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Biochemistry and Molecular Biology of Plants
by Bob B. Buchanan Wilhelm Gruissem Russell L. JonesBiochemistry and Molecular Biology of Plants, 2nd Edition has been hailed as a major contribution to the plant sciences literature and critical acclaim has been matched by global sales success. Maintaining the scope and focus of the first edition, the second will provide a major update, include much new material and reorganise some chapters to further improve the presentation. This book is meticulously organised and richly illustrated, having over 1,000 full-colour illustrations and 500 photographs. It is divided into five parts covering: Compartments, Cell Reproduction, Energy Flow, Metabolic and Developmental Integration, and Plant Environment and Agriculture. Specific changes to this edition include: Completely revised with over half of the chapters having a major rewrite. Includes two new chapters on signal transduction and responses to pathogens. Restructuring of section on cell reproduction for improved presentation. Dedicated website to include all illustrative material. Biochemistry and Molecular Biology of Plants holds a unique place in the plant sciences literature as it provides the only comprehensive, authoritative, integrated single volume book in this essential field of study.
Biochemistry and Molecular Biology of Plants
by Bob B. Buchanan Wilhelm Gruissem Russell L. JonesBiochemistry and Molecular Biology of Plants, 2nd Edition has been hailed as a major contribution to the plant sciences literature and critical acclaim has been matched by global sales success. Maintaining the scope and focus of the first edition, the second will provide a major update, include much new material and reorganise some chapters to further improve the presentation. This book is meticulously organised and richly illustrated, having over 1,000 full-colour illustrations and 500 photographs. It is divided into five parts covering: Compartments, Cell Reproduction, Energy Flow, Metabolic and Developmental Integration, and Plant Environment and Agriculture. Specific changes to this edition include: Completely revised with over half of the chapters having a major rewrite. Includes two new chapters on signal transduction and responses to pathogens. Restructuring of section on cell reproduction for improved presentation. Dedicated website to include all illustrative material. Biochemistry and Molecular Biology of Plants holds a unique place in the plant sciences literature as it provides the only comprehensive, authoritative, integrated single volume book in this essential field of study.
Biochemistry and Molecular Biology of Vitamin B6 and PQQ-dependent Proteins
by Ana J. Iriarte Herbert M. Kagan Marino Martinez-CarrionSince the first international meeting on Vitamin B6 involvement in catalysis took place in 1962, there have been periodic meetings every three or four years. In 1990, scientists studying another cofactor, PQQ, which had already attracted the scientific community's interest for its possible involvement in amino acid decarboxylation and reactions involving amino groups, joined forces with those investigating pyridoxal phosphate-dependent enzymes. Since then, the international PQQ/quinoproteins meetings have been held jointly. In the years following the original meeting 37 years ago in Rome, Italy, the scientific gatherings have taken place in Moscow, Russia (1966); Nagoya, Japan (1967); Leningrad (St. Petersburg), Russia (1974); Toronto, Canada (1979); Athens, Greece (1983); Turku, Finland (1987); Osaka, Japan (1990); and Capri, Italy (1996). For the first time in the history of these symposia, the international meeting was held in the United States, from October 31 through November 5, 1999, in Santa Fe, New Mexico. The scientific program focus shifted significantly beyond the original emphasis on catalysis to aspects such as cellular and genetic regulation of events involving proteins that require pyridoxal phosphate or quinoproteins. The growing awareness of the involvement of these proteins in biotechnology processes and fundamental physiological events, as well as their implication in diseases, was also represented, with emphasis on the molecular basis of these events. The meeting was symposium S278, sponsored by the International Union of Biochemistry and Molecular Biology (IUBMB).
