Are you a human? Do you have a mind? Then this book is for you.

Nothing is more familiar and yet less understood than the human mind. It defines the experience of being human, and yet its workings contain some of the deepest mysteries ever encountered. Written by one of the world's greatest teachers of psychology, The Human Mind provides a masterful and riveting guide to all that we have learned since modern science began probing those mysteries.

How does a three-pound lump of grey-ish meat give rise to conscious experience? What is the function of emotions such as disgust, gratitude and shame? How do our biases affect us and how can we overcome them? How does the mind of a child differ from that of an adult? How does memory work? What causes mental illness? Are we rational? Are we all a little bit racist? What makes us kind? What makes us cruel? What makes us happy?

Many of these questions now have answers; many others don't yet; many widely accepted theories are probably wrong. This book takes us to the very limits of what is known. It shines new light on all that you take most for granted: everything you think and feel, everything you say and do, everything that makes you you.

With Genetics: A Conceptual Approach, Ben Pierce brings a master teacher's experiences to the introductory genetics textbook, clarifying this complex subject by focusing on the big picture of genetics concepts and how those concepts connect to one another. The 7th edition continues this mission by expanding upon the powerful pedagogy and tools that have made this title so successful. New question types, more learning guidelines for students, and an updated art program round out a powerful text, and improvements to the online resources in SaplingPlus give students the conceptual and problem solving understanding they need for success.

The 12th edition of Introduction to Genetic Analysis takes this cornerstone textbook to the next level. The hallmark focus on genetic analysis, quantitative problem solving, and experimentation continues in this new edition. The 12th edition also introduces SaplingPlus, the best online resource to teach students the problem solving skills they need to succeed in genetics. SaplingPlus combines Sapling's acclaimed automatically graded online homework with an extensive suite of engaging multimedia learning resources.

Genomics, the mapping of the entire genetic complement of an organism, is the new frontier in biology. This handbook on the statistical issues of genomics covers current methods and the tried-and-true classical approaches.

Incorporating the most important advances in the fast-growing field of cancer biology, the text maintains all of its hallmark features. It is admired by students, instructors, researchers and clinicians around the world for its clear writing, extensive full-colour art programme and numerous pedagogical features.

Armed with extraordinary new discoveries about our genes, acclaimed science writer Matt Ridley turns his attention to the nature-versus-nurture debate in a thoughtful book about the roots of human behavior.

Ridley recounts the hundred years' war between the partisans of nature and nurture to explain how this paradoxical creature, the human being, can be simultaneously free-willed and motivated by instinct and culture. With the decoding of the human genome, we now know that genes not only predetermine the broad structure of the brain, they also absorb formative experiences, react to social cues, and even run memory. They are consequences as well as causes of the will.

When famine struck Africa in 2002, several nations refused shipments of genetically modified foods, fueling a controversy that put the issue on the world's political agenda for good. In this thought-provoking exploration, esteemed molecular biologist Dr. Lisa H. Weasel brings readers into the center of this debate, capturing the real-life experiences of the scientists, farmers, policymakers, and grassroots activists on the front lines. Combining solid scientific knowledge and a gripping narrative to tell the real story behind the headlines and the hype, Food Fray approaches the topic of genetically-modified foods from an intimate, insider perspective so readers can draw their own conclusions about the validity of the opposing arguments and the safety of consuming these foods in their homes. Since the beginning, Americans have openly embraced the new genetically modified foods filling their grocery shelves while Europeans have remained much warier of these "Frankenfoods." Seminal and cutting-edge, Food Fray enlightens and informs readers with "food for thought" about one of the most important issues facing us today.

With Genetics Essentials: Concepts and Connections, Ben Pierce presents an approachable genetics text that focuses on major genetic concepts and how they connect, giving students a foothold in a complex subject. Similar in approach to Ben Pierce's popular and acclaimed Genetics: A Conceptual Approach, this streamlined text covers basic transmission, molecular, and population genetics in just 18 chapters, helping students uncover major concepts of genetics and make connections among those concepts as a way of gaining a richer understanding of the essentials of genetics. The new edition of Genetics Essentials is now supported in Achieve, Macmillan's new online learning platform. The new 5th edition continues this mission by expanding upon the powerful pedagogy and tools that have made this title so successful. New question types, more learning guidelines for students, and an updated art program round out a powerful text, and improvements to the online resources in our newest platform, Achieve, give students the conceptual and problem solving understanding they need for success. Achieve is Macmillan's new online learning platform that supports educators and students throughout the full range of instruction, including assets suitable for pre-class preparation, in-class active learning, and post-class study and assessment. The pairing of a powerful new platform with outstanding biology content provides an unrivaled learning experience.

