In the past decade, a number of advances have been made in genetic engineering as applied to farmed animals. This book has been developed from invited presentations at a conference held in California in August 1997, to address this issue. It is written by representatives from the leading laboratories involved in attempts to improve agriculturally important mammals, poultry and fish. Current knowledge, methodology, technical improvements and successes in the applications of transgenic technology to a range of animals which are important in agriculture are brought together for the first time under one cover. This book is essential reading for research workers in animal genetics, breeding and biotechnology.

This comprehensive research book represents the first complete integration of current knowledge in this area. It addresses issues associated with poultry breeding particularly by examining quantitative and molecular genetics and the uses of transgenic technology. A special section covers the important area of disease resistance and transmission

In this fascinating book, Susan Aldridge gives an accessible guide to the world of DNA and also explores the applications of genetic engineering in biotechnology. She takes the reader, step by step, through the fascinating study of molecular biology, examining DNA and its function within living organisms as well as aspects of genetic engineering and its applications to humans. Aldridge also 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.

The early promise of genetic engineering triggered a host of social and political concerns. In Molecular Politics, Susan Wright draws on government records, archival materials, and a wide range of interviews to analyze how the American and British governments responded to these concerns and to the struggles among corporations, scientists, universities, trade unions, and public interest groups for control of this controversial technology. Advancing an original approach to the expression of power in policymaking, she provides the first comparative study of a crucial set of policy decisions and explores their implications for the political economy of contemporary science.

"Well-written, up-to-date and very comprehensive. The writing is confident, clear and accessible throughout. . . . Miesfeld has done a wonderful job of presenting contemporary molecular genetic strategies in an accessible and enjoyable style."—Paul A. Krieg, University of Texas.

Applied Molecular Genetics explains the key biochemical and cell biological principles behind some of today's most commonly used applications of molecular genetics, using clear terms and well- illustrated flow schemes. The book is divided into several sections and moves from basic to advanced topics while providing a concise overview of fundamental concepts in modern biotechnology. Each chapter concludes with a Laboratory Practicum describing a hypothetical research objective and the sequence of steps that are most often used to investigate biological questions using molecular genetic methods. In addition, the book provides informative summaries of the latest advances in molecular genetics, using attractive illustrations and a comprehensive reference list. Representative topics include:

• Genomic mapping using single nucleotide polymorphisms.
• Creating cell-specific gene knockouts in transgenic mice.
• Animal cloning methodologies based on whole nuclear transfer.
• Pharmacogenetic applications of DNA microarray technology.

  This text introduces the use of Internet resources through the World Wide Web as a powerful new tool in molecular genetic research. Seven appendices are included in the book, providing a convenient resource for properties of nucleic acids, protein and restriction enzymes, a description of common E. coli genetic markers and gel electrophoresis parameters, as well as a list of useful Internet sites.

  A must-have guide for all instructors and students in the fields of modern biochemistry, cell biology, and genetics, Applied Molecular Genetics is an ideal reference for anyone needing a clear, concise source of up-to-date information on this rapidly changing field.

"Gene Containment" provides a comprehensive look at genetically modified organisms and the strategies and implementation of key methods to gene containment. The book is divided into 5 parts: An Introduction that discusses the need for biotechnology and GMOs, Section 1 looks at the need for gene containment, Part II discusses varying strategies for gene containment, section III explores the assessment of gene containment approaches, and section IV covers the steps involved in implementing gene containment. "Gene Containment" will provide a thorough and up to date look at gene containment research and the needs for implementing new strategies in this arena.

Current Developments in Biotechnology and Bioengineering: Functional Genomics and Metabolic Engineering provides extensive coverage of new developments, state-of-the-art technologies, and potential future trends in the field, compiling the latest ideas from across the entire arena of biotechnology and bioengineering. This volume provides data-based scientific knowledge and state-of-art information on functional genomics and metabolic engineering. It covers the core subjects of functional genomics, such as epigenomics, metagenomics, genomics of extremophiles, genomics studies in nutrient transport, genomics of miRNA, and genomics of pathogenesis. An overview of metabolic engineering theories and approaches is supported with specific important examples of secondary metabolites, including Streptomyces, pentose utilization in E. coli, bacterial ethanol fermentation, yeast mediated benzaldehyde biotransformation, carotenoid production, acetic acid production by E. coli, and NADH regeneration.