Biochemistry and Molecular Biology of Wood (Springer Series in Wood Science)
by Takayoshi HiguchiProgress in wood chemistry has been related mainly to chemical wood pulping and bleaching and chemical utilization of wood and wood extractives. Meth ods of wood analysis were developed by Schorger (proximate analysis in 1917) and Dore (summative analysis in 1919), and standard methods based on Schorger's method, e.g., TAPPI standards (Technical Association of the Pulp and Paper Industry), have been widely used for chemical analysis of woods in many countries. Thus it is generally known that wood is composed of about 50% cellulose, 20-35% of lignin, 15-25% of hemicelluloses, and variable amounts of extractives. Chemical characterization and efficient utilization of these wood components have been studied in laboratories of wood chemistry and technology in universities and government institutions. In the last decade, biochemistry and molecular biology of microorganisms, animals, and plants have greatly progressed. At the same time wood has been recognized as a unique renewable ecomaterial produced by trees using solar energy. In addition, many desirable properties of wood and wood components as biomaterial that affects physiology and psychology in humans have recently attracted attention.
Biochemistry and Molecular Genetics of Cancer Metastasis: Proceedings of the Symposium on Biochemistry and Molecular Genetics of Cancer Metastasis Bethesda, Maryland — March 18–20, 1985 (Developments in Oncology #41)
by Alan S. Rabson Lance A. Liotta KarolyLapisThe success rate for treatment of primary neoplasms has improved sig nificantly due to improved surgical, radiotherapy, and chemotherapy methods, and by supportive patient care. In contrast, the treatment of cancer metastases, the cause of most cancer deaths, has not been very successful. Approximately 50% or more of patients with primary malignant neoplasms already have established metastases. Consequently, the most important problem in cancer treatment is the destruction or prevention of metastases. Metastases research has obvious clinical importance. Yet it has only been recently that investigators have attempted to study the mechanisms in volved in this process. This is in part due to the complexity of metastases formation. A metastatic colony is the result of a complicated series of steps involving mUltiple tumor host interactions. It is expected that multiple biochemical factors and gene products derived both from the host and the tumor cell may be required for the metastasizing tumor cell to invade, survive host defenses, travel in the circulation, arrest and adhere in the target organ, invade out, and grow as a metastatic colony. Some of these factors have recently been identified by investigators who have focused on individual steps in the metastatic process and have employed new technologies in immunology, biochemistry and molecular biology. The purpose of this volume is to capture some of the excitement in the field of metastases based on such new discoveries.
Biochemistry and Physiology of Anaerobic Bacteria
by Lars G. Ljungdahl Michael W. Adams Larry L. Barton James G. Ferry Michael K. JohnsonSeeming sometimes more like science fiction than science, anaerobic bacteria have been at the center of a number of exciting new discoveries. This volume discusses and explains the diversity of metabolism, modes of protein transport, molecular biology and physiology of these unusual microbes. It has practical applications ranging from wastewater treatment to clinical diagnosis and treatment of medical conditions.
Biochemistry and Physiology of Bifidobacteria
by Anatoly BezkorovainyThis book provides a comprehensive reference work on this ubiquitous group of microorganisms for the biomedical community, and intends to stimulate further research into the biochemistry and physiology of bifidobacteria and their role in health and disease of newborns and even adult human beings. Discussions of bifidobacteria include chapters on nomenclature and taxonomy, ecology, morphology, metabolism, membrane and cell wall structure, clinical applications, metal transport, and future research trends. Each chapter ends with a summary. The book is amply illustrated and extensively referenced.
Biochemistry and Physiology of Bifidobacteria
by Anatoly BezkorovainyThis book provides a comprehensive reference work on this ubiquitous group of microorganisms for the biomedical community, and intends to stimulate further research into the biochemistry and physiology of bifidobacteria and their role in health and disease of newborns and even adult human beings. Discussions of bifidobacteria include chapters on nomenclature and taxonomy, ecology, morphology, metabolism, membrane and cell wall structure, clinical applications, metal transport, and future research trends. Each chapter ends with a summary. The book is amply illustrated and extensively referenced.
