Preface/Front Matter

L. Guarente, L. Partridge, D. Wallace
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Abstract

The past decade or so has witnessed an explosion in knowledge about the molecular basis of the aging process and its modulation by genes and diet. This book was designed to capture the field of aging research at this exciting moment in its history. The chapters were chosen to represent many of the important threads that are woven together to provide the current framework of our understanding of aging, at the level of molecules, cells, tissues, and the whole organism. One group of chapters focuses on the model organisms that have been used to dissect the genetics and molecular biology of aging in recent years. These include yeast, C. elegans, Drosophila , and mice. The strengths and weaknesses of each system are on display, and the major findings that have emerged are described in detail. Several of the pathways identified show evolutionary conservation among these model systems, and are hence candidates for modulation of human aging. The roles of stress resistance and of DNA repair are discussed, as are genomic systems and population genetic approaches currently used to investigate aging in model organisms and humans. Human aging may have unique features that are not shared by the model organisms, and this is also addressed. Another theme in this book is the interaction between diet, metabolism, and life span. It has been known for about 75 years that a low calorie diet, termed calorie restriction or CR, can extend lifespan in rodents and in an expanding range of organisms, and these physiological
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前言/前页
过去十年左右的时间里,人们对衰老过程的分子基础以及基因和饮食对衰老过程的调节的了解出现了爆炸式增长。这本书旨在捕捉老龄化研究领域在其历史上这个激动人心的时刻。这些章节被选择来代表许多重要的线索,这些线索编织在一起,提供了我们在分子、细胞、组织和整个生物体水平上理解衰老的当前框架。一组章节集中在模式生物,已被用来解剖遗传和分子生物学老化近年来。其中包括酵母菌、秀丽隐杆线虫、果蝇和老鼠。每个系统的优点和缺点都在展示中,并且详细描述了已经出现的主要发现。确定的几种途径显示了这些模型系统之间的进化守恒,因此是人类衰老调节的候选途径。本文讨论了抗逆性和DNA修复的作用,以及目前用于研究模式生物和人类衰老的基因组系统和群体遗传方法。人类衰老可能具有模式生物所没有的独特特征,这也得到了解决。这本书的另一个主题是饮食、新陈代谢和寿命之间的相互作用。大约75年前,人们就已经知道,低卡路里饮食,即卡路里限制或CR,可以延长啮齿动物和越来越多的生物体的寿命,这些生理上的
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