Inhaltsangabe
Biological aging as the time-depending general decline of biological systems associated with a progressively increasing mortality risk is a general phenomenom of great significance. The underlying processes are very complex and depending on genetic and environment factors. These factors encode or affect a network of interconnected cellular pathways. In no system this network has been deciphered in greater detail. However, the strategy of studying various biological systems has let to the identification of pathways and specific modules and makes it obvious that aging is the result of different overlapping mechanisms and pathways. Some of these appear to be conserved ("public") among species, others are specific or "private" and only of significance in one or a few organisms. This volume in the series on "Biology of aging and its modulation" specifically focuses on organismic aging. The book covers research on organisms from lower to higher complexity representing examples from very diverse taxa like photosynthetic plants, fungi, sponges, nematodes, flies, birds and mammals. Such a broad treatise of this complex topic provides a comprehensive "flavor" about the current issues dealt with in this rapidly growing scientific discipline.
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Reseña del editor
Biological aging as the time-depending general decline of biological systems associated with a progressively increasing mortality risk is a general phenomenom of great significance. The underlying processes are very complex and depending on genetic and environment factors. These factors encode or affect a network of interconnected cellular pathways. In no system this network has been deciphered in greater detail. However, the strategy of studying various biological systems has let to the identification of pathways and specific modules and makes it obvious that aging is the result of different overlapping mechanisms and pathways. Some of these appear to be conserved ("public") among species, others are specific or "private" and only of significance in one or a few organisms. This volume in the series on "Biology of aging and its modulation" specifically focuses on organismic aging. The book covers research on organisms from lower to higher complexity representing examples from very diverse taxa like photosynthetic plants, fungi, sponges, nematodes, flies, birds and mammals. Such a broad treatise of this complex topic provides a comprehensive "flavor" about the current issues dealt with in this rapidly growing scientific discipline.
Reseña del editor
This Volume of the Series is devoted to aging at the organismic level. Different levels of organisation, ranging from single cell organisms (yeast) to humans are included. In addition to the currently most important model systems like yeast, filamentous fungi, Caenorabditis elegans, flies and mice, other systems like sponges and plants are discussed. Most importantly, research using different aging models can be expected to unravel the most important basic mechanisms of aging that are conserved in all species. In addition, a critical discussion of what can be expected from this kind of strategy for the understanding of aging in humans is included. This book serves as excellent reading for graduate students, scientists in Medical Research, Medical doctors, researchers in pharmacological fields, researchers, biologists, and experts of this area.
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Aging of Organisms
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Taschenbuch. Zustand: Neu. Aging of Organisms | H. D. Osiewacz | Taschenbuch | ix | Englisch | 2010 | Springer | EAN 9789048163328 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu. Artikel-Nr. 107245192
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Taschenbuch. Zustand: Neu. Druck auf Anfrage Neuware - Printed after ordering - Biological aging as the time-depending general decline of biological systems associated with a progressively increasing mortality risk is a general phenomenom of great significance. The underlying processes are very complex and depending on genetic and environment factors. These factors encode or affect a network of interconnected cellular pathways. In no system this network has been deciphered in greater detail. However, the strategy of studying various biological systems has let to the identification of pathways and specific modules and makes it obvious that aging is the result of different overlapping mechanisms and pathways. Some of these appear to be conserved ('public') among species, others are specific or 'private' and only of significance in one or a few organisms. This volume in the series on 'Biology of aging and its modulation' specifically focuses on organismic aging. The book covers research on organisms from lower to higher complexity representing examples from very diverse taxa like photosynthetic plants, fungi, sponges, nematodes, flies, birds and mammals. Such a broad treatise of this complex topic provides a comprehensive 'flavor' about the current issues dealt with in this rapidly growing scientific discipline. Artikel-Nr. 9789048163328
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Aging of Organisms (Biology of Aging and its Modulation)
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