Biochemistry and Physiology of Herbicide Action
by Carl FedtkeHerbicides are part of modern agricultural production systems and therefore contribute significantly to the economy of agricultural products. At the same time, herbicides are potent and specific inhibitors of plant metabolism and may therefore be used as valuable tools in basic plant physiological research. A well-known example is the photosynthesis-inhibiting herbicide diuron, known to plant physiologists as DCMU, which has become one of the essentials in modern photosynthesis research. Similarly, knowledge in other areas of plant metabolism may be advanced by the use of herbicides as specific inhibitors. This book describes the effects of herbicides on the metabolism of higher plants from the viewpoint of the plant physiologist. The material of this book is therefore, as far as possible, divided into areas of metabolism. This book intends (1) to present the reader with current knowledge and views in the area of herbicide modes of action and (2) to promote the future use of herbicides as metabolic inhibitors in plant physiological research to the advantage of both, the pesticide and the plant sciences. I wish to express my thanks to my colleagues and friends Prof. N. Amrhein, Prof. E. Elstner, Dr. L. Eue, Dr. J. Konze, Dr. K. Liirssen, Dr. W.Oettmeier, Dr. H. Quader, Dr. R. R. Schmidt, Dr. R. H. Shimabukuro, Dr. J. Stetter, Prof.
Biochemistry and Physiology of Plant Hormones
by T.C. MooreBiochemistry and Physiology of Plant Hormones is intended primarily as a textbook or major reference for a one-term ;intermediate-Ievel or ad vanced course dealing with hormonal regulation of growth and develop ment of seed plants for students majoring in biology, botany, and applied botany fields such as agronomy, forestry, and horticulture. Additionally, it should be useful to others who wish to become familiar with the topic in relation to their principal student or professional interests in related fields. It is assumed that readers will have a background in fundamental biology, plant physiology, and biochemistry. The dominant objective of Biochemistry and Physiology of Plant Hor mones is to summarize, in a reasonably balanced and comprehensive way, the current state of our fundamental knowledge regarding the major kinds of hormones and the phytochrome pigment system. Written pri marily for students rather than researchers, the book is purposely brief. Biochemical aspects have been given priority intentionally, somewhat at the expense of physiological considerations. There are extensive citations ofthe literature-both old and recent-but, it is hoped, not so much docu mentation as to make the book difficult to read. The specific choices of publications to cite and illustrations to present were made for different reasons, often to illustrate historical development, sometimes to illustrate ideas that later proved invalid, occasionally to exemplify conflicting hy potheses, and most often to illustrate the current state of our knowledge about hormonal phenomena.
Biochemistry and Physiology of Plant Hormones
by Thomas C. MooreBiochemistry and Physiology oj Plant Hormones is intended primarily as a textbook or major reference for a one-term intermediate-level or advanced course dealing with hormonal regulation of growth and development of seed plants for students majoring in biology, botany, and applied botany fields such as agronomy, forestry, and horticulture. Additionally, it should be useful to others who wish to become familiar with the topic in relation to their principal student or professional interests in related fields. It is assumed that readers will have a background in fundamental biology, plant physiology, and biochemistry. The dominant objective of Biochemistry and Physiology oj Plant Hor mones is to summarize, in a reasonably balanced and comprehensive way, the current state of our fundamental knowledge regarding the major kinds of hormones and the phytochrome pigment system. Written primarily for students rather than researchers, the book is purposely brief. Biochemical aspects have been given priority intentionally, somewhat at the expense of physiological considerations. There are extensive citations of the literature-both old and recent-but, it is hoped, not so much documentation as to make the book difficult to read. The specific choices of publications to cite and illustrations to present were made for different reasons, often to illustrate historical develop ment, sometimes to illustrate ideas that later proved invalid, occasionally to exemplify conflicting hypotheses, and most often to illustrate the current state of our knowledge about hormonal phenomena.
