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"This is a book about the conceptual language of genetics. There is a need for special words and terms to deal with some of the essential abstractions in genetics; these are the focus of this book. It is intended to help readers with diverse interests and experience to think about genetic analysis in a more sophisticated and creative way."--Publisher information.
Genes have a huge impact on who we are, from defining us as humans, to governing how we behave. Whether controlling our cells or creating new forms of life, discover how DNA makes each of us unique. In The Secret Life of Genes, you'll learn all about the past, present and future of the human genome. Filled with colourful, graphic illustrations to help you to understand the world of genetics, from the basics to the most complex theories, this book brings the inner workings of the human body to life. Derek Harvey answers the biggest questions, from the nature of inheritance, evolution and reproduction, to how genes are arranged and how DNA is read. Take a trip through the history of the world's DNA and unlock the future of the field.
Working from the intriguing hypothesis that Alzheimer's dementia is the result of a renegade protein-beta amyloid-Tanzi and others set out to find the gene responsible for its production. Decoding Darkness takes us deep into the minds and far-flung labs of many a prominent researcher, offering an intimate view of the high stakes of molecular genetics, the revolution that propels it, the obstacles that threaten to derail it, and the families whose lives are so dependent upon it. Tanzi and Parson ultimately reveal that Alzheimer's, like heart disease, may be effectively treated-even prevented.
Uses nontechnical language to introduce the basic concepts of genetic science and genetic technology, covering such topics as the mechanics of cloning, Mendelian traits in humans, gene regulation, and the use of bacteria as protein factories.
The Meanings of the Gene is a compelling look at societal hopes and fears about genetics in the course of the twentieth century. The work of scientists and doctors in advancing genetic research and its applications has been accompanied by plenty of discussion in the popular press—from Good Housekeeping and Forbes to Ms. and the Congressional Record—about such topics as eugenics, sterilization, DNA, genetic counseling, and sex selection. By demonstrating the role of rhetoric and ideology in public discussions about genetics, Condit raises the controversial question, Who shapes decisions about genetic research and its consequences for humans—scientists, or the public? Analyzing hundreds of stories from American magazines—and, later, television news—from the 1910s to the 1990s, Condit identifies three central and enduring public worries about genetics: that genes are deterministic arbiters of human fate; that genetics research can be used for discriminatory ends; and that advances in genetics encourage perfectionistic thinking about our children. Other key public concerns that Condit highlights are the complexity of genetic decision-making and potential for invasion of privacy; conflict over the human genetic code and experimentation with DNA; and family genetics and reproductive decisions. Her analysis reveals a persistent debate in the popular media between themes of genetic determinism (such as eugenics) and more egalitarian views that place genes within the complexity of biological and social life. The Meanings of the Gene offers an insightful view of our continuing efforts to grapple with our biological natures and to define what it means, and will mean in the future, to be human.
G is for Genes shows how a dialogue between geneticists and educationalists can have beneficial results for the education of all children—and can also benefit schools, teachers, and society at large. Draws on behavioral genetic research from around the world, including the UK-based Twins’ Early Development Study (TEDS), one of the largest twin studies in the world Offers a unique viewpoint by bringing together genetics and education, disciplines with a historically difficult relationship Shows that genetic influence is not the same as genetic determinism and that the environment matters at least as much as genes Designed to spark a public debate about what naturally-occurring individual differences mean for education and equality
Dr Francis S. Collins, head of the Human Genome Project, is one of the world's leading scientists, working at the cutting edge of the study of DNA, the code of life. Yet he is also a man of unshakable faith in God. How does he reconcile the seemingly unreconcilable? In THE LANGUAGE OF GOD he explains his own journey from atheism to faith, and then takes the reader on a stunning tour of modern science to show that physics, chemistry and biology -- indeed, reason itself -- are not incompatible with belief. His book is essential reading for anyone who wonders about the deepest questions of all: why are we here? How did we get here? And what does life mean?
Internationally acclaimed science writer Lone Frank swabs up her DNA to provide the first truly intimate account of the new science of consumer-led genomics. She challenges the business mavericks intent on mapping every baby's genome, ponders the consequences of biological fortune-telling, and prods the psychologists who hope to uncover just how much or how little our environment will matter in the new genetic century - a quest made all the more gripping as Frank considers her family's and her own struggles with depression.
This new third edition updates a best-selling encyclopedia. It includes about 56% more words than the 1,392-page second edition of 2003. The number of illustrations increased to almost 2,000 and their quality has improved by design and four colors. It includes approximately 1,800 current databases and web servers. This encyclopedia covers the basics and the latest in genomics, proteomics, genetic engineering, small RNAs, transcription factories, chromosome territories, stem cells, genetic networks, epigenetics, prions, hereditary diseases, and patents. Similar integrated information is not available in textbooks or on the Internet.