This book explores the double coding property of DNA, which is manifested in the digital and analog information types as two interdependent codes. This double coding principle can be applied to all living systems, from the level of the individual cell to entire social systems, seen as systems of communication. Further topics discussed include the ubiquitous problem of logical typing, which reflects our inherent incapacity to simultaneously perceive discontinuity and continuity, the problem of time, and the peculiarities of autopoietic living systems. It is shown that the scientific "truths" that appear to be coherent constructions connecting the scientifically verified observations by the rules of logic are in fact always relative and never absolute.

With CRISPR/Cas gene editing tools in hand, we are currently experiencing a new dimension in genetic engineering. But where should the journey lead? Should we treat diseases or better repair them genetically? Will the new genetic engineering, combined with modern reproductive biology, lead to designer babies? And: May we allow a liberalization of these techniques as citizen science? New methods can precisely alter the genetic material - and they leave no traces. This gene and genome surgery thrives on increasing knowledge about the mode of action of genes, those trait-giving regions in the genome. This knowledge is being applied in practice, particularly in the breeding of more resistant and higher-yielding crops. And what about us? The author shows that gene variants have long been associated not only with diseases, but also with nutritional preferences or intelligence. Therapeutic and optimization options are close at hand. What effect does the environment have on the expression of genetic material? Genes can be shaped during a person's lifetime by the environment, nutrition or experiences and thus passed on to their offspring in a modified form. So, does society have a new form of long-term responsibility for (epi)genetic integrity? In this vividly and comprehensibly written book, the author explains the state of genetic engineering without assuming too much prior knowledge and invites an open dialogue on this ambivalent topic. Get your own idea of the fascinating yet intimidating possibilities of genetic engineering. Where do you stand on the issue? With the help of this book, you have the chance to form a differentiated opinion. This book is a translation of the original German 1st edition Generation Gen-Schere by Roebbe Wunschiers, published by Springer Fachmedien Wiesbaden GmbH, part of Springer Nature in 2019. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). The text was subsequently revised by the author. Springer Nature works continuously to further the development of tools for the production of books and on the related technologies to support the authors.

Recent advances in techniques and understanding in the fields of genetics, embryology and reproductive biology have opened up new ways to treat a wide range of medical problems. They range from new options for infertility treatment and pre-implantation genetic diagnosis to stem-cell-based therapies for debilitating diseases. Since all these approaches involve the manipulation of human gametes, embryos or embryonic cells, and could also permit more contentious uses, they have stimulated a controversial debate as to what aims are desirable and to what extent experiments on human embryos are morally permissible, if permissible at all. The situation is further complicated by the fact that scientific projects are increasingly realized through international co-operation and that patients are increasingly ready to seek morally contentious medical treatment wherever it is available and thus to bypass national legislation. In view of this situation the Europaische Akademie assembled a temporary interdisciplinary project group in which scientists from universities and non-university research organizations in Europe working on the relevant subjects were brought together and charged with establishing a knowledge base and providing suggestions for long-term solutions that would be acceptable for society. Presented here are the results of this project, ranging from a discussion of the theoretical and practical possibilities in human-embryo experimentation and its alternatives in research on adult stem cells, a comparison of the situations and prospects of regulation of embryo research in Europe, a survey of European public attitudes, and a philosophical analysis of the arguments and argumentative strategies used in the debate."

Passionate, provocative, and highly illuminating, Hacking Darwin is the must read book about the future of our species for fans of Homo Deus and The Gene.

After 3.8 billion years humankind is about to start evolving by new rules...