Biochemistry and Physiology of Visual Pigments: Symposium Held at Institut für Tierphysiologie, Ruhr-Universität Bochum/W. Germany, August 27–30, 1972
by Helmut LangerThis book is a report of a four-day Symposium on the Biochemistry and Physiology of Visual Pigments, which took place immediately after the VIth International Congress on Photobiology, held in Bochum, Federal Republic of Germany, in August 1972. This meeting, which brought together about 50 investigators of various aspects of the visual process, was devoted to the visual cells of both vertebrates and invertebrates. Whereas the International Symposium on the Biochemistry of the Retina, held at Nij megen, The Netherlands, in 1968, had concentrated on vertebrate photoreceptors, this Symposium dealt with invertebrate photoreceptors as well, so that workers in each field could become acquainted with recent progress in the other area. The papers presented at the Symposium were divided into six main topics, to each of which a half-day session was devoted. The six parts of this book, following the intro ductory lecture, essentially correspond to these sessions. In addition to the invited con tributions, the volume contains a number of short communications by other partici pants and two contributions by invited participants, who were unable to attend. The volume closes, as did the Symposium, with a General Discussion, prepared and moderated by S. L. BONTING, in which an attempt was made to integrate various new findings, and to reconcile certain points of disagreement.
Biochemistry and Structure of Cell Organelles (Tertiary Level Biology)
by Robert A. ReidTHIS BOOK HAS BEEN WRITTEN BECAUSE WE FEEL THAT THERE IS A NEED FOR AN up-to-date compact book on cell organelles that transmits the excitement and challenge of modern subcellular biology. We hope that the book will be interesting and useful to students of the biological sciences and medicine, and to those in the teaching professions who do not have ready access to research papers. Since space is at a premium, we have denied ourselves the luxury of a philosophical discussion of the problems of defining organelles. Rather we have chosen to include all those intracellular structures which have limiting membranes and definable compartments. The separate chapters consider nuclei, plastids, mitochondria, microbodies, endoplasmic and sarcoplasmic reticulum; Golgi bodies, lysosomes and various secretory vesicles, including chromaffin granules and synaptic vesicles. Nucleoli, ribosomes, and centrioles are included in the chapter on nuclei. New and exciting informatioIi about all these structures has emerged in recent years-for example; the nUcleosome, interrupted genes, signal sequences on proteins destined. for the bioenergetic organelles, mapping and sequencing of organelle genes, and consolidation of chemiosmosis as a unifying principle in energy transduction. We have outlined as many of these developments as possible and pointed out some areas of controversy. The literature on subcellular biology is so extensive that it would have been easier to have written a separate book on each organelle.
Biochemistry and Structure of Cell Organelles (Tertiary Level Biology)
by Robert A. Reid Rachel M. LeechTHIS BOOK HAS BEEN WRITTEN BECAUSE WE FEEL THAT THERE IS A NEED FOR AN up-to-date compact book on cell organelles that transmits the excitement and challenge of modern subcellular biology. We hope that the book will be interesting and useful to students of the biological sciences and medicine, and to those in the teaching professions who do not have ready access to research papers. Since space is at a premium, we have denied ourselves the luxury of a philosophical discussion of the problems of defining organelles. Rather we have chosen to include all those intracellular structures which have limiting membranes and definable compartments. The separate chapters consider nuclei, plastids, mitochondria, microbodies, endoplasmic and sarcoplasmic reticulum, Golgi bodies, lysosomes and various secretory vesicles, including chromaffin granules and synaptic vesicles. Nucleoli, ribosomes, and centrioles are included in the chapter on nuclei. New and exciting information about all these structures has emerged in recent years-for example, the nucleosome, interrupted genes, signal sequences on proteins destined for the bioenergetic organelles, mapping and sequencing of organelle genes, and consolidation of chemiosmosis as a unifying principle in energy transduction. We have outlined as many of these developments as possible and pointed out some areas of controversy. The literature on subcellular biology is so extensive that it would have been easier to have written a separate book on each organelle.
