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Biochemical analysis is a rapidly expanding field and is a key component of modern drug discovery and research. Methods of Biochemical Analysis provides a periodic and authoritative review of the latest achievements in biochemical analysis. Founded in 1954 by Professor David Glick, Methods of Biochemical Analysis provides a timely review of the latest developments in the field.

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Most biological science departments run general skills courses for their first years, which include some combination of a range of topics from lab skills, writing and presentation to basic maths, statistics and IT. The IT section of these courses tend to include some internet coverage but the trend towards learning how to find, access, manage and correctly cite online resources is rapidly becoming a required necessity for every student throughout their undergraduate career. At present, there are no internet guides that specifically target this audience, despite the increasing importance placed on the use of online resources and the difficulties students encounter trying to make effective use of the information that is available. There are a lot of resources on the internet and students, especially first years, can feel swamped. As well as needing a guide, students need support to help them identify good, reliable information on the net. They also need guidance in administering the organisation of their searches and the materials that they discover on the internet. This simple guide will help bioscience students to access the information they need on the internet, and to make the most efficient and effective use of their time online.

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Focusing on the electrochemistry of ionic liquids, Electrochemical Aspects of Ionic Liquids examines the fundamentals and electrochemical applications of ionic liquid. This professional-oriented book provides the latest data for engineers and researchers in relevant industry as well as academic scientists and graduate students. The book starts with the importance and fundamental properties of ionic liquids, followed by a more general review of electrochemical processes, and finally covers some highly specialized and novel developments such as Ionic Liquidized DNA.

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The fascinating autobiographical reflections of Nobel Prize winner George Olah How did a young man who grew up in Hungary between the two World Wars go from cleaning rubble and moving pianos at the end of World War II in the Budapest Opera House to winning the Nobel Prize in Chemistry? George Olah takes us on a remarkable journey from Budapest to Cleveland to Los Angeles-with a stopover in Stockholm, of course. An innovative scientist, George Olah is truly one of a kind, whose amazing research into extremely strong acids and their new chemistry yielded what is now commonly known as superacidic «magic acid chemistry.» A Life of Magic Chemistry is an intimate look at the many journeys that George Olah has traveled-from his early research and teaching in Hungary, to his move to North America where, during his years in industry, he continued his study of the elusive cations of carbon, to his return to academia in Cleveland, and, finally, his move to Los Angeles, where he built the Loker Hydrocarbon Research Institute to find new solutions to the grave problem of the world's diminishing natural oil and gas resources and to mitigate global warming by recycling carbon dioxide into hydrocarbon fuels and products. Professor Olah invites the reader to enjoy the story of his remarkable path-marked by hard work, imagination, and never-ending quests for discovery-which eventually led to the Nobel Prize. Intertwining his research and teaching with a unique personal writing style truly makes A Life of Magic Chemistry an engaging read. His autobiography not only touches on his exhilarating life and pursuit for new chemistry but also reflects on the broader meaning of science in our perpetual search for understanding and knowledge.

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Reductionism as a scientific methodology has been extraordinarily successful in biology. However, recent developments in molecular biology have shown that reductionism is seriously inadequate in dealing with the mind-boggling complexity of integrated biological systems. This title presents an appropriate balance between science and philosophy and covers traditional philosophical treatments of reductionism as well as the benefits and shortcomings of reductionism in particular areas of science. Discussing the issue of reductionism in the practice of medicine it takes into account the holistic and integrative aspects that require the context of the patient in his biological and psychological entirety. The emerging picture is that what first seems like hopeless disagreements turn out to be differences in emphasis. Although genes play an important role in biology, the focus on genetics and genomics has often been misleading. The consensus view leads to pluralism: both reductionst methods and a more integrative approach to biological complexity are required, depending on the questions that are asked. * An even balance of contributions from scientists and philosophers of science – representing a unique interchange between both communities interested in reductionism