From leading geopolitical expert and technology futurist Jamie Metzl comes a groundbreaking exploration of the many ways genetic-engineering is shaking the core foundations of our lives ― sex, war, love, and death.

At the dawn of the genetics revolution, our DNA is becoming as readable, writable, and hackable as our information technology. But as humanity starts retooling our own genetic code, the choices we make today will be the difference between realizing breathtaking advances in human well-being and descending into a dangerous and potentially deadly genetic arms race.

Enter the laboratories where scientists are turning science fiction into reality. Look towards a future where our deepest beliefs, morals, religions, and politics are challenged like never before and the very essence of what it means to be human is at play. When we can engineer our future children, massively extend our lifespans, build life from scratch, and recreate the plant and animal world, should we?

This book demonstrates how the Thalidomide catastrophe of the 1960s and the BSE crisis of the 1990s led to regulatory regimes for pharmaceuticals and foodstuffs in Europe. However, the developmental paths of these regimes differ - and so does the efficiency and legitimacy of regulatory policy-making.

Since their discovery and subsequent development into laboratory tools, CRISPR-Cas systems have revolutionized the science of gene editing and their possible applications continue to expand, from basic research to potentially groundbreaking medical and commercial uses. Led by a distinguished team of editors, CRISPR: Biology and Applications explores the subject matter needed to delve into this fascinating area. This comprehensive text presents the diversity of CRISPR-Cas systems, the underlying biology of these systems, and CRISPR-based technologies and applications. Topics covered include: Classification and molecular mechanisms of CRISPR-Cas systems CRISPR-Cas evolution, regulation, expression, and function Uses for gene editing and modulation of gene expression CRISPR-based antimicrobials and phage resistance for medical and industrial purposes Written by internationally renowned authors, CRISPR: Biology and Applications serves as both an introductory guide for those new to the field and a ready reference for seasoned researchers whose work touches this evolving and headline-making science.

Continued advances in biotechnology have driven forward the harnessing of micro-organisms and plants to help protect our fragile environment from the impact of human activity in increasingly targeted yet diverse ways. Environmental Biotechnology provides a broad overview of the subject, focusing on how biotechnological techniques are applied to solve environmental problems, rather than giving detailed explanations of the techniques themselves. Opening with an overview of environmental biotechnology, and a review of the key aspects of microbiology upon which the field is based, the book goes on to explore the diverse way in which biotechnology is applied to tackle environmental problems and issues, from monitoring of the environment and treatment of waste, to the removal of pollutants and extraction of oil and minerals. The book closes with a discussion of the ways in which future advances in biotechnology are likely to be harnessed to address current and emerging issues and problems in increasingly effective and powerful ways. Capturing the current excitement in a field reinvigorated by advances in genetic manipulation, and emerging genomic and proteomic technologies, Environmental Biotechnology is the perfect resource for any student needing to develop a sound understanding of biotechnology, and the diverse ways it can be applied to address important environmental issues. Online Resource Centre - Figures from the book available to download, to facilitate lecture preparation - Library of web links cited in the book, to give students ready access to these additional resources

