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Heredity, genes and DNA. Synthesis without cells. Microorganisms as producers of feedstock chemicals. Gene cloning opens up a new frontier in health. The microbial production of biochemicals. Single-cell proteins. Bacterial leaching and biomining. Bacteria and the environment. Biological nitrogen fixation. Plant cell and tissue culture. Improving crop plants by the introduction of isolated genes. Monoclonal antibodies and their applications. Site-directed antibodies in biology and medicine. New methods for the diagnosis of genetic diseases. The prospect of gene therapy for human hereditary diseases. Biotechnology, international competition and regulatory strategies.
Is a baby whose personality has been chosen from a gene supermarket still a human? If we choose what we create what happens to morality? Is this the end of human nature? The dramatic advances in DNA technology over the last few years are the stuff of science fiction. It is now not only possible to clone human beings it is happening. For the first time since the creation of the earth four billion years ago, or the emergence of mankind 10 million years ago, people will be able to choose their children's' sex, height, colour, personality traits and intelligence. It will even be possible to create 'superhumans' by mixing human genes with those of other animals for extra strength or longevity. But is this desirable? What are the moral and political consequences? Will it mean anything to talk about 'human nature' any more? Is this the end of human beings? Our Posthuman Future is a passionate analysis of the greatest political and moral problem ever to face the human race.
By the middle of the 21st century century we can expect that the rapid progress in biotechnology will utterly transform human life. Even the prospect of immortality beckons. Such scenarios excite many people and frighten or appall many others--already biotechnology opponents are organizing political movements aimed at restricting scientific research, banning the development and commercialization of various products and technologies, and limiting citizens' access to the fruits of the biotech revolution. Bailey, science writer for Reason magazine, argues that the coming biotechnology revolution, far from endangering human dignity, will enable more of us to live flourishing lives free of disease, disability, and the threat of early death. Bailey covers the full range of the coming biotechnology breakthroughs, from stem-cell research to third-world farming, from brain-enhancing neuropharmaceuticals to designer babies.--From publisher description.
Everything you need to know about the most important trend in the history of the world Within most people's lifetimes, the developments in the biotechnology sector will allow us to live increasingly long and healthy lives, as well as provide us with technological innovations that will transform the way we live. But these innovations offer more than just hope for a better life, but hope for better returns too. Financial returns of incredible magnitude await savvy investors and businesspeople who can see the massive changes on the horizon. This book details these fast-moving trends and innovations and offers extensive advice on how to profit from them in business and investing.
Using the concept of innovation capacity, this book, using recent field data from countries in Asia and Africa, competently demonstrates how biotechnology can contribute to sustainable economic development. The approach articulates the imperative for developing countries to build up specific capabilities backed up by policies and institutions.
Can the open source approach do for biotechnology what it has done for information technology? Hope's book is the first sustained and systematic inquiry into the application of open source principles to the life sciences. Traversing disciplinary boundaries, she presents a careful analysis of intellectual property-related challenges confronting the biotechnology industry and then paints a detailed picture of "open source biotechnology" as a possible solution.
Epigenetics can potentially revolutionize our understanding of the structure and behavior of biological life on Earth. It explains why mapping an organism's genetic code is not enough to determine how it develops or acts and shows how nurture combines with nature to engineer biological diversity. Surveying the twenty-year history of the field while also highlighting its latest findings and innovations, this volume provides a readily understandable introduction to the foundations of epigenetics. Nessa Carey, a leading epigenetics researcher, connects the field's arguments to such diverse phenomena as how ants and queen bees control their colonies; why tortoiseshell cats are always female; why some plants need cold weather before they can flower; and how our bodies age and develop disease. Reaching beyond biology, epigenetics now informs work on drug addiction, the long-term effects of famine, and the physical and psychological consequences of childhood trauma. Carey concludes with a discussion of the future directions for this research and its ability to improve human health and well-being.
Using the field of genetics as a case study, this book follows the troubled development of modern natural science in China from the 1920s, through Mao's China, to the present post-socialist era. Through detailed portraits of key scientists and institutions, basic dilemmas are explored: how to control nature with science, how to gain independence from foreign-controlled science, how to get scientists out from under control of ideology and the state. Using the field of genetics as a case study, this book follows the troubled development of modern natural science in China from the 1920s, through Mao's China, to the present post-socialist era. Through detailed portraits of key scientists and institutions, basic dilemmas are explored: how to control nature with science, how to gain independence from foreign-controlled science, how to get scientists out from under control of ideology and the state.
The United States and India have pledged to deepen the linkages between their people, their businesses, and their governments for the mutual benefit of both countries and for the promotion of global peace, stability, economic growth and prosperity. Both nations are now inclined to improve relations and cooperation, but the nations need specific actions that will yield progress and build confidence and momentum for further cooperation. The Indo-U.S. Workshop on Challenges of Emerging Infections and Global Health Safety, held in November 2014, encouraged scientists from both countries to examine global issues related to emerging and existing infections and global health safety, to share experience and approaches, and to identify opportunities for cooperation to improve practice and research in these areas. This report summarizes the presentations and discussions from the workshop.
The tremendous progress in biology over the last half century - from Watson and Crick's elucidation of the structure of DNA to today's astonishing, rapid progress in the field of synthetic biology - has positioned us for significant innovation in chemical production. New bio-based chemicals, improved public health through improved drugs and diagnostics, and biofuels that reduce our dependency on oil are all results of research and innovation in the biological sciences. In the past decade, we have witnessed major advances made possible by biotechnology in areas such as rapid, low-cost DNA sequencing, metabolic engineering, and high-throughput screening. The manufacturing of chemicals using biological synthesis and engineering could expand even faster. A proactive strategy - implemented through the development of a technical roadmap similar to those that enabled sustained growth in the semiconductor industry and our explorations of space - is needed if we are to realize the widespread benefits of accelerating the industrialization of biology. Industrialization of Biology presents such a roadmap to achieve key technical milestones for chemical manufacturing through biological routes. This report examines the technical, economic, and societal factors that limit the adoption of bioprocessing in the chemical industry today and which, if surmounted, would markedly accelerate the advanced manufacturing of chemicals via industrial biotechnology. Working at the interface of synthetic chemistry, metabolic engineering, molecular biology, and synthetic biology, Industrialization of Biology identifies key technical goals for next-generation chemical manufacturing, then identifies the gaps in knowledge, tools, techniques, and systems required to meet those goals, and targets and timelines for achieving them. This report also considers the skills necessary to accomplish the roadmap goals, and what training opportunities are required to produce the cadre of skilled scientists and engineers needed.