Biochemistry Explained: A Practical Guide to Learning Biochemistry
by Thomas MillarBiochemistry Explained employs an innovative approach which has proven highly successful in the author's own classes. The author establishes a thorough understanding of the foundations of and common linkages between molecular structures and reactions, so that eventual interpretation of complex biochemical pathways and reactions is easy. All of the major molecular structures and biochemical pathways are explained, and, for the most part, these center on mammalian biochemistry. The text is supported by biochemical nomenclature and questions to bear in mind while reading. Higher learning sections are also provided for advanced students. Written in an informal, conversational style, this textbook will serve as an invaluable resource for any student who is struggling with the standard texts and for postgraduate students who need to refresh their knowledge.
Biochemistry Explained: A Practical Guide to Learning Biochemistry
by Thomas MillarBiochemistry Explained employs an innovative approach which has proven highly successful in the author's own classes. The author establishes a thorough understanding of the foundations of and common linkages between molecular structures and reactions, so that eventual interpretation of complex biochemical pathways and reactions is easy. All of the major molecular structures and biochemical pathways are explained, and, for the most part, these center on mammalian biochemistry. The text is supported by biochemical nomenclature and questions to bear in mind while reading. Higher learning sections are also provided for advanced students. Written in an informal, conversational style, this textbook will serve as an invaluable resource for any student who is struggling with the standard texts and for postgraduate students who need to refresh their knowledge.
Biochemistry For Dummies
by John T. Moore Richard H. LangleyGrasp biochemistry basics, apply the science, and ace your exams Are you baffled by biochemistry? If so here's the good news ? you don't have to stay that way! Biochemistry For Dummies shows you how to get a handle on biochemistry, apply the science, raise your grades, and prepare yourself to ace any standardized test. This friendly, unintimidating guide presents an overview of the material covered in a typical college-level biochemistry course and makes the subject easy to understand and accessible to everyone. From cell ultrastructure and carbohydrates to amino acids, proteins, and supramolecular structure, you'll identify biochemical structures and reactions, and send your grades soaring. Newest biology, biochemistry, chemistry, and scientific discoveries Updated examples and explanations Incorporates the most current teaching techniques From water biochemistry to protein synthesis, Biochemistry For Dummies gives you the vital information, clear explanations, and important insights you need to increase your understanding and improve your performance on any biochemistry test.
Biochemistry For Dummies
by John T. Moore Richard H. LangleyGrasp biochemistry basics, apply the science, and ace your exams Are you baffled by biochemistry? If so here's the good news ? you don't have to stay that way! Biochemistry For Dummies shows you how to get a handle on biochemistry, apply the science, raise your grades, and prepare yourself to ace any standardized test. This friendly, unintimidating guide presents an overview of the material covered in a typical college-level biochemistry course and makes the subject easy to understand and accessible to everyone. From cell ultrastructure and carbohydrates to amino acids, proteins, and supramolecular structure, you'll identify biochemical structures and reactions, and send your grades soaring. Newest biology, biochemistry, chemistry, and scientific discoveries Updated examples and explanations Incorporates the most current teaching techniques From water biochemistry to protein synthesis, Biochemistry For Dummies gives you the vital information, clear explanations, and important insights you need to increase your understanding and improve your performance on any biochemistry test.
Biochemistry For Dummies
by John T. Moore Richard H. LangleyIt’s alive! It’s alive! (Thanks to biochemistry, that is.) Biochemistry is the science of the chemical processes that allow for…well…life. If it moves, breathes, eats, or sleeps, biochemistry can probably explain how. So, it stands to reason that the fundamentals of biochemistry can get a little complicated. In Biochemistry For Dummies, you’ll explore the carbons, proteins, and cellular systems that make up the biochemical processes that create and sustain life of all kinds. Perfect for students majoring in biology, chemistry, pre-med, health-services, and other science-related fields, this book tracks a typical college-level biochemistry class. It simplifies and clarifies the subject with easy-to-follow diagrams and real-world examples. You’ll also get: Explorations of cell biology, carbohydrates, proteins, lipids, and other fundamental building blocks of life Discussions of the basic structures common to all living organisms Treatments of the microscopic details of life that make us all tick If you’re looking for a hand with some of the trickier parts of biochemistry—or you just need an accessible overview of the subject—check out Biochemistry For Dummies today!