Since the birth of civilisation, human beings have manipulated other life-forms. We have selectively bred plants and animals for thousands of years to maximise agricultural production and cater to our taste in pets. The observation of the creation of artificial animal and plant variants was a key stimulant for Charles Darwin's theory of evolution. The ability to directly engineer the genomes of organisms first became possible in the 1970s, when the gene for human insulin was introduced into bacteria to produce this protein for diabetics. At the same time, mice were modified to produce human growth hormone, and grew huge as a result. But these were only our first tottering steps into the possibilities of genetic engineering. In the past few years, the pace of progress has accelerated enormously. We can now cut and paste genes using molecular scissors with astonishing ease, and the new technology of genome editing can be applied to practically any species of plants or animals. 'Mutation chain reaction' can be used to alter the genes of a population of pests, such as flies; as the modified creatures breed, the mutation is spread through the population, so that within a few generations the organism is almost completely altered. At the same time, scientists are also beginning to synthesize new organisms from scratch. These new technologies hold much promise for improving lives. Genome editing has already been used clinically to treat AIDS patients, by genetically modifying their white blood cells to be resistant to HIV. In agriculture, genome editing could be used to engineer species with increased food output, and the ability to thrive in challenging climates. New bacterial forms may be used to generate energy. But these powerful new techniques also raise important ethical dilemmas and potential dangers, pressing issues that are already upon us given the speed of scientific developments. To what extent should parents be able to manipulate the genetics of their offspring - and would designer babies be limited to the rich? Can we effectively weigh up the risks from introducing synthetic lifeforms into complex ecosystems? In this extensively revised paperback edition, John Parrington explains the nature and possibilities of these new scientific developments, which could usher in a brave, new world. We must rapidly come to understand its implications if we are to direct its huge potential to the good of humanity and the planet.

The possibility that human beings may soon be cloned has generated enormous anxiety and fueled a vigorous debate about the ethics of contemporary science. Unfortunately, much of this debate about cloning has treated cloning as singular and revolutionary. The essays in Cloning and the Future of Human Embryo Research place debates about cloning in the context of reproductive technology and human embryo research. Although novel, cloning is really just the next step in a series of reproductive interventions that began with in vitro fertilization in 1978. Cloning, embryo research, and reproductive technology must therefore be discussed together in order to be understood. The authors of this volume bring these topics together by examining the status of preimplantation embryos, debates about cloning and embryo research, and the formulation of public policy. The book is distinctive in framing cloning as inextricably tied to embryo research and in offering both secular and religious perspectives on cloning and embryo research.

Each plant species has its own unique passage that is affected by its gene pool, dispersal ability, interactions with competitors and pests, and the habitats and climactic conditions to which it is exposed. This book will explore plant species as dynamic entities within this passage, following the four stages of plant species life that normally occur. Those four stages can be identified as birth, expansion, differentiation and loss of cohesion, and decline/extinction. Each chapter focuses on part of the speciation process and examines it closely in the light of exploring the species passage from birth to death.

Human beings have on the order of 100,000 different genes encoding the molecules needed to build and operate the human body; defects in any one of them can lead to disastrous consequences. There are an estimated 4,000 genetic diseases, which can be every bit as devastating as the diseases caused by bacteria or viruses, and in one way they are much worse: we pass them on to our children, generation after generation after generation. The New Healers is the story of the devastation these diseases cause, and the scientific researchers and doctors who struggle to combat them. Science and medicine have provided us with clues to the treatment of a few genetic diseases, although by their very nature they have never been considered curable. But, as William R. Clark shows, that is about to change through one of the most profound revolutions in modern medicine: gene therapy, a branch of the new field of molecular medicine. Clark takes us to the laboratories which have been able to isolate human genes, to make billions of copies of them, and to reintroduce healthy genes into unfortunate individuals who have inherited damaged or functionless genes. He also shows us how this same technology, turned around on itself, can also be used to deliberately introduce "bad" genes to attack and destroy unwanted cells, such as cancer cells or those infected with the AIDS virus. Molecular medicine will be a major part of our lives in the new millennium. The New Healers outlines the powerful and compelling logic behind molecular medicine: that everything we know about molecular biology tells us that it can work, and that it will work. Clark introduces us to the scientists working now to map out the entire human genome, easily the medical equivalent of going to the moon, taking human beings to a completely new level of understanding of our biological selves. Clark also helps us to begin thinking about how we will manage that understanding, and how we will use the information we gain. The New Healers is a clear and compelling introduction to this important new frontier of human medicine, outlining for readers all the basic elements of molecular biology necessary to understand molecular medicine, and illustrating the fascinating stories of those doctors and patients already a part of this exciting future -- a future as full of promise as anything we have witnessed in this past century of remarkable progress.

