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Biochemistry: The Chemical Reactions of Living Cells is a well-integrated, up-to-date reference for basic chemistry and underlying biological phenomena. Biochemistry is a comprehensive account of the chemical basis of life, describing the amazingly complex structures of the compounds that make up cells, the forces that hold them together, and the chemical reactions that allow for recognition, signaling, and movement. This book contains information on the human body, its genome, and the action of muscles, eyes, and the brain. * Thousands of literature references provide introduction to current research as well as historical background * Contains twice the number of chapters of the first edition * Each chapter contains boxes of information on topics of general interest
This supplemental text for a freshman chemistry course explains the formation of ionic bonds in solids and the formation of covalent bonds in atoms and molecules, then identifies the factors that control the rates of reactions and describes more complicated types of bonding. Annotation (c)2003 Book News, Inc., Portland, OR (booknews.com).
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How did life begin? Starting with the Big Bang Theory, this book systematically discusses scientific findings and hypotheses on topics such as the origin of chemical elements, formation of life on Earth, evolution of life elements, their subtle chemical reactions and miraculous physiological functions. The content in this book is carefully arranged to focus on major scientific discoveries in various disciplines related to life science, with particular emphasis on the vital relationship between chemical reactions in the human body and health, shedding light on hot issues of public concern such as nutrition and human longevity. Important concepts covered include chemical circulation and the dynamic balance of elements both within ourselves, and with the environment. Ultimately, the takeaway message is that the success of keeping the tree of life evergreen depends not only on the advancement of life science research, but also on whether human beings can follow the laws of nature and maintain a harmonious relationship with the earth.
Presents an introduction to the biochemistry, describes the history of the science, and discusses chemical reactions found in plants and animals.
The search for life in the solar system and beyond has to date been governed by a model based on what we know about life on Earth (terran life). Most of NASA's mission planning is focused on locations where liquid water is possible and emphasizes searches for structures that resemble cells in terran organisms. It is possible, however, that life exists that is based on chemical reactions that do not involve carbon compounds, that occurs in solvents other than water, or that involves oxidation-reduction reactions without oxygen gas. To assist NASA incorporate this possibility in its efforts to search for life, the NRC was asked to carry out a study to evaluate whether nonstandard biochemistry might support life in solar system and conceivable extrasolar environments, and to define areas to guide research in this area. This book presents an exploration of a limited set of hypothetical chemistries of life, a review of current knowledge concerning key questions or hypotheses about nonterran life, and suggestions for future research.
Uses illustrations to discuss the various chemical reactions, both simple and complex, between atoms and molecules.
This book provides an introduction to the analysis of stochastic dynamic models in biology and medicine. The main aim is to offer a coherent set of probabilistic techniques and mathematical tools which can be used for the simulation and analysis of various biological phenomena. These tools are illustrated on a number of examples. For each example, the biological background is described, and mathematical models are developed following a unified set of principles. These models are then analyzed and, finally, the biological implications of the mathematical results are interpreted. The biological topics covered include gene expression, biochemistry, cellular regulation, and cancer biology. The book will be accessible to graduate students who have a strong background in differential equations, the theory of nonlinear dynamical systems, Markovian stochastic processes, and both discrete and continuous state spaces, and who are familiar with the basic concepts of probability theory.
This novel, interdisciplinary text presents biological understanding in terms of general underlying principles, treating energy as the overarching theme and emphasizing the all-pervading influence of energy transformation in every process, both living and non-living. Key processes and concepts are explained in turn, culminating in a description of the overall functioning and regulation of a living cell. The book rounds off the story of life with a brief account of the endosymbiotic origins of eukaryotic cells, the development of multicellularity, and the emergence of modern plants and animals. Multidisciplinary research in science is becoming commonplace. However, as traditional boundaries start to break down, researchers are increasingly aware of the deficiencies in their knowledge of related disciplines. Introducing Biological Energetics redresses the reciprocal imbalance in the knowledge levels of physical and biological scientists in particular. Its style of presentation and depth of treatment has been carefully designed to unite these two readerships.