Acclaimed author Matt Ridley's thrilling follow-up to his bestseller `Genome'. Armed with the extraordinary new discoveries about our genes, Ridley turns his attention to the nature versus nurture debate to bring the first popular account of the roots of human behaviour. What makes us who we are? In February 2001 it was announced that the genome contains not 100,000 genes as originally expected but only 30,000. This startling revision led some scientists to conclude that there are simply not enough human genes to account for all the different ways people behave: we must be made by nurture, not nature. Yet again biology was to be stretched on the Procrustean bed of the nature-nurture debate. Acclaimed science writer Matt Ridley argues that the emerging truth is far more interesting than this myth. Nurture depends on genes, too, and genes need nurture. Genes not only predetermine the broad structure of the brain; they also absorb formative experiences, react to social cues and even run memory. They are consequences as well as causes of the will. Published fifty years after the discovery of the double helix of DNA, `Nature via Nurture' chronicles a new revolution in our understanding of genes. Ridley recounts the hundred years' war between the partisans of nature and nurture to explain how this paradoxical creature, the human being, can be simultaneously free-willed and motivated by instinct and culture. `Nature via Nurture' is an enthralling, up-to-the-minute account of how genes build brains to absorb experience.

Genetics: Analysis and Principles is a one-semester, introductory genetics textbook that takes an experimental approach to understanding genetics. By weaving one or two experiments into the narrative of each chapter, students can simultaneously explore the scientific method and understand the genetic principles that have been learned from these experiments. The pedagogy of Genetics: Analysis & Principles has been designed to foster student learning. Instead of being a collection of facts and figures,this text is intended to be an engaging and motivating textbook in which formative assessment allows students to move ahead and learn the material in a productive way.

How did an obscure academic idea pave the way to the Holocaust within just fifty years? Why does eugenics still loom large in the 21st century, despite its genocidal past? Did eugenics work? Could it work? Or was it always a pseudoscientific fantasy? Throughout history, people have sought to reduce suffering, eliminate disease and enhance desirable qualities in their children. In the Victorian era eugenics, a full-blooded attempt to impose control over unruly biology, began to grow among the powerful and quickly spread to dozens of countries around the world. But these ideas are not merely historical: today, with new gene editing techniques, conversations are happening about tinkering with the DNA of our unborn children to make them smarter, fitter, stronger. Deeply steeped in contemporary genetics, CONTROL offers a vital account of one of the defining - and most destructive - ideas of the twentieth century.

Genetic science is about to radically alter our lives. Sooner than you can imagine, human beings will be capable of diagnosing their own illnesses, designating the sex of their children, even designing the food they eat -- all as easily as using a cell phone. Now is the time for every one of us to take control of our DNA, and one man is uniquely qualified to show us how: Glenn McGee, bioethicist at the University of Pennsylvania, pioneer in the study of "home genetics," and the acknowledged wunderkind of the exciting world found at the nexus of life science and computer technology.

One of the most respected authorities in the field of genomics -- the study of the genetic "software" inside plants, animals, and us -- McGee takes us on an eye-opening journey behind the headlines and into the heart of this formidable cutting-edge science. Probing the far-ranging ethical and legal implications of genomic research, McGee tackles its most controversial and hotly debated aspects -- from patenting your DNA to genetic engineering at the supermarket -- and explodes unnecessary fears about this wondrous new knowledge.

We live in a brave new world. Beyond Genetics provides us with the knowledge we need to take the right steps forward into tomorrow ... and beyond.

