This book provides an insightful and useful forum to help understand the relevance of hydrogen peroxide generation in human biology. This book is for readers with an interest in the generation of ROS, but without expertise in chemistry, and experts in oxidative stress, but without detailed understanding of the biologically relevant setting.
This book provides an insightful and useful forum to help understand the relevance of hydrogen peroxide generation in human biology. This book is for readers with an interest in the generation of ROS, but without expertise in chemistry, and experts in oxidative stress, but without detailed understanding of the biologically relevant setting.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
University of Otago in Christchurch, New Zealand. She is also the Associate Dean of Research at the University of Otago. Her research is devoted to the role of reactive oxidants in biological systems, the consequences of their formation and the effects they initiate in cell signaling, as well as the protection offered by antioxidants. She is also interested in the ways in which neutrophils cause injury to cells and tissues in the process of acute inflammation and infection, and the contribution of neutrophil-derived oxidants and proteinases to the resulting pathology. A focus of this research has been the toxicity of hypochlorous acid (HOCl) and hypobromous acid (HOBr), major oxidants produced by neutrophils, and the effects of chloramines and bromamines which are derived from them. She has shown that these oxidants initiate cell stress signaling responses and death pathways including apoptosis. Vissers is the author or co-author of more than 100 peer reviewed journal articles, book chapters and coference proceedings. Mark Hampton and Tony Kettle are also both professors at University of Otago in Christchurch.
Inhaltsangabe
Introduction: What is ROS? The generation of hydrogen peroxide in biology. The neutrophil NADPH oxidase. The NOX enzymes. Mitochondrial oxidant production. Hydrogen peroxide generation in high oxygen conditions. Hydrogen peroxide generation in inflammation. Proteins that metabolise and utilise hydrogen peroxide. Hemoglobin. Myeloperoxidase. Eosinophil peroxidise. Catalase. Glutathione peroxidise. The biological consequences of hydrogen peroxide production. Hydrogen peroxide in inflammation. Protein peroxides. The generation of hypohalous acids. Hydrogen peroxide mediated signalling. Antioxidant protection against hydrogen peroxide - thiol chemistry. The Glutathione system. Thioredoxin system. Peroxiredoxins
Introduction: What is ROS? The generation of hydrogen peroxide in biology. The neutrophil NADPH oxidase. The NOX enzymes. Mitochondrial oxidant production. Hydrogen peroxide generation in high oxygen conditions. Hydrogen peroxide generation in inflammation. Proteins that metabolise and utilise hydrogen peroxide. Hemoglobin. Myeloperoxidase. Eosinophil peroxidise. Catalase. Glutathione peroxidise. The biological consequences of hydrogen peroxide production. Hydrogen peroxide in inflammation. Protein peroxides. The generation of hypohalous acids. Hydrogen peroxide mediated signalling. Antioxidant protection against hydrogen peroxide - thiol chemistry. The Glutathione system. Thioredoxin system. Peroxiredoxins
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