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.

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.

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.

This book, published by Springer since 1979, presents state-of-the-art discussions in modern genetics and genetic engineering. This focus affirms a commitment to publish important reviews of the broadest interest to geneticists and their colleagues in affiliated disciplines. Recent volumes have covered gene therapy research, genetic mapping, plant science and technology, transport protein biochemistry, and viral vectors in gene therapy, among other topics.

Plants, being sessile and autotrophic in nature, must cope with challenging environmental aberrations and therefore have evolved various responsive or defensive mechanisms including stress sensing mechanisms, antioxidant system, signaling pathways, secondary metabolites biosynthesis, and other defensive pathways among which accumulation of osmolytes or osmo-protectants is an important phenomenon. Osmolytes with organic chemical nature termed as compatible solutes are highly soluble compounds with no net charge at physiological pH and nontoxic at higher concentrations to plant cells. Compatible solutes in plants involve compounds like proline, glycine betaine, polyamines, trehalose, raffinose family oligosaccharides, fructans, gamma aminobutyric acid (GABA), and sugar alcohols playing structural, physiological, biochemical, and signaling roles during normal plant growth and development. The current and sustaining problems of climate change and increasing world population has challenged global food security. To feed more than 9 billion, the estimated population by 2050, the yield of major crops needs to be increased 1.1-1.3% per year, which is mainly restricted by the yield ceiling. A major factor limiting the crop yield is the changing global environmental conditions which includes drought, salinity and extreme temperatures and are responsible for a reduction of crop yield in almost all the crop plants. This condition may worsen with a decrease in agricultural land or the loss of potential crop yields by 70%. Therefore, it is a challenging task for agricultural scientists to develop tolerant/resistant varieties against abiotic stresses. The development of stress tolerant plant varieties through conventional breeding is very slow due to complex multigene traits. Engineering compatible solutes biosynthesis by deciphering the mechanism behind the abiotic tolerance or accumulation in plants cell is a potential emerging strategy to mitigate adverse effects of abiotic stresses and increase global crop production. However, detailed information on compatible solutes, including their sensing/signaling, biosynthesis, regulatory components, underlying biochemical mechanisms, crosstalk with other signaling pathways, and transgenic development have not been compiled into a single resource. Our book intends to fill this unmet need, with insight from recent advances in compatible solutes research on agriculturally important crop plants.

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."

Genetic Engineering: Principles and Methods, published by Springer since 1979, presents state-of-the-art discussions in modern genetics and genetic engineering. This focus affirms a commitment to publish important reviews of the broadest interest to geneticists and their colleagues in affiliated disciplines.

Recent volumes have covered gene therapy research, genetic mapping, plant science and technology, transport protein biochemistry, and viral vectors in gene therapy, among other topics.

This book provides a detailed description of various multidimensional chromatographic separation techniques. The editor first provides an introduction to the area and then dives right into the various complex separation techniques. While still not used routinely comprehensive chromatography techniques will help acquaint the readers with the fundamentals and possible benefits of multi-dimensional separations coupled with mass spectrometry.

The topics include a wide range of material that will appease all interested in either entering the field of multidimensional chromatography and those looking to gain a better understanding of the topic.

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.

Our daily news bulletins bring us tales of the wonder of science, from Mars rovers and intelligent robots to developments in cancer treatment, and yet often the emphasis is on the potential threats posed by science. It appears that irrationality is on the rise in western society, and public opinion is increasingly dominated by unreflecting prejudice and unwillingness to engage with factual evidence. From genetically modified crops and food, organic farming, the MMR vaccine, environmentalism, the precautionary principle and the new anti-capitalist and anti-globalisation movements, the rejection of the evidence-based approach nurtures a culture of suspicion, distrust, and cynicism, and leads to dogmatic assertion and intolerance. In this compelling and timely examination of science and society, Dick Taverne argues that science, with all the benefits it brings, is an essential part of civilised and democratic society: it offers us our most hopeful future.

Our daily news bulletins bring us tales of the wonder of science, from Mars rovers and intelligent robots to developments in cancer treatment, and yet often the emphasis is on the potential threats posed by science. It appears that irrationality is on the rise in western society, and public opinion is increasingly dominated by unreflecting prejudice and unwillingness to engage with factual evidence. From genetically modified crops and food, organic farming, the MMR vaccine, environmentalism, the precautionary principle and the new anti-capitalist and anti-globalisation movements, the rejection of the evidence-based approach nurtures a culture of suspicion, distrust, and cynicism, and leads to dogmatic assertion and intolerance. In this compelling and timely examination of science and society, Dick Taverne argues that science, with all the benefits it brings, is an essential part of civilised and democratic society: it offers the most hopeful future for mankind.