A TIMES ENVIRONMENT AND SCIENCE BOOK OF THE YEAR 2022 'The ideal guide to what is not just a fiendishly complex area of science but also an ethical minefield' Mail on Sunday A new gene editing technology, invented just seven years ago, has turned humanity into gods. Enabling us to manipulate the genes in virtually any organism with exquisite precision, CRISPR has given scientists a degree of control that was undreamt of even in science fiction. But CRISPR is just the latest, giant leap in a long journey to master genetics. The Genetic Age shows the astonishing, world-changing potential of the new genetics and the possible threats it poses, sifting between fantasy and the reality when it comes to both benefits and dangers. By placing each phase of discovery, anticipation and fear in the context of over fifty years of attempts to master the natural world, Matthew Cobb, the Baillie-Gifford-shortlisted author of The Idea of the Brain, weaves the stories of science, history and culture to shed new light on our future. With the powers now at our disposal, it is a future that is almost impossible to imagine - but it is one we will create ourselves.

- The book discusses the recent techniques in NGS data analysis which is the most needed material by biologists (students and researchers) in the wake of numerous genomic projects and the trend toward genomic research. - The book includes both theory and practice for the NGS data analysis. So, readers will understand the concept and learn how to do the analysis using the most recent programs. - The steps of application workflows are written in a manner that can be followed for related projects. - Each chapter includes worked examples with real data available on the NCBI databases. Programming codes and outputs are accompanied with explanation. - The book content is suitable as teaching material for biology and bioinformatics students. Meets the requirements of a complete semester course on Sequencing Data Analysis Covers the latest applications for Next Generation Sequencing Covers data reprocessing, genome assembly, variant discovery, gene profiling, epigenetics, and metagenomics

What are genes? What do genes do? These questions are not simple and straightforward to answer; at the same time, simplistic answers are quite prevalent and are taken for granted. This book aims to explain the origin of the gene concept, its various meanings both within and outside science, as well as to debunk the intuitive view of the existence of 'genes for' characteristics and disease. Drawing on contemporary research in genetics and genomics, as well as on ideas from history of science, philosophy of science, psychology and science education, it explains what genes are and what they can and cannot do. By presenting complex concepts and research in a comprehensible and rigorous manner, it examines the potential impact of research in genetics and genomics and how important genes actually are for our lives. Understanding Genes is an accessible and engaging introduction to genes for any interested reader.

Are you a human? Do you have a mind? Then this book is for you. 'The story of the human mind as told by psychology's best storyteller' DANIEL GILBERT Nothing is more familiar and yet less understood than the human mind. It defines the experience of being human, and yet its workings contain some of the deepest mysteries ever encountered. Written by one of the world's greatest teachers of psychology, The Human Mind provides a masterful and riveting guide to all that we have learned since modern science began probing those mysteries. How does a three-pound lump of grey-ish meat give rise to conscious experience? What is the function of emotions such as disgust, gratitude and shame? How do our biases affect us and how can we overcome them? How does the mind of a child differ from that of an adult? How does memory work? What causes mental illness? Are we rational? Are we all a little bit racist? What makes us kind? What makes us cruel? What makes us happy? Many of these questions now have answers; many others don't yet; many widely accepted theories are probably wrong. This book takes us to the very limits of what is known. It shines new light on all that you take most for granted: everything you think and feel, everything you say and do, everything that makes you you. 'An extraordinary book that absolutely delivers on its sweeping ambitions ... like having the mind's complexities untangled by a witty, eloquent and deeply knowledgeable friend' OLIVER BURKEMAN

In this paradigm-shifting book from acclaimed Harvard Medical School doctor and one of TIME magazine's 100 most influential people on earth, Dr. David Sinclair reveals that everything we think we know about ageing is wrong, and shares the surprising, scientifically-proven methods that can help readers live younger, longer. For decades, the medical community has looked to a variety of reasons for why we age, and the consensus is that no one dies of old age; they die of age-related diseases. That's because ageing is not a disease - it is inevitable. But what if everything you think you know about ageing is wrong? What if ageing is a disease? And that disease is curable. In LIFESPAN, Dr. David Sinclair, one of the world's foremost authorities on genetics and ageing, argues just that. He has dedicated his life's work to chasing more than a longer lifespan - he wants to enable people to live longer, healthier, and disease-free well into our hundreds. In this book, he reveals a bold new theory of ageing, one that pinpoints a root cause of ageing that lies in an ancient genetic survival circuit. This genetic trick - a circuit designed to halt reproduction in order to repair damage to the genome -has enabled earth's early microcosms to survive and evolve into more advanced organisms. But this same survival circuit is the reason we age: as genetic damage accumulates over our lifespans from UV rays, environmental toxins, and unhealthy diets, our genome is overwhelmed, causing gray hair, wrinkles, achy joints, heart issues, dementia, and, ultimately, death. But genes aren't our destiny; we have more control over them than we've been taught to believe. We can't change our DNA, but we can harness the power of the epigenome to realise the true potential of our genes. Drawing on his cutting-edge findings at the forefront of medical research, Dr. Sinclair will provide a scientifically-proven roadmap to reverse the genetic clock by activating our vitality genes, so we can live younger longer. Readers will discover how a few simple lifestyle changes - like intermittent fasting, avoiding too much animal protein, limiting sugar, avoiding x-rays, exercising with the right intensity, and even trying cold therapy - can activate our vitality genes. Dr. Sinclair ends the book with a look to the near future, exploring what the world might look like - and what will need to change - when we are all living well to 120 or more. Dr. Sinclair takes what we have long accepted as the limits of human potential and mortality and turns them into choices. THE EVOLUTION OF AGEING is destined to be the biggest book on genes, biology, and longevity of this decade.