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In Monte Carlo Methods in Chemical Physics: An Introduction to the Monte Carlo Method for Particle Simulations J. Ilja Siepmann Random Number Generators for Parallel Applications Ashok Srinivasan, David M. Ceperley and Michael Mascagni Between Classical and Quantum Monte Carlo Methods: «Variational» QMC Dario Bressanini and Peter J. Reynolds Monte Carlo Eigenvalue Methods in Quantum Mechanics and Statistical Mechanics M. P. Nightingale and C.J. Umrigar Adaptive Path-Integral Monte Carlo Methods for Accurate Computation of Molecular Thermodynamic Properties Robert Q. Topper Monte Carlo Sampling for Classical Trajectory Simulations Gilles H. Peslherbe Haobin Wang and William L. Hase Monte Carlo Approaches to the Protein Folding Problem Jeffrey Skolnick and Andrzej Kolinski Entropy Sampling Monte Carlo for Polypeptides and Proteins Harold A. Scheraga and Minh-Hong Hao Macrostate Dissection of Thermodynamic Monte Carlo Integrals Bruce W. Church, Alex Ulitsky, and David Shalloway Simulated Annealing-Optimal Histogram Methods David M. Ferguson and David G. Garrett Monte Carlo Methods for Polymeric Systems Juan J. de Pablo and Fernando A. Escobedo Thermodynamic-Scaling Methods in Monte Carlo and Their Application to Phase Equilibria John Valleau Semigrand Canonical Monte Carlo Simulation: Integration Along Coexistence Lines David A. Kofke Monte Carlo Methods for Simulating Phase Equilibria of Complex Fluids J. Ilja Siepmann Reactive Canonical Monte Carlo J. Karl Johnson New Monte Carlo Algorithms for Classical Spin Systems G. T. Barkema and M.E.J. Newman

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Written by a truly global team of researchers from Europe, Asia and the Americas with strong ties to agricultural research centers and the agrochemical industry, this ready reference and handbook focuses on the role of nitric oxide signaling in plant defense systems against pathogens, parasites and environmental stress response. This is one of the first titles to provide a comprehensive overview of the physiological role of this ubiquitous signaling molecule in higher plants, making it an indispensable resource not only for academic institutions but also for those working in the agrochemical industry.

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This completely revised, fourth edition of Introduction to Plant Population Biology continues the approach taken by its highly successful predecessors. Ecological and genetic principles are introduced and theory is made accessible by clear, accurate exposition with plentiful examples. Models and theoretical arguments are developed gradually, requiring a minimum of mathematics. The book emphasizes the particular characteristics of plants that affect their population biology, and evolutionary questions that are particularly relevant for plants. Wherever appropriate, it is shown how ecology and genetics interact, presenting a rounded picture of the population biology of plants. Topics covered include variation and its inheritance, genetic markers including molecular markers, plant breeding systems, ecological genetics, intraspecific interactions, population dynamics, regional dynamics and metapopulations, competition and coexistence, and the evolution of breeding systems and life history. An extensive bibliography provides access to the recent literature that will be invaluable to students and academics alike. Effective integration of plant population ecology, population genetics and evolutionary biology. The new edition is thoroughly revised and now includes molecular techniques. The genetics chapters have been completely rewritten by a new co-author, Deborah Charlesworth.

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Until recently, plant breeders have depended primarily on classical tools to develop new and improved products for producers and consumers. However, with the advent of biotechnology, breeders are increasingly incorporating molecular tools in their breeding work. In recognition of the current state of methods and their application, this text introduces both classical and molecular tools for plant breeding. Topics such as biotechnology in plant breeding, intellectual property, risks, emerging concepts (decentralized breeding, organic breeding), and more are addressed in this state of the art text. The final 8 chapters provide a useful reference on breeding the largest and most common crops. In addition, over 25 plant breeders share their professional experiences while illustrating concepts in the text. Features include: Comprehensive presentation of both classical and molecular plant breeding tools Industry highlight essays from over 25 professional plant breeders Chapter introductions, summaries and discussion questions Easy reference glossary Reference chapters on breeding 8 of the largest and most common crops Artwork from the book is available to instructors online at www.blackwellpublishing.com/acquaah. An Instructor manual CD-ROM for this title is available. Please contact our Higher Education team at [email protected] for more information.

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The formation, dispersal and germination of seeds are crucial stages in the life cycles of gymnosperm and angiosperm plants. The unique properties of seeds, particularly their tolerance to desiccation, their mobility, and their ability to schedule their germination to coincide with times when environmental conditions are favorable to their survival as seedlings, have no doubt contributed significantly to the success of seed-bearing plants. Humans are also dependent upon seeds, which constitute the majority of the world’s staple foods (e.g., cereals and legumes). Seeds are an excellent system for studying fundamental developmental processes in plant biology, as they develop from a single fertilized zygote into an embryo and endosperm, in association with the surrounding maternal tissues. As genetic and molecular approaches have become increasingly powerful tools for biological research, seeds have become an attractive system in which to study a wide array of metabolic processes and regulatory systems. Seed Development, Dormancy and Germination provides a comprehensive overview of seed biology from the point of view of the developmental and regulatory processes that are involved in the transition from a developing seed through dormancy and into germination and seedling growth. It examines the complexity of the environmental, physiological, molecular and genetic interactions that occur through the life cycle of seeds, along with the concepts and approaches used to analyze seed dormancy and germination behavior. It also identifies the current challenges and remaining questions for future research. The book is directed at plant developmental biologists, geneticists, plant breeders, seed biologists and graduate students.

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