Memetics is the science of memes, the invisible but very real DNA of human society.

    These weren't simply variations on apes, but upright-walking humans who lived side by side, competing, cooperating, sometimes even mating with our direct ancestors. Why did the line of ancient humans who eventually evolved into us survive when the others were shown the evolutionary door? Chip Walter draws on new scientific discoveries to tell the fascinating tale of how our survival was linked to our ancestors being born more prematurely than others, having uniquely long and rich childhoods, evolving a new kind of mind that made us resourceful and emotionally complex; how our highly social nature increased our odds of survival; and why we became self aware in ways that no other animal seems to be. Last Ape Standing also profiles the mysterious "others" who evolved with us-the Neanderthals of Europe, the "Hobbits" of Indonesia, the Denisovans of Siberia and the just-discovered Red Deer Cave people of China who died off a mere eleven thousand years ago. Last Ape Standing is evocative science writing at its best-a witty, engaging and accessible story that explores the evolutionary events that molded us into the remarkably unique creatures we are; an investigation of why we do, feel, and think the things we do as a species, and as people-good and bad, ingenious and cunning, heroic and conflicted.

    If animals could talk, we would ask them to recall their own ancestries, in particular the secrets as to how they avoided almost inevitable annihilation in the face of daily assaults by predators, climactic cataclysms, deadly infections and innate diseases.In Tears of the Cheetah, medical geneticist and conservationist Stephen J. O'Brien narrates fast-moving science adventure stories that explore the mysteries of survival among the earth's most endangered and beloved wildlife. Here we uncover the secret histories of exotic species such as Indonesian orangutans, humpback whales, and the imperiled cheetah-the world's fastest animal which nonetheless cannot escape its own genetic weaknesses.Among these genetic detective stories we also discover how the Serengeti lions have lived with FIV (the feline version of HIV), where giant pandas really come from, how bold genetic action pulled the Florida panther from the edge of extinction, how the survivors of the medieval Black Death passed on a genetic gift to their descendents, and how mapping the genome of the domestic cat solved a murder case in Canada.With each riveting account of animal resilience and adaptation, a remarkable parallel in human medicine is drawn, adding yet another rationale for species conservation-mining their genomes for cures to our own fatal diseases. Tears of the Cheetah offers a fascinating glimpse of the insight gained when geneticists venutre into the wild.

    KEY TOPICS: A Preview of the Cell, The Chemistry of the Cell, The Macromolecules of the Cell, Cells and Organelles, Bioenergetics: The Flow of Energy in the Cell, Enzymes: The Catalysts of Life, Membranes: Their Structure, Function, and Chemistry, Transport Across Membranes: Overcoming the Permeability Barrier, Chemotrophic Energy Metabolism: Glycolysis and Fermentation, Chemotrophic Energy Metabolism: Aerobic Respiration, Phototrophic Energy Metabolism: Photosynthesis, The Endomembrane System and Peroxisomes, Signal Transduction Mechanisms: I. Electrical and Synaptic Signaling in Neurons, Signal Transduction Mechanisms: II. Messengers and Receptors, Cytoskeletal Systems, Cellular Movement: Motility and Contractility, Beyond the Cell: Cell Adhesion, Cell Junctions, and Extracellular Structures, The Structural Basis of Cellular Information: DNA, Chromosomes, and the Nucleus, The Cell Cycle, DNA Replication, and Mitosis, Sexual Reproduction, Meiosis, and Genetic Recombination, Gene Expression: I. The Genetic Code and Transcription, Gene Expression: II. Protein Synthesis and Sorting, The Regulation of Gene Expression, Cancer Cells, Principles and Techniques of Microscopy. MARKET: For all readers interested in molecular biology.

    The doctor from California is on the line. "Are you ready Amanda?" The two people Amanda Baxley loves the most had begged her not to be tested--at least, not now. But she had to find out.If your family carried a mutated gene that foretold a brutal illness and you were offered the chance to find out if you'd inherited it, would you do it? Would you walk toward the problem, bravely accepting whatever answer came your way? Or would you avoid the potential bad news as long as possible? In Mercies in Disguise, acclaimed New York Times science reporter and bestselling author Gina Kolata tells the story of the Baxleys, an almost archetypal family in a small town in South Carolina. A proud and determined clan, many of them doctors, they are struck one by one with an inscrutable illness. They finally discover the cause of the disease after a remarkable sequence of events that many saw as providential. Meanwhile, science, progressing for a half a century along a parallel track, had handed the Baxleys a resolution--not a cure, but a blood test that would reveal who had the gene for the disease and who did not. And science would offer another dilemma--fertility specialists had created a way to spare the children through an expensive process. A work of narrative nonfiction in the tradition of the The Immortal Life of Henrietta Lacks, Mercies in Disguise is the story of a family that took matters into its own hands when the medical world abandoned them. It's a story of a family that had to deal with unspeakable tragedy and yet did not allow it to tear them apart. And it is the story of a young woman--Amanda Baxley--who faced the future head on, determined to find a way to disrupt her family's destiny.

    In recent years, scientists like Kathryn Paige Harden have shown that DNA makes us different, in our personalities and in our health--and in ways that matter for educational and economic success in our current society.In The Genetic Lottery, Harden introduces readers to the latest genetic science, dismantling dangerous ideas about racial superiority and challenging us to grapple with what equality really means in a world where people are born different. Weaving together personal stories with scientific evidence, Harden shows why our refusal to recognize the power of DNA perpetuates the myth of meritocracy, and argues that we must acknowledge the role of genetic luck if we are ever to create a fair society.Reclaiming genetic science from the legacy of eugenics, this groundbreaking book offers a bold new vision of a society where everyone thrives, regardless of how one fares in the genetic lottery.