A top behavioral geneticist makes the case that DNA inherited from our parents at the moment of conception can predict our psychological strengths and weaknesses.In Blueprint, behavioral geneticist Robert Plomin describes how the DNA revolution has made DNA personal by giving us the power to predict our psychological strengths and weaknesses from birth. A century of genetic research shows that DNA differences inherited from our parents are the consistent lifelong sources of our psychological individuality--the blueprint that makes us who we are. Plomin reports that genetics explains more about the psychological differences among people than all other factors combined. Nature, not nurture, is what makes us who we are. Plomin explores the implications of these findings, drawing some provocative conclusions--among them that parenting styles don't really affect children's outcomes once genetics is taken into effect. This book offers readers a unique insider's view of the exciting synergies that came from combining genetics and psychology. The paperback edition has a new afterword by the author.

This text provides an investigation into how the Human Genome Project (HGP) is likely to affect future generations. It examines the implications these effects hold for evaluating HGP and other research efforts like it.

Recombinant DNA techniques have revolutionized the isolation and production of antibodies in recent years. This has resulted in rapid changes in how to handle antibodies for research. This new Practical Approach volume responds to this change by assembling, in one volume, protocols which allow the researcher to isolate a new antibody, analyse its properties, format the right antibody molecule or fragment, and produce it in usable quantities. The book is divided into two parts: the first describes the generation and analysis of antibodies and the second covers engineering and production. This timely book will be of interest to those involved in both clinical and molecular biological applications of antibodies.

With each species lost to the mass extinction crisis, the natural economy of the nation and of the world is greatly diminished. An endangered animal may hold the cure for cancer; a threatened plant could someday become a major food crop; and even bacteria often provide novel molecular structures in polymer science. As the rainforest is destroyed and habitats are degraded, conservationists are now urgently searching for dramatic new ways to save these economic resources.
In this provocative and important book, Joseph Henry Vogel details one potential solution that has met with increasing interest and popularity: the privatization of genetic information. Vogel cogently makes the case that the world should abandon the doctrine of "the common heritage of mankind" and create private property rights over genes. Landowners, once vested with the genetic resources on their land, will have a newfound financial incentive to protect what they now already control.
Genes for Sale provides an overview of the many complexities inherent in implementing a viable conservation policy. Vogel elaborates both technical issues like the construction of a "gargantuan database" of landtitles and biological inventories, and political issues like legal reform. Clearly written, engaging, and timely, Genes for Sale provides students, scientists, and policy makers alike with the ideal introduction to an exciting and controversial new approach to saving our precious living heritage.

This volume presents new research on messenger RNA (mRNA), the crucial mediating template between DNA and protein synthesis. In five chapters and several expert commentaries, international scientists examine major proteins involved in this transcription process, e.g., p38, a key proinflammatory-signaling molecule whose activity is being studied in order to develop inhibitors to treat rheumatoid arthritis and other chronic inflammatory diseases. Experimental methods and findings are presented relating to the role of mRNA in other clinical applications and to its basic role in gene expression. Illustrations include mRNA pathways for specific genes, mRNA encoding of proteins, and phylogenetic analysis diagrams. The editor's credentials are not given.

"Gene Therapy for Cartilage and Bone Tissue Engineering" outlines the tissue engineering and possible applications of gene therapy in the field of biomedical engineering as well as basic principles of gene therapy, vectors and gene delivery, specifically for cartilage and bone engineering. It is intended for tissue engineers, cell therapists, regenerative medicine scientists and engineers, gene therapist and virologists. Dr. Yu-Chen Hu is a Distinguished Professor at the Department of Chemical Engineering, National Tsing Hua University and has received the Outstanding Research Award (National Science Council), Asia Research Award (Society of Chemical Engineers, Japan) and Professor Tsai-Teh Lai Award (Taiwan Institute of Chemical Engineers). He is also a fellow of the American Institute for Medical and Biological Engineering (AIMBE) and a member of the Tissue Engineering International & Regenerative Medicine Society (TERMIS)-Asia Pacific Council.