The latest edition of this highly successful textbook introduces the key techniques and concepts involved in cloning genes and in studying their expression and variation.
The new edition features:
Increased coverage of whole-genome sequencing technologies and enhanced treatment of bioinformatics.Clear, two-colour diagrams throughout.A dedicated website including all figures.

Noted for its outstanding balance between clarity of coverage and level of detail, this book provides an excellent introduction to the fast moving world of molecular genetics.

The application of new molecular technology has greatly increased our understanding of the role of chromosomal change in plant evolution. There is now a broad database on genome size variation within and among species and a wide array of nuclear and cytoplasmic genetic markers. There is a variety of literatures addressing this subject but much of it is scattered. This book created a contemporary synthesis or work in this area and addresses issues such as herogeneity, polyploidy, chromosomal rearrangements within species and phenotypic consequences of chromosome doubling.

This combined lecture and laboratory manual presents detailed protocols for the multi-step process involved in isolating a gene, cloning and characterizing it, expressing the encoded protein, purifying the protein, and characterizing rudimentary aspects of its basic physical properties. The manual includes 20 experiments designed to train students to prepare, manipulate and analyse plasmids, to produce fusion proteins in bacteria, and to purify these proteins based on unique chemical properties or substrate affinities. Maximizing its utility for both students and instructors, this unique manual precedes each lab experiment with the necessary background theory and principles, which culminate in detailed process rationale followed by the actual experimental technique. While many lab manuals list background references, this innovative book combines both theory and procedure into one manageable volume.

Discovered little more than a decade ago, optogenetics - a revolutionary technique combining genetic and optical methods to observe and control the function of neurons - is now a widely used research tool. Optogenetics-driven research has led to insights into Parkinson's disease and other neurological and psychiatric disorders. With contributions from leaders and innovators from both academia and industry, this volume explores the discovery and application of optogenetics, from the basic science to its potential clinical use. Chapters cover a range of optogenetics applications, including for brain circuits, plasticity, memory, learning, sleep, vision and neurodegenerative and neuropsychiatric diseases. Providing authoritative coverage of the huge potential that optogenetics research carries, this is an ideal resource for researchers and graduate students, as well as for those working in the biotechnology and pharmaceutical industries and in a clinical setting.

The ability to successfully clone genes underlies the majority of our knowledge in molecular and cellular biology. Gene Cloning introduces the diverse array of techniques available to clone genes and how they can be used effectively both in the research laboratory, to gain knowledge about the gene, and for use in biotechnology, medicine, the pharmaceutical industry, and agriculture. It shows how cloning genes is an integral part of genomics and underlines its relevance in the post-genomic age, as a tool required to test predictions of gene regulation and function made through bioinformatics. Applications of gene cloning in medicine, both for diagnosis and treatment, and in the pharmaceutical industry and agriculture, are also covered in the book.

Gene Cloning takes a fresh approach to teaching molecular and cellular biology and will be a valuable resource to both undergraduates and lecturers of biological and biomedical science courses.

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.

In China, as elsewhere, the debate over genetically modified organisms has become polarized into anti- and pro-GMO camps. Given the size of China's population and market, much is at stake in conflicts over regulation for domestic as well as international actors. In this book, Cong Cao provides an even-handed analysis that illuminates the tensions that have shaped China's policy toward agricultural biotechnology in a global perspective. Cao presents a comprehensive and systematic analysis of how China's policy toward research and commercialization of genetically modified crops has shifted that explains how China's changing GMO stances reflect its evolving position on the world stage. While China's scientific community has set the agenda, it has encountered resistance rooted in concerns over food safety and consumers' rights as well as issues of intellectual property rights and food sovereignty. Although Chinese leaders at first sought to take advantage of the biotech revolution by promoting GMO crop consumption, Cao demonstrates that policy has since become precautionary, as seen in new laws and regulations grounded in concerns over safety and the deferral of commercialization of GM rice. He presents China's policies in light of changing global attitudes toward GM crops: As shifts in China have closely followed global trends, so has domestic activism. Drawing on government and scientific documents as well as interviews with scientists, officials, policy analysts, activists, and journalists, GMO China is an important book for China studies, science and technology studies, policy analysts, and professionals interested in the Chinese biotechnology market.

