This timely volume explores the use of CRISPR-Cas9 for genome editing, presenting cutting-edge techniques and their applications in treatment of disease. The chapters describe latest methods such as use of targetable nucleases, investigation of the non-coding genome, mouse genome editing, increasing of knock-in efficiency in mouse zygotes, and generation of reporter stem cells; the text contextualizes these methods in treatment of cardiovascular disease, diabetes mellitus, retinitis pigmentosa, and others. The final chapters round out the book with a discussion of controversies and future directions. Genome Editing is an essential, of-the-moment contribution to this rapidly growing field. Drawing from a wealth of international perspectives, it presents novel techniques and applications for the engineering of the human genome. This book is essential reading for all clinicians and researchers in stem cells, regenerative medicine, genomics, biochemical and biomedical engineering- especially those interested in learning more about genome editing and applying it in a targeted, specific way.

Dr. Jean Huxsoll and a team of distinguished biotechnology industry experts from the U.S. and Europe offer a wealth of practical guidelines to designing, implementing, and managing QA systems to assure that biopharmaceutical products meet standards for safety purity, and potency. Quality Assurance for Biopharmaceuticals covers all important theoretical and practical concerns, including detailed guidelines to meeting GMP compliance; quality assurance of production; quality assurance of analytical methods; advanced documentation, sampling, and validation techniques; comprehensive coverage of regulatory issues in the U.S., Europe, and Japan; and much more.

The purpose of this publication is to elucidate the biological aspect of the abiotic stress response from the field to the molecular level in horticultural plants. This book is unique in that it concerns the basic aspect of abiotic stress biology and research progress at the molecular level in model plants or major field crops, as it focuses mainly on the abiotic stress response in existing horticultural plants. Many readers interested in plant abiotic stress biology are aware of the application of the latest findings to agricultural production, and this book will have a special appeal for those readers. The book will be of interest to scientists and graduate students who are involved in the research, development, production, processing, and marketing of horticultural products, including those in developing countries who are interested in high tech and advanced science in this field. The application of the latest findings to agricultural production is particularly useful. Stress tolerance mechanisms in horticultural crops are gaining importance, because most agricultural regions are predicted to experience considerably more extreme environmental fluctuations due to global climate change. Further, because of recent progress in next-generation sequencing technologies, the postgenomic era is impending not only in model plants and major cereal crops but also in horticultural crops, which comprise a great diversity of species. This book provides information on the physiological aspects of the abiotic stress response in horticultural plants, which is considered essential for postgenomic research.

Plant tissue culture and advanced biotechnologies have proven to be influential tools that complement conventional breeding and accelerate development of many medicinal plants. Various approaches, such as pathway engineering, precursor feeding, transformation, elicitation with biotic and abiotic elicitors and scaling up in bioreactors, have been explored to improve the production of secondary metabolites from different medicinal plants. This book provides a comprehensive description of various studies, carried out on in vitro culture and hairy root cultures of Catharanthus roseus, Silybum marianum and Digitalis species which have been considered as alternative sources for the production of anti-tumour compounds, flavonolignans and cardenolides. Specific focus is on elicitation strategy for increasing production of bioactive compounds of C. roseus L., S. marianum and Digitalis species to overcome the constrains of conventional propagation. This book is valuable for researchers or students working on medicinal plants, phytochemistry, and plant tissue culture. It also serves as a reference for the pharmaceutical industry.

This book offers a comprehensive collection of papers on CRISPR/Cas genome editing in connection with agriculture, climate-smart crops, food security, translational research applications, bioinformatics analysis, practical applications in cereals, floriculture crops, engineering plants for abiotic stress resistance, the intellectual landscape, regulatory framework, and policy decisions. Gathering contributions by internationally respected experts in the field of CRISPR/Cas genome editing, the book offers an essential guide for researchers, students, teachers and scientists in academia; policymakers; and public companies, private companies and cooperatives interested in understanding and/or applying CRISPR/Cas genome editing to develop new agricultural products.

