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Annotation What we now know about mobile DNA--and the substantial roles it plays in humans, animals, and plants. & bull; & bull;Mobile DNA accounts for more than half of our genome: This book explains the important role it plays in shaping evolutionary change. & bull;A rich, thorough, and accessible introduction for all serious students, practitioners, and researchers in human and medical genetics, molecular biology, or evolutionary biology. & bull;By one of the field's leading researchers, Dr. Haig Kazazian. This book thoroughly reviews our current scientific understanding of the significant role that mobile genetic elements play in the evolution and function of genomes and organisms--from plants and animals to humans. Highly regarded geneticist Haig Kazazian offers an accessible intellectual history of the field's research strategies and concerns, explaining how advances opened up new questions, and how new tools and capabilities have encouraged progress in the field. Kazazian introduces the key strategies and approaches taken in leading laboratories (including his own) to gain greater insight into the large proportion of our genome that derives from mobile genetic elements, including viruses, plasmids, and transposons. He also presents intriguing insights into long-term research strategies that may lead to an even deeper understanding.
3 cutting-edge books reveal the latest genetic breakthroughs – and their implications for you, your health, and your world These three cutting-edge books reveal how modern genetics has already transformed the world – and will transform it again and again in the coming years. Mobile DNA book thoroughly reviews our current scientific understanding of the significant role that mobile genetic elements play in the evolution and function of genomes and organisms–from plants and animals to humans. Renowned geneticist Haig Kazazian offers an accessible intellectual history of the field’s research strategies and concerns, explaining how advances have opened up new questions, and how new tools and capabilities have encouraged still more progress. He introduces today’s key strategies for advancing the field, and previews long-term research strategies that may lead to even deeper insights. Next, in Investigating the Human Genome, leading medical genetics scholar Moyra Smith reviews current and recent work in genetics and genomics to assess progress in understanding human variation and the pathogenesis of common and rare diseases linked to genetics. You’ll discover how these advances are shedding new light on issues ranging from human origins to psychiatric disease, Alzheimer’s to epigenetics. Finally, in Genes, Chromosomes, and Disease, Nicholas Wright Gillham offers an exceptionally readable overview of the rise and transformations of medical genetics – and of the eugenic impulses that it has inspired. From world-renowned leaders and experts, including Haig H. Kazazian, Moyra Smith, and Nicholas Wright Gillham
Epigenetics is defined as heritable changes that do not affect the DNA sequence but influence gene expression. Epigenetic changes occur at the levels of DNA, histone, protein, and chromatin structures. Proper epigenetic modifications are essential for cell differentiation and function during development, while some epigenetic modifications are passed on from parents to offspring through gametes. Therefore, alterations of epigenetic states would have serious consequences for human development and health. This realization and the advent of new technologies have encouraged the advance of epigenetic studies in recent years. Nonetheless, many aspects of epigenetics, such as regulatory mechanisms and evolutional advantages, remain to be better understood.Written by 26 scientists at the forefront of epigenetics research, this book discusses the different facets of epigenetics: from gametogenesis to child development, as well as from mechanistic studies in animal models to reviews of human clinical data.
Our economic system is over-stimulated by the information age. Interconnection aids and abets companies earning trillions and their swift rise to global dominance. The 24-hour wired world has led to increased volatility; negative information, and even an accidental computer glitch can crash the market and create panic. Health, the environment, the welfare of society are pushed to the far edge of national interests. Instead, GDP and short-term monetary profit is prioritised over long-term impact on society and the environment. The world as we know it is set for collapse. Simultaneously, the science of evolution has itself evolved. In as much as “survival of the fittest” has been used to justify harsh, competition behaviour on the part of individuals and corporations, an updated understanding of evolution now tends to tell us a different story. What if written into the code of our DNA and RNA is a guide for telling us how to evolve morally and as a result improve our world and progress our epistemology? From such an understanding emerge new Spheres of Perception.
