Characterization of erythroid differentiation related factor (EDRF): a novel a-globin binding protein. Hemoglobin, a four-subunit protein comprising two alpha and two beta polypeptide chains, is the essential oxygen transporter found in all mammals. Problems with the synthesis of hemoglobin can give rise to a range of common and serious human disorders, including thalassaemia and anemia. We have discovered a protein, EDRF, that appears to interact directly with alpha-globin (but not beta-globin) ....Characterization of erythroid differentiation related factor (EDRF): a novel a-globin binding protein. Hemoglobin, a four-subunit protein comprising two alpha and two beta polypeptide chains, is the essential oxygen transporter found in all mammals. Problems with the synthesis of hemoglobin can give rise to a range of common and serious human disorders, including thalassaemia and anemia. We have discovered a protein, EDRF, that appears to interact directly with alpha-globin (but not beta-globin) and to play a role in the regulation of hemoglobin production. We now seek to understand the nature of this interaction at a molecular level and mechanistic level.Read moreRead less
Biophysical characterization of protein interactions within a transcription factor network. Gene expression is regulated in part by interactions between pairs and groups of proteins known as transcription factors and co-regulators. These proteins assemble into complexes at gene promoters and enhancers and thereby control the expression of that gene. Little is known at the molecular level of how these complexes form and how different interactions cooperate or compete with each other. In this prop ....Biophysical characterization of protein interactions within a transcription factor network. Gene expression is regulated in part by interactions between pairs and groups of proteins known as transcription factors and co-regulators. These proteins assemble into complexes at gene promoters and enhancers and thereby control the expression of that gene. Little is known at the molecular level of how these complexes form and how different interactions cooperate or compete with each other. In this proposal we aim to define a complex between two transcriptional regulators (HOP and SRF) involved in cardiac development and to begin to define other interactions that make up a transcriptional network essential for development of a normal heart.Read moreRead less
Protein methylation: a fundamental regulator of the interactome. Proteins are the functional molecules of the cell. They interact with each other to form small 'protein machines' that are part of large, complicated networks. This study will examine how the cell makes tiny changes to proteins, through the addition of one carbon and two hydrogen atoms, and how this is important in the regulation of protein interactions. The proteins of baker's yeast, a common model organism, will be studied here. ....Protein methylation: a fundamental regulator of the interactome. Proteins are the functional molecules of the cell. They interact with each other to form small 'protein machines' that are part of large, complicated networks. This study will examine how the cell makes tiny changes to proteins, through the addition of one carbon and two hydrogen atoms, and how this is important in the regulation of protein interactions. The proteins of baker's yeast, a common model organism, will be studied here. However, the findings will be directly relevant to understanding the function of many proteins in plants, animals and man.
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Characterisation of the CLIC1 chloride ion channel by a novel biophysical method: Site-Directed-Spin-Labeling Electron Paramagnetic Resonance Spectroscopy. Chloride ion channels are involved in diverse physiological processes and channel malfunction can lead to severe diseases. This project examines the structure and conformational changes of a member of the newly described chloride channel family (CLIC1) using an emerging biophysical technique. CLIC1 is unique due to its ability to transit be ....Characterisation of the CLIC1 chloride ion channel by a novel biophysical method: Site-Directed-Spin-Labeling Electron Paramagnetic Resonance Spectroscopy. Chloride ion channels are involved in diverse physiological processes and channel malfunction can lead to severe diseases. This project examines the structure and conformational changes of a member of the newly described chloride channel family (CLIC1) using an emerging biophysical technique. CLIC1 is unique due to its ability to transit between soluble and active membrane channel forms. Our novel approach to determine the channel structure represents a major advance in overcoming numerous difficulties associated with traditional atomic resolution structural-biology techniques. This proposal also opens up new experimental avenues to understand biological important events associated with ion channels, including channel gating.Read moreRead less
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
In vivo studies on the regulation of transcription and translation in Bacillus subtilis. Genetic information from a chromosome made of DNA is converted (transcription) into RNA that is then converted (translation) into protein. Transcription and translation are both highly regulated processes, and in bacteria are thought to occur very close together. Recent evidence suggests this close coupling is not as extensive as thought. This project will continue work to investigate the composition of tran ....In vivo studies on the regulation of transcription and translation in Bacillus subtilis. Genetic information from a chromosome made of DNA is converted (transcription) into RNA that is then converted (translation) into protein. Transcription and translation are both highly regulated processes, and in bacteria are thought to occur very close together. Recent evidence suggests this close coupling is not as extensive as thought. This project will continue work to investigate the composition of transcription complexes involved in production of different types of RNA, and also to investigate the level of translational coupling in live cells. This will provide useful information on these fundamental processes.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
Indoleamine 2,3-dioxygenase-2: a newly discovered enzyme with a key role in kidney function. We have discovered an enzyme, IDO2, that metabolises the amino acid tryptophan. The enzyme is found in kidney tubule cells and we propose that IDO2 activity regulates sodium reabsorption by the renal tubular cells. Regulation of sodium balance is important for determining blood pressure in health and disease.
Role of the proteasome in eradication of misfolded proteins in fungal cell factories. Filamentous fungi contribute to the well being of modern society as surrogate hosts for the synthesis of vaccines, hormones and enzymes for their application to health, agriculture, industry and the environment. However, attempts to express foreign proteins to the full potential of a given system have been disappointing. It is vital to understand unexplored molecular and physiological factors such as protein ....Role of the proteasome in eradication of misfolded proteins in fungal cell factories. Filamentous fungi contribute to the well being of modern society as surrogate hosts for the synthesis of vaccines, hormones and enzymes for their application to health, agriculture, industry and the environment. However, attempts to express foreign proteins to the full potential of a given system have been disappointing. It is vital to understand unexplored molecular and physiological factors such as protein quality control in the cell to take advantage of the global opportunities that recombinant gene expression indisputably offers in the form of unrestricted supply of proteins of social and economic value. The project will create novel IP and licensing opportunities for Australia.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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