Contemporary developments in the biosciences associated with new biological possibilities have generated considerable interest among the social sciences, primarily because they challenge our understanding of the relationship between the body, nature, and identity. Regenerative medicine is such a field, and has attracted major commercial, clinical, political and popular interest. It has, however, been subject to very limited social science analysis. This book explores the hype and promise associated with the field, the uneven and often failed commercial exploitation we have seen, and the political, legal and bioethical challenges that developments in the regenerative medicine field produce. It does this at a global level, including analysis of what we are seeing in the US, Europe, China and Australia. The book establishes the meaning, boundaries and likely future development we will see, and asks whether regenerative medicine heralds a new paradigm for medicine itself.

th We compiled this volume mostly from presentations at the 6 International Plant Cold Hardiness Seminar (PCHS) after consulting with Professor Tony H. H. Chen, Oregon State University, USA, Professor Pekka Heino, University of Helsinki, Finland, th and Dr. Gareth J. Warren, University of London, Surrey, UK. The 6 International PCHS was held at the Unitas Congress Center, Helsinki, Finland from July 1-5, 2001. There were 110 registered scientists at the serttinar representing 20 countries: Australia, Belgium, Canada, Chile, the Czech Republic, Denmark, Estonia, Finland, Gennany, Hungary, Iceland, Italy, Japan, Norway, Poland, Spain, Sweden, Taiwan, United Kingdom, and United States of America. The infonnation compiled represents the state of the art of research in phmt cold hardiness in tenns of gene regulation, gene expression, signal transduction, the physiology of cold hardiness and, ultimately, the genetic engineering for cold tolerant plants. The International PCHS was initiated in 1977 at the University of Minnesota, St. Paul, Minnesota. It has been traditionally held at 5-year intervals at various locations. th Because of the rapid advances of research in plant cold hardiness, attendees at the 6 meeting unanimously adopted a resolution to hold the seminar in 3-year intervals instead of 5 in the future. Consequently, the next seminar will be held in 2004 in Sapporo, Japan, and Professor Seizo Fujikawa from Hokkaido University will serve as the host.

Drawing on a wide range of interviews and primary and secondary sources, this book investigates the dynamic interactions between national regulatory formation and the global biopolitics of regenerative medicine and human embryonic stem cell science.

With an increasing human population and a decreasing amount of arable land, creative improvements in agriculture will be a necessity in the coming decades to maintain or improve the standard of living. In Plant Chromosome Engineering: Methods and Protocols, expert researchers present techniques for the modification of crops and other plant species in order to achieve the goal of developing the much needed novel approaches to the production of food, feed, fuel, fiber, and pharmaceuticals. This volume examines vital topics such as transformation procedures, chromosome painting, production of engineered minichromosomes, gene targeting and mutagenesis, site specific integration, gene silencing, protein expression, chromosome sorting and analysis, protocols for generating chromosomal rearrangements, enhancer trapping, and means of studying chromosomes in vivo. As a part of the highly successful Methods in Molecular Biology(TM) series, the methodological chapters include brief introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and professional tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Plant Chromosome Engineering: Methods and Protocols highlights the spectrum of tools currently available for modifying plant genomes and chromosomes and provides the foundation for crucial future developments.

Genetic Engineering, Volume 24 contains discussions of contemporary and relevant topics in genetics, including:

-Gene silencing: principles and applications,
-Integrins and the myocardium,
-Plant virus gene vectors: biotechnology and applications in agriculture and medicine,
-Novel approaches to controlling transcription,
-Use of DNA polymorphisms in genetic mapping,
-Application of FLP/FRT site-specific DNA recombination system in plants.
This principles and methods approach to genetics and genetic engineering is essential reading for all academics, bench scientists, and industry professionals wishing to take advantage of the latest and greatest in this continuously emerging field.

Genetic Engineering, Volume 25 contains discussions of contemporary and relevant topics in genetics, including:
- Genotyping by Mass Spectrometry;
- Development of Targeted Viral Vectors for Cardiovascular Gene Therapy;
- Practical Applications of Rolling Circle Amplification of DNA Templates;
- Bacterial ION Channels;
- Applications of Plant Antiviral Proteins;
- The Bacterial Scaffoldin: Structure, Function and Potential Applications in the Nanosciences. This principles and methods approach to genetics and genetic engineering is essential reading for all academics, bench scientists, and industry professionals wishing to take advantage of the latest and greatest in this continuously emerging field.