The explosion of the field of genetics over the last decade, with the new technologies that have stimulated research, suggests that a new sort of reference work is needed to keep pace with such a fast-moving and interdisciplinary field. Brenner's Encyclopedia of Genetics, Second Edition, Seven Volume Set, builds on the foundation of the first edition by addressing many of the key subfields of genetics that were just in their infancy when the first edition was published. The currency and accessibility of this foundational content will be unrivalled, making this work useful for scientists and non-scientists alike. Featuring relatively short entries on genetics topics written by experts in that topic, Brenner's Encyclopedia of Genetics, Second Edition, Seven Volume Set provides an effective way to quickly learn about any aspect of genetics, from Abortive Transduction to Zygotes. Adding to its utility, the work provides short entries that briefly define key terms, and a guide to additional reading and relevant websites for further study. Many of the entries include figures to explain difficult concepts. Key terms in related areas such as biochemistry, cell, and molecular biology are also included, and there are entries that describe historical figures in genetics, providing insights into their careers and discoveries. This 7-volume set represents a 25% expansion from the first edition, with over 1600 articles encompassing this burgeoning field Thoroughly up-to-date, with many new topics and subfields covered that were in their infancy or not inexistence at the time of the first edition. Timely coverage of emergent areas such as epigenetics, personalized genomic medicine, pharmacogenetics, and genetic enhancement technologies Interdisciplinary and global in its outlook, as befits the field of genetics Brief articles, written by experts in the field, which not only discuss, define, and explain key elements of the field, but also provide definition of key terms, suggestions for further reading, and biographical sketches of the key people in the history of genetics
In this insiders account of university science in America, Barbara Migeon focuses on how an influx of new technologies empowered scientists to make groundbreaking discoveries on the nature of hereditary diseases. She begins her story with an account of how she began her research career before delving into a broader discussion of what scientists do, what they must deal with, and the changing face of biomedical science over the last half century. This is a fascinating, insightful and thought-provoking book, beautifully written by an excellent scientist, a pioneering female in a strongly male-centric field. Her personal history of this remarkable era of biomedical science is a must read for anyone males, females, scientists and non-scientists curious about the process of scientific discovery and progress toward gender equity. Her account shows how science is shaped by deep commitment and insights, complex human interactions, and public policy. Barbara Sollner-Webb. Professor Emerita, Department of Biological Chemistry, The Johns Hopkins University I was captivated by Migeons ability to synthesize the personal, political, scientific, and academic strands of her life over the past half-century. To her credit, this historian speaks forthrightly; while her research clearly has been a source of deep joy, she also exposes the institutional problems (including sexism). Her inclusion of selected material from a personal journal she kept over the years is a welcome addition to a book that offers a fresh perspective to scientists as well as non-scientists, men as well as women. Evelyn Torton Beck, Professor Emerita, Womens Studies, University of Maryland
Most people look to religion and science (faith and reason) for an explanation of “everything that is,” but neither the scientific nor the religious system can actually provide all the answers to life's questions. Is that really what we're looking for? The author examines both science and religion in some detail and from a variety of standpoints. A life-long educator, he indicates many avenues for further reading, so that no one has to simply accept whatever his family or community traditions may have proposed. One sticking point in most discussions of religion vs. science is that few of us really have enough information about both positions - and the myriad hybrid beliefs in between - in order to make a proper evaluation. As a professor of medicine and an avid investigator of these questions, Dr. Guido Perez offers some background and guidance. The author explores the basics of theism and today's largest religions, and gives a solid grounding in the facts and theoretical basis for evolution and the scientific approach to knowledge. He then explores a possible place to stand in, both morally and intellectually grounded, while we puzzle out our existence: a rational belief system that accounts for what we can account for, while recognizing those mysteries and existential questions we humans just can't seem to stop asking. Dr. Perez proposes a rational belief system grounded in natural science and humanism, an approach where morality comes naturally - not because we fear divine punishment but because we inherently understand what is good for humanity.
Scores of talented and dedicated people serve the forensic science community, performing vitally important work. However, they are often constrained by lack of adequate resources, sound policies, and national support. It is clear that change and advancements, both systematic and scientific, are needed in a number of forensic science disciplines to ensure the reliability of work, establish enforceable standards, and promote best practices with consistent application. Strengthening Forensic Science in the United States: A Path Forward provides a detailed plan for addressing these needs and suggests the creation of a new government entity, the National Institute of Forensic Science, to establish and enforce standards within the forensic science community. The benefits of improving and regulating the forensic science disciplines are clear: assisting law enforcement officials, enhancing homeland security, and reducing the risk of wrongful conviction and exoneration. Strengthening Forensic Science in the United States gives a full account of what is needed to advance the forensic science disciplines, including upgrading of systems and organizational structures, better training, widespread adoption of uniform and enforceable best practices, and mandatory certification and accreditation programs. While this book provides an essential call-to-action for congress and policy makers, it also serves as a vital tool for law enforcement agencies, criminal prosecutors and attorneys, and forensic science educators.
Christiane Nusslein-Volhard, winner of The Nobel Prize in Medicine, gives a concise and illustrative overview of genetics, evolution, and cellular processes as well as a discussing of current ethical issues in human biology. Coming to Life is a remarkable journey through developmental biology that reveals miraculous processes in the microscopic world of cells. Through an accounting of groundbreaking discoveries, Christiane Nusslein-Volhard tells us many answers to historical and contemporary questions in science. For example, she brings us the newest knowledge about embryonic forms, explains the genetic mechanisms that influence adult development of all animals, and shares insights into the ethical standards society moist uphold in the face of new scientific discoveries. As the author leads us from laboratory research to its applications in human beings, we also come to understand why children look like their parents, how an embryonic cell knows to become an eye rather than an eyelash, and other incredible influences hat result in variety in life. Complete with her own hand-drawn illustrations, Coming to Life gives a rare opportunity to understand a Nobel Prize-winner's passion for science in concise, understandable language. 55 b/w illustrations.
A New York Times Notable Book of 2014 We are doomed to repeat history if we fail to learn from it, but how are we affected by the forces that are invisible to us? What role does Neanderthal DNA play in our genetic makeup? How did the theory of eugenics embraced by Nazi Germany first develop? How is trust passed down in Africa, and silence inherited in Tasmania? How are private companies like Ancestry.com uncovering, preserving and potentially editing the past? In The Invisible History of the Human Race, Christine Kenneally reveals that, remarkably, it is not only our biological history that is coded in our DNA, but also our social history. She breaks down myths of determinism and draws on cutting - edge research to explore how both historical artefacts and our DNA tell us where we have come from and where we may be going.