This book constitutes a fascinating and in-depth analysis of the significance of the requirement of industrial application within gene patenting and how this influences innovation in Europe and the US. The author addresses an area normally overlooked in biotechnology patenting due to the predominance of the ethical debate and, in doing so, produces a unique approach to dealing with concerns in this field. Patenting Genes: The Requirement of Industrial Application is the result of extensive research into the legal history of the industrial application requirement as well as exploration of the broad range of decisions on DNA patentability. This requirement has taken a prominent role within DNA patenting decisions in Europe since the 1998 Biotech Directive, which Dr Diaz Pozo argues has worked efficiently to control claims to human gene sequences and encouraged progress in genetic research. A broad selection of decisions on the patentability of DNA in both European Union and US courts is discussed, emphasizing the mirroring of the European approach in US cases. Academics and students of patent law and biotechnology innovation, as well as policy formulators, will find this book of great interest and value. Activists and practitioners interested in the patentability of human gene inventions in Europe and the US will also benefit from this original work.

The evolution of a classic The new 12th edition of Introduction to Genetic Analysis takes this cornerstone textbook to the next level. The hallmark focuses on genetic analysis, quantitative problem solving, and experimentation continue in this new edition while incorporating robust updates to the science. Introduction to Genetic Analysis is now supported in Achieve, Macmillan's new online learning platform. Achieve is the culmination of years of development work put toward creating the most powerful online learning tool for biology students. It houses all of our renowned assessments, multimedia assets, e-books, and instructor resources in a powerful new platform.

This first title on the topic provides complete coverage, including the molecular basis, production and possible biomedical applications. Written by the most prominent academic researchers in the field as well as by researchers at one of the world's leading companies in industrial production of minicircle DNA, this practical book is aimed at everyone who is directly or indirectly involved in the development of gene therapies.

Twin Research: Biology, Health, Epigenetics, and Psychology is a comprehensive, applied resource in twinning and twin studies that is grounded in the most impactful findings from twin research in recent years. While targeted to undergraduate and graduate students, this compendium will prove a valuable resource for scholars already familiar with twin studies, as well as those coming to the field for the first time. Here, more than forty experts across an array of disciplines examine twinning and twin research methodologies from the perspectives of biology, medicine, genetic and epigenetic influences, and neuroscience. Chapters provide clear instruction in both basic and advanced research methods, family and parenting aspects of twinning, twin studies as applied across various disease areas and medical specialties, genetic and epigenetic determinants of differentiation, and academic, neurological and cognitive development. The presentation of existing studies and methods instruction empowers students and researchers to apply twin-based research and advance new studies across a range of biomedical and behavioral fields, highlighting current research trends and future directions.

First published in 1957, this essential classic work bridged the gap between analytical and theoretical biology, thus setting the insights of the former in a context which more sensitively reflects the ambiguities surrounding many of its core concepts and objectives. Specifically, these five essays are concerned with some of the major problems of classical biology: the precise character of biological organisation, the processes which generate it, and the specifics of evolution. With regard to these issues, some thinkers suggest that biological organisms are not merely distinguishable from inanimate 'things' in terms of complexity, but are in fact radically different qualitatively: they exemplify some constitutive principle which is not elsewhere manifested. It is the desire to bring such ideas into conformity with our understanding of analytical biology which unifies these essays. They explore the contours of a conceptual framework sufficiently wide to embrace all aspects of living systems.