This book presents an overview of the state-of-the-art in barley genome analysis, covering all aspects of sequencing the genome and translating this important information into new knowledge in basic and applied crop plant biology and new tools for research and crop improvement. Unlimited access to a high-quality reference sequence is removing one of the major constraints in basic and applied research. This book summarizes the advanced knowledge of the composition of the barley genome, its genes and the much larger non-coding part of the genome, and how this information facilitates studying the specific characteristics of barley. One of the oldest domesticated crops, barley is the small grain cereal species that is best adapted to the highest altitudes and latitudes, and it exhibits the greatest tolerance to most abiotic stresses. With comprehensive access to the genome sequence, barley's importance as a genetic model in comparative studies on crop species like wheat, rye, oats and even rice is likely to increase.

Aspects of genetic engineering research emphasized in this volume are applications to plants (crop plants and grass, both important for human needs) and new methodologies, such as Tar cloning, which make it much easier to isolate specific regions from complex genomes. Another subject discussed is linear DNA replication of prokaryotes.

Reports research findings of the past year on 15 topics relating to genetic engineering, among them lens oncogenesis, plant ureases, genetic recombination analysis using sperm typing, and the gene expression of plant extracellular proteins. The latest in the annual series begun in 1979. Annotation c

This book describes specific, well-know controversies in the genetic modification debate and connects them to deeper philosophical issues in philosophy of technology. It contributes to the current, far-reaching deliberations about the future of food, agriculture and society. Controversies over so-called Genetically Modified Organisms (GMOs) regularly appear in the press. The biotechnology debate has settled into a long-term philosophical dispute. The discussion goes much deeper than the initial empirical questions about whether or not GM food and crops are safe for human consumption or pose environmental harms that dominated news reports. In fact, the implications of this debate extend beyond the sphere of food and agriculture to encompass the general role of science and technology in society. The GM controversy provides an occasion to explore important issues in philosophy of technology. Researchers, teachers and students interested in agricultural biotechnology, philosophy of technology and the future of food and agriculture will find this exploration timely and thought provoking.

DNA "fingerprinting," genetic engineering of food, genetic screening, gene therapy, the human genome project...there is no shortage of news these days about the genetic revolution. The purpose of this book is to take the interested reader behind the headlines to explore the fascinating world of molecular biology. Eschewing jargon, author Susan Aldridge gives an accessible account of the world of DNA and also explores its present and future applications. In the first part of the book, she explains what DNA is and how it functions within living organisms. In the second part, she explores genetic engineering and its applications to humans--such as gene therapy, genetic screening, and DNA fingerprinting. In the third, the author looks at the wider world of biotechnology and how genetic engineering can be applied to such problems as producing vegetarian cheese or cleaning up the environment. Finally, she explains how knowledge of the structure and function of genes sheds light on evolution and our place in the world. Aldridge has written with a light touch full of historical references; her achievement will make rewarding reading for anyone who reads popular accounts of the life sciences.

In the post-genomic era, in vitro mutagenesis has emerged as a critically important tool for establishing the functions of components of the proteome. The third edition of In Vitro Mutagenesis Protocols represents a practical toolbox containing protocols vital to advancing our understanding of the connection between nucleotide sequence and sequence function. Fully updated from the previous editions, this volume contains a variety of specialty tools successfully employed to unravel the intricacies of protein-protein interaction, protein structure-function, protein regulation of biological processes, and protein activity, as well as a novel section on mutagenesis methods for unique microbes as a guide to the generalization of mutagenesis strategies for a host of microbial systems. Written in the highly successful Methods in Molecular Biology series format, chapters include brief introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and expert tips on troubleshooting and avoiding known pitfalls.

Authoritative and up-to-date, In Vitro Mutagenesis Protocols, Third Edition offers today's researchers a valuable compendium of reliable and powerful techniques with which to illuminate the proteome and its rich web of biological implications.

The status of crop biotechnology before 2001 was reviewed in Transgenic Crops I-III, but recent advances in plant cell and molecular biology have prompted the need for new volumes. This volume is devoted to fruit, trees and beverage crops. It presents the current knowledge of plant biotechnology as an important tool for crop improvement and includes up-to-date methodologies.