'This co-authored book explores how advances in cell biology, CRISPR gene editing and bioengineering might be used to make a live dragon. The result is a gloriously tongue-in-check scientific epic ... How to Build a Dragon or Die Trying is deliberately flamboyant and outrageous. ItaEURO (TM)s also funny and smart. Far from a how-to guide for neaEURO (TM)er-do-wells to weaponize reptiles, it is designed to spark healthy curiosity in anyone who enjoys a ripping good science read.'NatureWhat if you could have your own real dragon? While that might seem like just a fantasy, today cutting-edge science has brought us to the point where it might really be possible. This book looks into the possibilities of making living, fire-breathing dragons. The world has been fascinated with dragons for thousands of years. Fictional dragons still have a firm place in pop culture, such as Smaug from The Hobbit as well as the dragons in Game of Thrones and in the How to Train Your Dragon movies. This new book discusses using powerful technologies such as CRISPR gene editing, stem cells, and bioengineering to make real dragons. It also goes through what useful information we can learn from animals such as Pteranodons and amazing present-day creatures in our quest to build actual dragons. The book goes on to discuss the possibility of building other mythical creatures such as unicorns and mermaids. Overall, How to Build A Dragon is also meant as a satirical look at cutting-edge science, and it pokes fun at science hype. Anyone who is interested in dragons or cutting-edge science will enjoy this book! It is written in a humorous, approachable way making science fun and easy to understand, including for young adults.The author is well-known scientist Paul Knoepfler who is familiar to the public for his science, his blog The Niche, and his frequent contributions to lay stories on new science concepts such as stem cells and CRISPR. He also is known for his TED talk on designer babies with more than 1.3 million views, and his two books - . The co-author, his daughter Julie Knoepfler, is a high school student interested in science and writing. She has her own blog on literary and film analysis, and enjoys taking a humorous look at culture through writing.

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

DNA microarrays, or biochips, are small glass chips embedded with ordered rows of DNA and by providing a massive parallel platform for data gathering represent a fundamental technical advance in biomedical research. This volume is a comprehensive overview of DNA microarray technology and will be invaluable to any researcher interested in taking advantage of this powerful new technique.

Once confined to the research laboratory, the genetic engineering of plants is now a big business that is changing the face of modern agriculture. Giant corporations are creating designer crops with strange powers, from cholesterol-reducing soybeans to plants that act as miniature drug factories, churning out everything from vaccines to insulin. They promise great benefits: better health for consumers, more productive agriculture - even an end to world hunger. But the vision has a dark side, one of profit-driven tampering with life and the possible destruction of entire ecosystems. In this text Daniel Charles takes us deep inside research labs, farm sheds and corporate boardrooms to reveal the hidden story behind this agricultural revolution. He tells how a handful of scientists at Monsanto drove biotechnology from the lab into the field, and how the company's opponents are fighting back with every tool available to them, including the cynical manipulation of public fears. A dramatic account of boundless ambition, political intrigue and the quest for knowledge, this is ultimately a story of idealism and of conflicting dreams about the shape of a better world.

mRNA METABOLISM & POST-TRANSCRIPTIONAL GENE REGULATION
Edited by Joe B. Harford and David R. Morris
Gene expression is a process that begins with the transcription of DNA to an RNA messenger (mRNA), which is then translated into a protein. Historically, attention has been focused on the regulation of RNA synthesis (transcription); however, there is a growing recognition of and appreciation for the importance of the many regulatory mechanisms that take place after RNA synthesis has been completed.
mRNA Metabolism and Post-Transcriptional Gene Regulation is the first comprehensive overview of the various modes of gene regulation that exist post-transcriptionally. Collecting studies by some of the top researchers in the field, this volume provides both an up-to-date review of the complex "life" of an mRNA molecule and an introduction to current work on the diversity of mechanisms of post-transcriptional reactions.
Topics covered include:
* RNA structure
* Mammalian RNA editing
* RNA export from the nucleus
* The fundamentals of translation initiation
* Control of mRNA decay in plants
* mRNA metabolism and cancer
* Control of mRNA stability during herpes simplex virus infection
* Regulation of mRNA expression in HIV-1 and other complex retroviruses
* Nucleases
* RNA localization

A timely contribution to the understanding of genetic regulatory mechanisms, mRNA Metabolism and Post-Transcriptional Gene Regulation provides a basis from which potential therapeutic strategies may be developed. This book will be of vital interest to cell and molecular biologists at all levels, from graduate students to senior investigators, clinical researchers, and professionals in the pharmaceutical and biotechnology industries.

Jobst Conrad prasentiert die Ergebnisse einer sozialwissenschaftlichen Begleitstudie, die den Prozess und die Chancen der Umsetzung des InnoRegio-Programms des BMBF in der Praxis untersucht. Daruber hinaus gibt er einen Uberblick uber Innovations- und Netzwerkkonzepte, Innovationsdynamik und Technologiepolitik sowie uber Geschichte und Entwicklungstrends der Biotechnologie, Biotechnologiepolitik und Gentechnikdiskurs.