The story describes two biotechnology companies, one ethical, the other not: Peter Melville, a scientist at GeneGACT, has good reason to hope for a cure for Huntington’s disease. Hank Wubbernacker, the CEO at Suckett Ansee, is attempting to create human immortality. When Peter finds out, he plans to sabotage the research project by breaking into Suckett Ansee’s laboratories. Peter also has domestic dramas: his wife, Jane, has been sexually molested by a work colleague but there is no redress due to a lack of evidence. However, the molester has reckoned without Peter’s cat, Psycho! Does Jane get her revenge? Does Peter save the planet from human immortality? Read on . . .
The New York Times bestselling book coauthored by the Nobel Prize winner who discovered telomerase and telomeres' role in the aging process and the health psychologist who has done original research into how specific lifestyle and psychological habits can protect telomeres, slowing disease and improving life. Have you wondered why some sixty-year-olds look and feel like forty-year-olds and why some forty-year-olds look and feel like sixty-year-olds? While many factors contribute to aging and illness, Dr. Elizabeth Blackburn discovered a biological indicator called telomerase, the enzyme that replenishes telomeres, which protect our genetic heritage. Dr. Blackburn and Dr. Elissa Epel's research shows that the length and health of one's telomeres are a biological underpinning of the long-hypothesized mind-body connection. They and other scientists have found that changes we can make to our daily habits can protect our telomeres and increase our health spans (the number of years we remain healthy, active, and disease-free). The Telemere Effect reveals how Blackburn and Epel's findings, together with research from colleagues around the world, cumulatively show that sleep quality, exercise, aspects of diet, and even certain chemicals profoundly affect our telomeres, and that chronic stress, negative thoughts, strained relationships, and even the wrong neighborhoods can eat away at them. Drawing from this scientific body of knowledge, they share lists of foods and suggest amounts and types of exercise that are healthy for our telomeres, mind tricks you can use to protect yourself from stress, and information about how to protect your children against developing shorter telomeres, from pregnancy through adolescence. And they describe how we can improve our health spans at the community level, with neighborhoods characterized by trust, green spaces, and safe streets. The Telemere Effect will make you reassess how you live your life on a day-to-day basis. It is the first book to explain how we age at a cellular level and how we can make simple changes to keep our chromosomes and cells healthy, allowing us to stay disease-free longer and live more vital and meaningful lives.
Telomeres and Telomerase Chairman: Sydney Brenner, 1997 Telomeres are the protective genetic elements located at the ends of chromosomes and are essential for correct chromosomal structure and function. They are not fully replicated by the conventional DNA polymerase system because DNA synthesis occurs only in the 5' to 3' direction and requires an RNA primer for initiation. Consequently, cells require a special enzyme to maintain the telomeric ends of chromosomes during each round of replication. This enzyme, telomerase, is a ribonucleoprotein that extends chromosome ends by adding short stretches of nucleotide repeats using a portion of its integral RNA component as the template. Recently, much excitement has been generated by the suggestion that telomerase, or rather the absence of telomerase and the resultant loss of terminal DNA, is a cause of human ageing. The evidence for this is twofold: the telomeres of certain cells in culture shorten during their lifespan; and immortalization of cells is associated, at least in some cases, with the maintenance of telomeres and telomerase activity. The latter observation prompted the analysis of clinical samples from patients with cancer and the demonstration that, in contrast to normal somatic cells, malignant cells possess telomerase activity. This is a unique book. Not only does it contain the latest experimental results from an international group of experts, but it also includes critical examinations of the current evidence, and discussions that attempt to identify the central and underlying concepts of this rapidly expanding field.
Why looking up matters A positive attitude is important, but until now we didn’t know how important. In Up, a practicing physician and NIH-funded researcher draws on her research and experience to show that our outlook on life— our unique patterns of thinking and feeling about ourselves, others, and the world—may be the key to how well and how fast we age. From wrinkles to cognitive decline, our outlook affects our health at every level. Using the framework of outlook GPS, Up illustrates how we can gauge our current attitude latitude and move to healthier ground. Tindle brings a fresh eye to attitudinal traits such as optimism, noting that it has many faces, including the face of her own struggling optimism. Using the 7 Steps of Attitudinal Change that she applies to her own patients, Tindle offers us a path toward healthy aging. Prescriptive and accessible, Up puts forward a paradigm shift in how we age and treat disease, giving even the most struggling optimists a chance for hope. It will appeal to readers of The Longevity Project by Howard S. Friedman and Leslie R. Martin as well as The Blue Zones by Dan Buettner.