This volume summarizes recent technological advances in the design and engineering of Solanaceae and Cucurbitaceae crops. It begins with contributions on the tomato and melon genome sequence, databases for Solanaceae and Cucurbitaceae research, DNA markers in the breeding of the two families, and mutant resources and TILLING platforms in tomato research. Subsequent chapters address the use of molecular techniques for the modification of important breeding traits, such as tomato fruit set, growth, ripening, and sugar accumulation, as well as disease and insect resistance in melons. The volume closes with chapters on genome editing using artificial nucleases as a future breeding tool, and on the development of an in silico crop design system. It offers a valuable resource for plant breeders, molecular biologists, and agronomists.

The newest installment in this superb series presents descriptions of the latest DNA recombinants molecule technology. The text combines reports on basic research in genetics with discussions of specific new industrial applications (as well as refinements of older ones) that are likely to prove highly profitable in the years to come.

This volume, as with the previous books in the series, presents state-of-the-art discussions in genetics and genetic engineering by focusing on plant science and technology, agriculture, cell biology, and medical research.

As the major task of sequencing the human genome is near completion and full complement of human genes are catalogued, attention will be focused on the ultimate goal: to understand the normal biological functions of these genes, and how alterations lead to disease states. In this task there is a severe limitation in working with human material, but the mouse has been adopted as the favored animal model because of the available genetic resources and the highly conserved gene conservation linkage organization. In just of ten years since the first gene-targeting experiments were p- formed in embryonic stem (ES) cells and mutations transmitted through the mouse germline, more than a thousand mouse strains have been created. These achievements have been made possible by pioneering work that showed that ES cells derived from preimplantation mouse embryos could be cultured for prolonged periods without differentiation in culture, and that homologous rec- bination between targeting constructs and endogenous DNA occurred at a f- quency sufficient for recombinants to be isolated. In the next few years the mouse genome will be systematically altered, and the techniques for achi- ing manipulations are constantly being streamlined and improved.

The present volume presents essential information on advancements in oilseed production, processing and utilization. Advances in the technology of seed processing to produce oil and oil quality for edible and industrial applications are well presented, followed by hybrid technology, biotechnology, oil technology and meal quality for animal nutrition. The following areas are also covered: the potential for oil in developing biodiesel markets, fatty acid long chains and their derivative, pollination management, and safety of pollinators from harmful effects of pesticides. This volume also includes an economic assessment of oilseed integrated pest management (IPM) programs in different regions of the world. Dr. Surinder Kumar Gupta is Professor/Chief Scientist (Oilseeds) Plant Breeding & Genetics and Nodal officer in School of Biotechnology, S K University of Agricultural Sciences & Technology, Faculty of Agriculture, Chatha, Jammu-India. He holds a distinguished academic and service record and has been devoted primarily to research on oilseed Brassicas for nearly two decades. He has written two books on plant breeding and edited three volumes, one on 'Recent Advances in Oilseed Brassicas', Kalyani Publishers, New Delhi, India, second on 'Rapeseed Breeding-Advances in Botanical Research', Vol. 45, Academic Press, Elsevier Publishers and third on Biology and Breeding of crucifers, CRC Publishers, Taylor and Francis Group.

With the rapid proliferation of RNAi applications in basic and clinical sciences, the challenge has now become understanding how components of RNAi machinery function together in a regulated manner. Argonaute proteins are the central effectors of RNAi and are highly conserved among eukaryotes and some archaebacteria. These RNA-binding proteins use small guide RNAs to silence expression of genes at the mRNA and DNA levels. In Argonaute Proteins: Methods and Protocols, expert researchers in this burgeoning field provide detailed, up-to-date methods to study Argonaute protein functions and interactions in a wide variety of cell types ranging from yeast to mammalian systems, as well as in vitro. Written in the highly successful Methods in Molecular Biology (TM) series format, chapters include brief introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Practical and authoritative, Argonaute Proteins: Methods and Protocols serves as a vital reference for both experienced and novice scientists approaching the vast complexities of RNAi research.