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Peroxiporins
To produce energy, aerobic organisms transform oxygen molecules into water. This reductive mechanism yields toxic radical intermediates, collectively known as reactive oxygen species (ROS). Paradoxically, these physiological processes entail the production of potentially damaging species. Evolution has turned this apparent disadvantage into an opportunity for transmitting information. As a result, redox signaling within the cell is an efficient exquisitely organized process. A key element for its regulation is the physical separation of sources and targets into different cell compartments. Peroxiporins, H2O2 transporting proteins spanning biological membranes, distribute the signal from emit...
The Changing Faces of Glutathione, a Cellular Protagonist
Glutathione (GSH) has been described for a long time just as a defensive reagent against the action of toxic xenobiotics (drugs, pollutants, carcinogens), both directly and as a cofactor for GSH transferases. As a prototype antioxidant, it has been involved in cell protection from the noxious effect of excess oxidant stress, both directly and as a cofactor of glutathione peroxidases. In addition, it has long been known that GSH is capable of forming disulfide bonds with cysteine residues of proteins, and the relevance of this mechanism ("S-glutathionylation") in regulation of protein function has been well documented in a number of research fields. Rather paradoxically, it has also been high...
Metallothioneins and Related Chelators
These sulfur-rich chelators, being important in metal ion homeostasis, find increasing attention. MILS-5, written by 30 internationally recognized experts, focuses on this hot topic. The reader is supported by about 20 tables, more than 80 illustrations and nearly 2000 references. This book is an essential resource for scientists working in a wide range of disciplines from environmental toxicology and inorganic biochemistry all the way through to physiology and medicine.
Environmental Stressors and OxInflammatory Tissues Responses
Environmental risk factors – noise, air pollution, chemical agents, and ultraviolet radiation – impact human health by contributing to the onset and progression of noncommunicable diseases. Accordingly, there is need for preclinical and clinical studies and comprehensive summary of major findings. This book is a state-of-the-art summary of these myriad severe life stressors. The chapters on the different pollutants focus on disease mechanisms (cardiovascular, neurological and metabolic disorders) and on oxidative stress and inflammation. The editors emphasize emerging mechanisms based on dysregulation of the circadian clock, the microbiome, epigenetic pathways, and cognitive function by environmental stressors, and introduce the exposome concept while highlighting existing research gaps. Key Features: Links various environmental stressors to the incidence of noncommunicable diseases Includes chapters on airborne toxins, chemical pollutants, noise, and ultraviolet radiation stressors Contributions from an international team of leading researchers Summarizes the impacts of stressors on disease mechanisms
Biomineralization
Biomineralization is a hot topic in the area of materials, and this volume in the Metals Ions in Life Sciences series takes a systematic approach, dealing with all aspects from the fundamentals to applications. Key biological features of biomineralization, such as gene directed growth and the role of enzymes are covered, as are new areas, including copper/zinc in the jaws of invertebrates or magnetic biomaterials that help birds with navigation
The Dynamic Nature of Mitochondria
Mitochondrial research has exploded over the last ~150 years. This book gives an amazing view on a conceptual change in our understanding of mitochondrial biology. It becomes clear that mitochondria are extremely dynamic in nature, controlling life at multiple levels. Mitochondria rule energy conversion, adapt cells well to changing stress and nutrient conditions, and regulate many cellular processes including immunity. The dynamic nature of mitochondria occurs at an intramitochondrial level but also includes its ability to interact with other organelles and to modulate multiple signalling pathways. It is thus not surprising that alterations or inabilities to ensure this dynamic behaviour is...
Maps and Colours
Colours make the map: they affect the map’s materiality, content, and handling. With a wide range of approaches, 14 case studies from various disciplines deal with the colouring of maps from different geographical regions and periods. Connected by their focus on the (hand)colouring of the examined maps, the authors demonstrate the potential of the study of colour to enhance our understanding of the material nature and production of maps and the historical, social, geographical and political context in which they were made. Contributors are: Diana Lange, Benjamin van der Linde, Jörn Seemann, Tomasz Panecki, Chet Van Duzer, Marian Coman, Anne Christine Lien, Juliette Dumasy-Rabineau, Nadja Danilenko, Sang-hoon Jang, Anna Boroffka, Stephanie Zehnle, Haida Liang, Sotiria Kogou, Luke Butler, Elke Papelitzky, Richard Pegg, Lucia Pereira Pardo, Neil Johnston, Rose Mitchell, and Annaleigh Margey.
Pathobiochemistry of Metabolic Disorders
Pathobiochemistry means biochemistry of disease. In the curriculum of medical studies it may serve as a useful and highly enjoyable “bridge” between the basic science of the first years, and the clinical training later. Practical limitations dictate that from a vast area of human pathology a careful selection of topics must be made. The eleven chapters of this book deal with the basics of acid-base balance disorders, inflammation, reactive oxygen species and antioxidant defense, non-enzymatic glycations, atherosclerosis, metabolic syndrome, ischemia/reperfusion of the heart, protein misfolding disorders, ageing, and consequences of alcohol abuse. The selection covers some pathogenetic processes behind several important medical problems of the present. Further, it more or less implicitly points to the inner causes of diseases. The inner maintenance of body structural and chemical integrity is costly and has its limits that regularly get exceeded, which is the ultimate reason for ageing and contributes to many, often also age-related, civilization diseases.
Organometallics in Environment and Toxicology
Volume 7, devoted to the vital and rapidly expanding research area around metal-carbon bonds (see also MILS-6), focuses on the environment. With more than 2500 references, 35 tables, and nearly 50 illustrations, many of these in color, it is an essential resource for scientists working in the wide range from organometallic chemistry, inorganic biochemistry, environmental toxicology all the way through to physiology and medicine. In 14 stimulating chapters, written by 29 internationally recognized experts, Organometallics in Environment and Toxicology highlights in an authoritative and timely manner environmental cycles of elements involving organometal(loid) compounds as well as the analytical determination of such species. This book examines methane formation involving the nickel coenzyme F430, as well as the organometal(loid) compounds formed by tin, lead, arsenic, antimony, bismuth, selenium, tellurium, and mercury. In addition, it deals with the environmental bioindication, biomonitoring, and bioremediation of organometal(loid)s, and it terminates with methylated metal(loid) species occurring in humans by evaluating assumed and proven health effects caused by these compounds.
Sustaining Life on Planet Earth: Metalloenzymes Mastering Dioxygen and Other Chewy Gases
MILS-15 provides an up-to-date review of the metalloenzymes involved in the activation, production, and conversion of molecular oxygen as well as the functionalization of the chemically inert gases methane and ammonia. Found either in aerobes (humans, animals, plants, microorganisms) or in anaerobes (so-called “impossible bacteria”) these enzymes employ preferentially iron and copper at their active sites, in order to conserve energy by redox-driven proton pumps, to convert methane to methanol, or ammonia to hydroxylamine or other compounds. When it comes to the light-driven production of molecular oxygen, the tetranuclear manganese cluster of photosystem II must be regarded as the key p...
