is a major component. An understanding of how this protein interacts with antibodies of the ....Structure, dynamics and interactions of Plasmodium falciparum merozoite surface protein-2. The solution structure of the merozoite surface protein-2 (MSP-2), from Plasmodium falciparum the causative agent of malaria, will be determined along with an analysis of the motions of residues within the protein. This will allow insights into interactions occurring at the surface coat of the organism, where MSP-2 is a major component. An understanding of how this protein interacts with antibodies of the host's immune system will also be gained. The techniques established during the study of MSP-2 will be useful for the study of larger proteins and protein complexes from many systems in the future.Read moreRead less
How do cells regulate redox environment at the subcellular level? Most organisms live in an aerobic environment that subjects their cells to reactive oxygen species. Reactive oxygen species have been proposed to lead to ageing, and in many diseases the balance between oxidising and reducing conditions (the redox environment) is perturbed. This research will identify how different cellular structures sense and maintain this redox homeostasis, not just in the whole cell, but within the different ....How do cells regulate redox environment at the subcellular level? Most organisms live in an aerobic environment that subjects their cells to reactive oxygen species. Reactive oxygen species have been proposed to lead to ageing, and in many diseases the balance between oxidising and reducing conditions (the redox environment) is perturbed. This research will identify how different cellular structures sense and maintain this redox homeostasis, not just in the whole cell, but within the different organelles in the cell. The work will help identify which cell compartments and processes are affected in different disease states and provide a fundamental understanding of how cells coordinate their different organelles to maintain the balance between oxidising and reducing conditions.Read moreRead less
Searching for novel protein domains: A bioinformatic analysis of whole proteomes. The functional annotation of the set of proteins encoded by a whole genome (the "proteome") is a crucial component of genome research. The aim of this project is to extend the functional and structural annotation of large protein databases by identifying novel protein domain families and building a novel domain library. Our approach is semi-automated and fast, thanks to execution in the fastest parallel supercom ....Searching for novel protein domains: A bioinformatic analysis of whole proteomes. The functional annotation of the set of proteins encoded by a whole genome (the "proteome") is a crucial component of genome research. The aim of this project is to extend the functional and structural annotation of large protein databases by identifying novel protein domain families and building a novel domain library. Our approach is semi-automated and fast, thanks to execution in the fastest parallel supercomputer in Australia available at the Victorian Partnership for Advanced Computing. Our preliminary data demonstrates that our method is feasible.Read moreRead less
Autophagy and the nucleus. Autophagy is a degradation pathway that is essential for survival, internal change (differentiation and development) and maintenance of physiological equilibrium (homeostasis). Moreover autophagy serves to protect higher organisms against infections, cancer and neurodegeneration. This project seeks to better understand the mechanisim by which parts of the nucleus can be degraded by autophagy and how this relates to diseases which may involve defects in, or abnormal deg ....Autophagy and the nucleus. Autophagy is a degradation pathway that is essential for survival, internal change (differentiation and development) and maintenance of physiological equilibrium (homeostasis). Moreover autophagy serves to protect higher organisms against infections, cancer and neurodegeneration. This project seeks to better understand the mechanisim by which parts of the nucleus can be degraded by autophagy and how this relates to diseases which may involve defects in, or abnormal degradation of nuclear components. Benefit will accrue from a contribution to knowledge with future potential to impact on disease, as well as strengthening links with the international network working in the field of autophagy.Read moreRead less
Development of high-throughput in silico methods for protein structure determination by X-ray crystallography. This work will have major outcomes for structural biology research at a national and international level. The ability to perform MR calculations using an exhaustive set of search models will offer a timesaving of weeks to months in a typical successful structure determination. Further, significant insights will be gained into the use of high-performance GRID computing in protein struct ....Development of high-throughput in silico methods for protein structure determination by X-ray crystallography. This work will have major outcomes for structural biology research at a national and international level. The ability to perform MR calculations using an exhaustive set of search models will offer a timesaving of weeks to months in a typical successful structure determination. Further, significant insights will be gained into the use of high-performance GRID computing in protein structure determination by X-ray crystallography. This knowledge has considerable impact on our ability to undertake high quality structural biology research - a key area in the majority of biological research programmes. Read moreRead less