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This comprehensive guide to gene cloning provides beginning and advanced readers with the background, standard techniques, practical applications, and ethical and safety considerations in the field. A one-stop reference for students, researchers in academia and industry, and anyone interested in a thorough but accessible overview.
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
Updated to reflect advances in the field, this introduction provides a broad, but concise, coverage of recombinant DNA techniques. Written for advanced undergraduates, graduates and scientists who want to use this technology, emphasis is placed on the concepts underlying particular types of cloning vectors to aid understanding and to enable readers to devise suitable strategies for novel experimental situations. An introduction to the basic biochemical principles is presented first. Then PCR and cloning using E. coli hosts and plasmid, phage and hybrid vectors are described, followed by the generation and screening of libraries and how to modify, inactivate or express cloned sequences. Finally genetic manipulation in a range of other organisms is discussed, including other bacteria, fungi, algae and plants, insects and mammals. A series of 'real-life' biological problems are also presented to enable readers to assess their understanding of the material and to prepare for exams.
Synthetic biology is enabling scientists to use engineered genetic circuits in the cells as the basis for the development of new living therapeutics and as a powerful new weapon in the fight against diseases, especially cancer. Bacteria-mediated therapy is a promising alternative cancer treatment. The book covers the recent developments of cellular therapies from a synthetic biology perspective including engineered microbial therapies, CAR-T therapies etc. and is an indispensable guide to scientists in both biotechnology and medicine.
This textbook introduces readers in an accessible and engaging way to the nuts and bolts of protein expression and engineering. Various case studies illustrate each step from the early sequence searches in online databases over plasmid design and molecular cloning techniques to protein purification and characterization. Furthermore, readers are provided with practical tips to successfully pursue a career as a protein engineer. With protein engineering being a fundamental technique in almost all molecular biology labs, the book targets advanced undergraduates and graduate students working in molecular biology, biotechnology and related scientific fields.
Technologies in Cell Culture - A Journey From Basics to Advanced Applications is a comprehensive book that offers a broad overview of the subject, encompassing fundamental concepts, modern techniques, and their diverse applications across various fields. Comprising eleven chapters authored by leading international experts in their respective fields, this book adeptly navigates the complexities of cell culture. It provides valuable insights into bioprocessing, cancer biology, regenerative medicine, and more. The book explores innovative strategies for restoring eyesight in individuals with age-related macular degeneration through retinal pigment epithelium monolayers derived from autologous adipose tissue stem cells. We discover novel approaches for utilizing in vitro techniques to evaluate new medications targeting crucial molecular pathways. A deeper comprehension of the tumor microenvironment can be achieved by conducting coculture studies on cancer cells and adipocytes. The readers will gain insight into organoid intelligence, a culmination of advancements in stem cell technologies, bioengineering, and artificial intelligence. For anyone intrigued by unraveling the mysteries of cellular life, Technologies in Cell Culture - A Journey From Basics to Advanced Applications is an indispensable resource, catering to both novice scientists and seasoned researchers seeking to expand their knowledge. Join us on this journey as we explore the myriad ways in which cell culture technology can impact biomedicine and beyond.
Rapid advances in our understanding of genetics have required that new books contain topics such as the concept and theory of gene cloning, transgenics, genomics, and various other coverage of traditional and contemporary subjects. Although there is an abundance of textbooks that cover introductory genetics and advanced courses in genetics, there is a noticeable gap at the intermediate (second year) level. In the past gene structure, function and expression were taught at final year /postgraduate level, but the rapid advances in our understanding of genetics has encouraged courses to change considerably. Over recent years these topics have filtered down the curriculum and are currently taught as core topics at second year, with a corresponding change in textbook requirements. Where once second year students were restricted to learning about the concept and theory of gene cloning, now they routinely clone genes for themselves as part of their practical assignments. Genes to Genomics will fill the gap, cover much of the same ground as previous titles, but go further on contemporary topics like transgenics, sequence comparison and analysis of variation. * A concise, up to date textbook that provides a balanced coverage of traditional and contemporary topics taught within intermediate courses in molecular genetics * Jeremy Dale has a proven track record as the successful author of Molecular Genetics of Bacteria * Genes to Genomics will include a series of feature box-outs that will examine some of the topical issues related to the scientific concepts and examples explored within the text * A range of questions and exercises including worked examples and web-based practicals * An accompanying web site will allow the authors to keep their audience up to date in the areas that are prone to date most rapidly between successive editions of the textbook. It will also include the illustrations and images from the textbook, in addition to worked examples, answers to questions within the book, and links to related websites of key interest.
Advanced Genetic Analysis brings a state-of-the-art,exciting new approach to genetic analysis. Focusing on theunderlying principles of modern genetic analysis, this bookprovides the 'how' and 'why' of the essential analytical toolsneeded. The author's vibrant, accessible style provides an easyguide to difficult genetic concepts, from mutation and genefunction to gene mapping and chromosome segregation. Throughout, abalanced range of model organisms and timely examples are used toillustrate the theoretical basics. Basic principles - Focuses students attention on the 'how' and'why' of the essential analytical tools. Vibrant, accessible style provides an easy guide throughdifficult genetic concepts and techniques. Text boxes highlight key questions and timely examples. Boxes of key information in each chapter, chapter summaries andextensive references - prompt the student to synthesise andreinforce the chapter material. Special reference section addressing a range of model organismsto help provide a particularly relevant context for students'research interests.