The story of molecular biologist Elizabeth Blackburn and her groundbreaking research on telomeres and what it reveals about the resourceful opportunism that characterizes the best scientific thinking. Molecular biologist Elizabeth Blackburn—one of Time magazine's 100 “Most Influential People in the World” in 2007—made headlines in 2004 when she was dismissed from the President's Council on Bioethics after objecting to the council's call for a moratorium on stem cell research and protesting the suppression of relevant scientific evidence in its final report. But it is Blackburn's groundbreaking work on telomeric DNA, which launched the field of telomere research, that will have the more profound and long-lasting effect on science and society. In this compelling biography, Catherine Brady tells the story of Elizabeth Blackburn's life and work and the emergence of a new field of scientific research on the specialized ends of chromosomes and the enzyme, telomerase, that extends them. In the early stages of telomere research, telomerase, heralded as a potential cure for cancer and diseases related to aging, attracted the voracious interest of biotech companies. The surrounding hype succeeded in confusing the role of telemorase in extending the life of a cell with a mechanism that might extend the lifespan of an entire organism. In Brady's hands, Blackburn's story reveals much about the tension between pure and applied science, the politicking that makes research science such a competitive field, and the resourceful opportunism that characterizes the best scientific thinking. Brady describes the science accessibly and compellingly. She explores Blackburn's struggle to break down barriers in an elite, male-dominated profession, her role as a mentor to other women scientists (many of whom have made their mark in telomere research), and the collaborative nature of scientific work. This book gives us a vivid portrait of an exceptional woman and a new understanding of the combination of curiosity, imaginative speculation, and aesthetic delight that powers scientific discovery.
We all aspire to live a long and healthy life and know that staying active is critical to achieving this goal. Usually, we think that we physically peak at around the age of 20. That is what most physical trainers, athletes but mainly the media are going to tell you and they are not wrong. It is just what they are used to seeing. Most gymnasts or Olympic athletes that we see usually reach their prime in their late teens or early twenties. Taking Usain Bolt as an example; he had been earning gold medals in several world championships ever since he was 15 but it was in the 2008 Beijing Olympics that he lit up the world stage when he broke the world record for the 100-meter sprint. Since then he has progressed on to break his own record and earn consecutive gold medals in the 2012 and 2016 Olympics, up until he was 30, after which he retired.
Reverse the effects of aging and maintain optimal health for life through the revolutionary 6 Keys program by New York Times bestselling author Jillian Michaels. With Master Your Metabolism, Jillian Michaels showed us how to take control of the metabolic machinery underneath our weight and health struggles. Now she's ahead of the curve again -- conquering the mayhem, myths, and misunderstandings associated with aging. After all, if you can decide your weight, why not your age? Scientists and doctors have identified six major age inciters: metabolism, damaged macromolecules, epigenetics, inflammation, stress adaptation, telomeres. The 6 Keys presents an ageless health, fitness, and beauty plan that addresses all six of them -- and gets them working for you instead of against you. Empowering and rigorously researched, The 6 Keys outlines powerful lifestyle interventions, dietary guidelines, exercise plans, and vanguard strategies for cultivating mindfulness that restore and protect human performance, keeping you fit, healthy, and beautiful for life.
“A fascinating look at how scientists are working to help doctors treat the aging process itself, helping us all to lead longer, healthier lives.” —Sanjay Gupta, MD Aging—not cancer, not heart disease—is the underlying cause of most human death and suffering. The same cascade of biological changes that renders us wrinkled and gray also opens the door to dementia and disease. We work furiously to conquer each individual disease, but we never think to ask: Is aging itself necessary? Nature tells us it is not: there are tortoises and salamanders who are spry into old age and whose risk of dying is the same no matter how old they are, a phenomenon known as “biological immortality.” In Ageless, Andrew Steelecharts the astounding progress science has made in recent years to secure the same for humans: to help us become old without getting frail, to live longer without ill health or disease.
Aging, despite its dismal reputation, is actually one of the great mysteries of the universe. Why don't we just reproduce, then exit fast, like salmon? Could aging just be one big evolutionary accident? Is senescence, the gradual falling apart of our bodies, at least partially avoidable? Can we extend the healthy lifespan and reduce the lingering, debilitating effects of senescence? In this book, investigative health journalist Judy Foreman suggests that we actually can, and the key element is exercise, through its myriad effects on dozens of molecules in the brain, the muscles, and other organs. It's no secret, of course, that exercise is good for you and that exercise can extend longevity. What Foreman uncovers through extensive research into evolutionary biology, exercise physiology, and the new field of geroscience is exactly why exercise is so powerful - the mechanisms now being discovered that account for the vast and varied effects of exercise all over the body. Though Foreman also delves into pills designed to combat aging and so-called exercise "mimetics," or pills that purport to produce the effects of exercise without the sweat, her resounding conclusion is that exercise itself is by far the most effective, and safest, strategy for promoting a long, healthy life. In addition to providing a fascinating look at the science of exercise's effects on the body, Foreman also provides answers to the most commonly asked practical questions about exercise.
Seven million people die from cancer each year around the world, and many more are impacted by this universal scourge. In Betrayed by Nature, research scientist and lecturer Robin Hesketh demystifies the nature of cancer. Hesketh provides a concise and comprehensive history of both the science and the medical advances made over the decades. He takes the reader on a riveting tour of human biology; he explains how cancers start, what is meant by ‘a mutation', and how mutations can make cells grow abnormally and spread around our bodies. Drawing on the latest discoveries from the Human Genome Project, Hesketh reveals the strides being made in understanding this malevolent disease and makes accessible the science of today's treatments. Betrayed by Nature looks forward to the day when many cancers can be treated readily and effectively. With cancer afflicting one in three people worldwide, this is an illuminating and optimistic look at the past, present, and future of cancer.