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Several milestones in biology have been achieved since the first publication of the Handbook of Molecular and Cellular Methods in Biology and Medicine. This is true particularly with respect to genome-level sequencing of higher eukaryotes, the invention of DNA microarray technology, advances in bioinformatics, and the development of RNAi technology
Since the publication of the best-selling Handbook of Molecular and Cellular Methods in Biology and Medicine, the field of biology has experienced several milestones. Genome sequencing of higher eukaryotes has progressed at an unprecedented speed. Starting with baker's yeast (Saccharomyces cerevisiae), organisms sequenced now include human (Homo sapiens), model crucifer (Arabidopsis thaliana), and rice (Oryza sativa). The invention of DNA microarray technology and advances in bioinformatics have generated vast amounts of genomic data. Reflecting these revolutionary advances Handbook of Molecular and Cellular Methods in Biology and Medicine, Second Edition documents conventional and modern approaches to tackle scientific research in the post-genomics era. Maintaining the step-by-step format that popularized the first edition, each chapter provides the principles behind the featured method, a detailed description of each protocol, applications of the protocol to different systems, and references for further study. Handbook of Molecular and Cellular Methods in Biology and Medicine, Second Edition now includes: New protocols in all chapters, including alternative protocols In vitro transcription methods Analysis of DNA sequences New bioseparation techniques New chapters covering: mRNA differential display Inhibition of gene expression In situ hybridization (Localization of gene expression) Combinatorial techniques Computational data mining methods applied to combinatorial chemistry libraries With this book at hand, researchers, teachers, and students can understand and utilize the major techniques and methods currently employed in cellular and molecular biology.
Many of the available books in cellular and molecular biology fail to explain the principles and methods described. Handbook of Molecular and Cellular Methods in Biology and Medicine fills in these gaps. Not only do the authors describe the many methods and techniques most commonly used, but they also discuss why you would use each particular method. This handbook covers a wide range of techniques and methods that have been developed and extensively tested. Described in a logical framework of 21 chapters, methods include isolation and purification of DNA, RNA, and proteins; preparation of hybridization probes; electrophoresis and blotting techniques; construction of cDNA and genomic DNA libraries; DNA sequencing; PCR technology; DNA recombination and mutagenesis; transcription in vitro and translation in vitro; gene transfer and analysis of gene expression in transgenic animals and plants; cell and tissue cultures; and microscopy, as well as bioseparation techniques and preparation of monoclonal and polyclonal antibodies. The authors provide descriptive illustrations for each method. Step-by-step instructions allow you to use this book in the lab while performing the various techniques. Each chapter provides the principles behind the method, easy-to-follow instructions, the reagents and materials required, and references for further study. Many chapters also include a troubleshooting guide, cautioning what to avoid and indicating steps that require extra care. Every biologist needs this book on their lab bench!
Many of the available books in cellular and molecular biology fail to explain the principles and methods described. Handbook of Molecular and Cellular Methods in Biology and Medicine fills in these gaps. Not only do the authors describe the many methods and techniques most commonly used, but they also discuss why you would use each particular method. This handbook covers a wide range of techniques and methods that have been developed and extensively tested. Described in a logical framework of 21 chapters, methods include isolation and purification of DNA, RNA, and proteins; preparation of hybridization probes; electrophoresis and blotting techniques; construction of cDNA and genomic DNA libraries; DNA sequencing; PCR technology; DNA recombination and mutagenesis; transcription in vitro and translation in vitro; gene transfer and analysis of gene expression in transgenic animals and plants; cell and tissue cultures; and microscopy, as well as bioseparation techniques and preparation of monoclonal and polyclonal antibodies. The authors provide descriptive illustrations for each method. Step-by-step instructions allow you to use this book in the lab while performing the various techniques. Each chapter provides the principles behind the method, easy-to-follow instructions, the reagents and materials required, and references for further study. Many chapters also include a troubleshooting guide, cautioning what to avoid and indicating steps that require extra care. Every biologist needs this book on their lab bench!
Recent advances in the biosciences have led to a range of powerful new technologies, particularly nucleic acid, protein and cell-based methodologies. The most recent insights have come to affect how scientists investigate and define cellular processes at the molecular level. This book expands upon the techniques included in the first edition, providing theory, outlines of practical procedures, and applications for a range of techniques. Written by a well-established panel of research scientists, the book provides an up-to-date collection of methods used regularly in the authors’ own research programs.
In considering ways that physics has helped advance biology and medicine, what typically comes to mind are the various tools used by researchers and clinicians. We think of the optics put to work in microscopes, endoscopes, and lasers; the advanced diagnostics permitted through magnetic, x-ray, and ultrasound imaging; and even the nanotools, that a
"This book highlights the use of systems approaches including genomic, cellular, proteomic, metabolomic, bioinformatics, molecular, and biochemical, to address fundamental questions in complex diseases like cancer diabetes but also in ageing"--Provided by publisher.
This manual is an indispensable tool for introducing advanced undergraduates and beginning graduate students to the techniques of recombinant DNA technology, or gene cloning and expression. The techniques used in basic research and biotechnology laboratories are covered in detail. Students gain hands-on experience from start to finish in subcloning a gene into an expression vector, through purification of the recombinant protein. The third edition has been completely re-written, with new laboratory exercises and all new illustrations and text, designed for a typical 15-week semester, rather than a 4-week intensive course. The “project approach to experiments was maintained: students still follow a cloning project through to completion, culminating in the purification of recombinant protein. It takes advantage of the enhanced green fluorescent protein - students can actually visualize positive clones following IPTG induction. Cover basic concepts and techniques used in molecular biology research labs Student-tested labs proven successful in a real classroom laboratories Exercises simulate a cloning project that would be performed in a real research lab "Project" approach to experiments gives students an overview of the entire process Prep-list appendix contains necessary recipes and catalog numbers, providing staff with detailed instructions
Immunologists as well investigators in other disciplines may often use protocols involving the isolation, cultures and characterization of different types of leukocytes. Advanced Methods in Cellular Immunology is a collection of techniques in an easy-to-use format. Each chapter provides readers with related program information, a step-by-step de
The effective design of scientific experiments is critical to success, yet graduate students receive very little formal training in how to do it. Based on a well-received course taught by the author, Experimental Design for Biologistsfills this gap. Experimental Design for Biologistsexplains how to establish the framework for an experimental project, how to set up a system, design experiments within that system, and how to determine and use the correct set of controls. Separate chapters are devoted to negative controls, positive controls, and other categories of controls that are perhaps less recognized, such as “assumption controls†and “experimentalist controls†. Furthermore, there are sections on establishing the experimental system, which include performing critical “system controls†. Should all experimental plans be hypothesis-driven? Is a question/answer approach more appropriate? What was the hypothesis behind the Human Genome Project? What color is the sky? How does one get to Carnegie Hall? The answers to these kinds of questions can be found in Experimental Design for Biologists. Written in an engaging manner, the book provides compelling lessons in framing an experimental question, establishing a validated system to answer the question, and deriving verifiable models from experimental data. Experimental Design for Biologistsis an essential source of theory and practical guidance in designing a research plan.