    Written by Blaine T. Bettinger, PhD, JD, and Debbie Parker Wayne, CG, CGL, the book provides family historians and genealogists who have just begun to explore genetic genealogy practical, easy to understand information that they can apply to their research. As Wayne notes in her blog, Deb’s "Delvings in Genealogy," “DNA can seem complex to many of us, but this book will guide you and help build your knowledge level one step at a time.” At their own pace, readers learn the basic concepts of genetic genealogy. They then build on that knowledge as they study the testing, analysis, and application of YDNA, X-DNA, mitochondrial DNA (mtDNA), and autosomal DNA (atDNA) to reach and support genealogical conclusions. Each chapter includes exercises with answer keys for hands-on practice. Blaine Bettinger is an intellectual property attorney in Syracuse, New York. The author of The Genetic Genealogist blog, he is a genealogy educator, a trustee of the New York Genealogical and Biographical Society, and organizer of the Shared cM Project, a crowdsourced project examining the associations between genetic data and genealogical relationships. Debbie Parker Wayne is a professional genealogist who has conducted research for individuals as well as for the PBS series “Finding Your Roots” with Henry Louis Gates Jr. and other television shows. She is an award-winning author, the coordinator for genetic genealogy institute courses, and the DNA Project Chair for the Texas State Genealogical Society.

    It is written in layman's terms, and explained in an interesting way.

    Stringer's new theory, based on archeological and genetic evidence, holds that distinct humans coexisted and competed across the African continent—exchanging genes, tools, and behavioral strategies.Stringer draws on analyses of old and new fossils from around the world, DNA studies of Neanderthals (using the full genome map) and other species, and recent archeological digs to unveil his new theory. He shows how the most sensational recent fossil findings fit with his model, and he questions previous concepts (including his own) of modernity and how it evolved.Lone Survivors will be the definitive account of who and what we were, and will change perceptions about our origins and about what it means to be human.

    The aim remains to provide a reference to the aspects of medical microbiology particularly important for clinical infections and chemotherapy. Geo. F. Brooks (U. of California, San Francisco), Jane

    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 Lords of the Harvest, 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, Lords of the Harvest is ultimately a story of idealism and of conflicting dreams about the shape of a better world.

    Literate and authoritative--.Marvelously exciting." --The New York Times Book ReviewJonathan Weiner, winner of the Pulitzer Prize for The Beak of the Finch, brings his brilliant reporting skills to the story of Seymour Benzer, the Brooklyn-born maverick scientist whose study of genetics and experiments with fruit fly genes has helped revolutionize or knowledge of the connections between DNA and behavior both animal and human.How much of our fate is decided before we are born?  Which of our characteristics is inscribed in our DNA? Weiner brings us into Benzer's Fly Rooms at the California Institute of Technology, where Benzer, and his asssociates are in the process of finding answers, often astonishing ones, to these questions. Part biography, part thrilling scientific detective story, Time, Love, Memory forcefully demonstrates how Benzer's studies are changing our world view--and even our lives.

    Book by Weinberg, Robert A.

    Back in the 1990s--working undercover with his colleagues in the environmental movement--he would descend on trial sites of genetically modified crops at night and hack them to pieces. Two decades later, most people around the world--from New York to China--still think that 'GMO' foods are bad for their health or likely to damage the environment. But Mark has changed his mind. This book explains why.In 2013, in a world-famous recantation speech, Mark apologised for having destroyed GM crops. He spent the subsequent years touring Africa and Asia, and working with plant scientists who are using this technology to help smallholder farmers in developing countries cope better with pests, diseases and droughts.This book lifts the lid on the anti-GMO craze and shows how science was left by the wayside as a wave of public hysteria swept the world. Mark takes us back to the origins of the technology and introduces the scientific pioneers who invented it. He explains what led him to question his earlier assumptions about GM food, and talks to both sides of this fractious debate to see what still motivates worldwide opposition today. In the process he asks--and answers--the killer question: how did we all get it so wrong on GMOs?

    Its job is to protect us from cancer. This gene--known simply as p53--constantly scans our cells to ensure that when they grow and divide as part of the routine maintenance of our bodies, they do so without mishap. If a cell makes a mistake in copying its DNA during the process of division, p53 stops it in its tracks, sending in the repair team before allowing the cell to carry on dividing. If the mistake is irreparable and the rogue cell threatens to grow out of control (as happens in cancer), p53 commands the cell to commit suicide. Cancer cannot develop unless p53 itself is damaged or handicapped by some other fault in the system. Not surprisingly, p53 is the most studied single gene in history. p53: The Gene that Cracked the Cancer Code tells the story of the discovery of the gene and of medical science's mission to unravel its mysteries and get to the heart of what happens in our cells when they turn cancerous. Through the personal accounts of key researchers, the book reveals the excitement of the hunt for new cures--the hype, the enthusiasm, the lost opportunities, the blind alleys and the thrilling breakthroughs. As the long-anticipated revolution in cancer treatment tailored to each individual patient's symptoms starts to take off at last, p53 is at the cutting edge. This is a timely tale of scientific discovery and advances in our understanding of a disease that still affects more than one in three of us at some point in our lives.