Biochemistry For Dummies
by John T. Moore Richard H. LangleyIt’s alive! It’s alive! (Thanks to biochemistry, that is.) Biochemistry is the science of the chemical processes that allow for…well…life. If it moves, breathes, eats, or sleeps, biochemistry can probably explain how. So, it stands to reason that the fundamentals of biochemistry can get a little complicated. In Biochemistry For Dummies, you’ll explore the carbons, proteins, and cellular systems that make up the biochemical processes that create and sustain life of all kinds. Perfect for students majoring in biology, chemistry, pre-med, health-services, and other science-related fields, this book tracks a typical college-level biochemistry class. It simplifies and clarifies the subject with easy-to-follow diagrams and real-world examples. You’ll also get: Explorations of cell biology, carbohydrates, proteins, lipids, and other fundamental building blocks of life Discussions of the basic structures common to all living organisms Treatments of the microscopic details of life that make us all tick If you’re looking for a hand with some of the trickier parts of biochemistry—or you just need an accessible overview of the subject—check out Biochemistry For Dummies today!
Biochemistry for Health Professionals - E-Book
by Laura Batmanian Simon Worrall Justin RidgeBiochemistry for Health Professionals is a concise introductory text integrating biochemistry with physiology and cell biology and is aimed specifically at introductory health science students. It assumes no prior knowledge and covers some molecular biology and chemistry basics. The text is accompanied by a wealth of resources for both students and instructors via the evolve platform. - Written specifically for Health science students with a focus on human biochemistry - Integrated biochemistry with physiological correlations - Highly illustrated with clinical examples to aid understanding - Online teaching and learning resources via Evolve: http://evolve.elsevier.com/AU/Batmanian/biochemistry/
Biochemistry for Sport and Exercise Metabolism
by James Morton Donald MacLarenAll-new edition of an introductory textbook on sport and exercise biochemistry and muscle metabolism Biochemistry for Sport and Exercise Metabolism initially examines the essence of the biochemistry of the macronutrients before exploring how exercise mode, intensity, and duration, training status, and nutritional status affects the regulation of energy producing pathways, enabling readers to apply this understanding to develop training and nutrition programs that maximize athletic performance. This textbook includes an overview of energy metabolism, skeletal muscle structure and function and related biochemical concepts, carbohydrates, lipids, and proteins, metabolism, regulation of metabolism, and factors that can influence metabolism, and fatigue. This revised and updated second edition reflects some of the latest advances in the field, with new content on metabolic regulation as well as adaptations to high intensity and strength exercise, endurance exercise, and intermittent exercise. Furthermore, there is a new chapter on biochemical techniques to provide some pertinent background on how reported metabolic changes during exercise are achieved. This textbook features learning objectives, keywords, and key points in each chapter to aid in reader comprehension and reinforce information retention. Written by two highly qualified authors, Biochemistry for Sport and Exercise Metabolism discusses sample topics including: How the energy supply for muscle contraction is achieved from carbohydrates, lipids and protein Muscle contraction, covering propagation of the action potential, excitation-contraction coupling, and the sliding filament mechanismRegulation of the energy systems providing energy for exerciseTechniques for exercise metabolism, including respiratory analysis, ergometry, blood sampling, metabolomics, a-v differences, muscle biopsy, and isotopesExploration of the metabolic events occurring during high intensity, endurance, and high-intensity intermittent forms of exercise Clearly written and completely comprehensive, the second edition of Biochemistry for Sport and Exercise Metabolism continues to be an invaluable learning resource for students across a wide range of sport-related courses.
Biochemistry for Sport and Exercise Metabolism
by James Morton Donald MacLarenAll-new edition of an introductory textbook on sport and exercise biochemistry and muscle metabolism Biochemistry for Sport and Exercise Metabolism initially examines the essence of the biochemistry of the macronutrients before exploring how exercise mode, intensity, and duration, training status, and nutritional status affects the regulation of energy producing pathways, enabling readers to apply this understanding to develop training and nutrition programs that maximize athletic performance. This textbook includes an overview of energy metabolism, skeletal muscle structure and function and related biochemical concepts, carbohydrates, lipids, and proteins, metabolism, regulation of metabolism, and factors that can influence metabolism, and fatigue. This revised and updated second edition reflects some of the latest advances in the field, with new content on metabolic regulation as well as adaptations to high intensity and strength exercise, endurance exercise, and intermittent exercise. Furthermore, there is a new chapter on biochemical techniques to provide some pertinent background on how reported metabolic changes during exercise are achieved. This textbook features learning objectives, keywords, and key points in each chapter to aid in reader comprehension and reinforce information retention. Written by two highly qualified authors, Biochemistry for Sport and Exercise Metabolism discusses sample topics including: How the energy supply for muscle contraction is achieved from carbohydrates, lipids and protein Muscle contraction, covering propagation of the action potential, excitation-contraction coupling, and the sliding filament mechanismRegulation of the energy systems providing energy for exerciseTechniques for exercise metabolism, including respiratory analysis, ergometry, blood sampling, metabolomics, a-v differences, muscle biopsy, and isotopesExploration of the metabolic events occurring during high intensity, endurance, and high-intensity intermittent forms of exercise Clearly written and completely comprehensive, the second edition of Biochemistry for Sport and Exercise Metabolism continues to be an invaluable learning resource for students across a wide range of sport-related courses.
Biochemistry in the Lab: A Manual for Undergraduates
by Benjamin F. LasseterMost lab manuals assume a high level of knowledge among biochemistry students, as well as a large amount of experience combining knowledge from separate scientific disciplines. Biochemistry in the Lab: A Manual for Undergraduates expects little more than basic chemistry. It explains procedures clearly, as well as giving a clear explanation of the theoretical reason for those steps. Key Features: Presents a comprehensive approach to modern biochemistry laboratory teaching, together with a complete experimental experience Includes chemical biology as its foundation, teaching readers experimental methods specific to the field Provides instructor experiments that are easy to prepare and execute, at comparatively low cost Supersedes existing, older texts with information that is adjusted to modern experimental biochemistry Is written by an expert in the field This textbook presents a foundational approach to modern biochemistry laboratory teaching together with a complete experimental experience, from protein purification and characterization to advanced analytical techniques. It has modules to help instructors present the techniques used in a time critical manner, as well as several modules to study protein chemistry, including gel techniques, enzymology, crystal growth, unfolding studies, and fluorescence. It proceeds from the simplest and most important techniques to the most difficult and specialized ones. It offers instructors experiments that are easy to prepare and execute, at comparatively low cost.
Biochemistry in the Lab: A Manual for Undergraduates
by Benjamin F. LasseterMost lab manuals assume a high level of knowledge among biochemistry students, as well as a large amount of experience combining knowledge from separate scientific disciplines. Biochemistry in the Lab: A Manual for Undergraduates expects little more than basic chemistry. It explains procedures clearly, as well as giving a clear explanation of the theoretical reason for those steps. Key Features: Presents a comprehensive approach to modern biochemistry laboratory teaching, together with a complete experimental experience Includes chemical biology as its foundation, teaching readers experimental methods specific to the field Provides instructor experiments that are easy to prepare and execute, at comparatively low cost Supersedes existing, older texts with information that is adjusted to modern experimental biochemistry Is written by an expert in the field This textbook presents a foundational approach to modern biochemistry laboratory teaching together with a complete experimental experience, from protein purification and characterization to advanced analytical techniques. It has modules to help instructors present the techniques used in a time critical manner, as well as several modules to study protein chemistry, including gel techniques, enzymology, crystal growth, unfolding studies, and fluorescence. It proceeds from the simplest and most important techniques to the most difficult and specialized ones. It offers instructors experiments that are easy to prepare and execute, at comparatively low cost.