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This book brings together in one volume fifteen Nobel Prize-winning discoveries that have had the greatest impact upon medical science and the practice of medicine during the 20th century and up to the present time. Its overall aim is to enlighten, entertain and stimulate. This is especially so for those who are involved in or contemplating a career in medical research. Anyone interested in the particulars of a specific award or Laureate can obtain detailed information on the topic by accessing the Nobel Foundation''s website. In contrast, this book aims to provide a less formal and more personal view of the science and scientists involved, by having prominent academics write a chapter each about a Nobel Prize-winning discovery in their own areas of interest and expertise.
This book brings together in one volume fifteen discoveries that have had a major impact upon medical science and the practice of medicine but where the scientists involved have not been awarded a Nobel Prize. Its aim is to publicize the achievements of these lesser-known heroes of our time and thereby inform and entertain the reader, whether medical student, professor or scientifically-minded layman.
Attributing Excellence in Medicine discusses the aura around the prestigious Nobel Prize in Physiology or Medicine. It analyzes the social processes and contingent factors leading to recognition and reputation in science and medicine. This volume will help the reader to better understand the dynamics of the attribution of excellence throughout the 20th century. Contributors are Massimiano Bucchi, Fabio De Sio, Jacalyn Duffin, Heiner Fangerau, Thorsten Halling, Nils Hansson, David S. Jones, Gustav Källstrand, Ulrich Koppitz, Pauline Mattsson, Katarina Nordqvist, Scott H. Podolsky, Thomas Schlich, and Sven Widmalm.
Originally published in 1990, Nobel Laureates in Medicine or Physiology is a biographical reference work about the recipients of Nobel Prizes in Medicine or Physiology from 1901-1989. Each article is written by an accomplished historian of medicine or science. The book is designed to be accessible to students and general readers as well as to specialists in medical science and history. Each article combines personal and scientific biography, and each has an extensive biography to guide further reading and research.
In The Beginner's Guide to Winning the Nobel Prize, Doherty recounts his unlikely path to becoming a Nobel Laureate. Beginning with his humble origins in Australia, he tells how he developed an interest in immunology and describes his award-winning, influential work with Rolf Zinkernagel on T-cells and the nature of immune defense. In prose that is at turns amusing and astute, Doherty reveals how his nonconformist upbringing, sense of being an outsider, and search for different perspectives have shaped his life and work. Doherty offers a rare, insider's look at the realities of being a research scientist. He lucidly explains his own scientific work and how research projects are selected, funded, and organized; the major problems science is trying to solve; and the rewards and pitfalls of a career in scientific research. For Doherty, science still plays an important role in improving the world, and he argues that scientists need to do a better job of making their work more accessible to the public. Throughout the book, Doherty explores the stories of past Nobel winners and considers some of the crucial scientific debates of our time, including the safety of genetically modified foods and the tensions between science and religion. He concludes with some "tips" on how to win a Nobel Prize, including advice on being persistent, generous, and culturally aware, and he stresses the value of evidence. The Beginner's Guide to Winning the Noble Prize is essential reading for anyone interested in a career in science.
The Nobel Prizes m natural sciences have achieved the reputation of being the ultimate accolade for scientific achievements. This honk gives a unique insight into the selection of Nobel Prize recipients, in particular the life sciences. The evolving mechanisms of selection of prize recipients are illustrated by reference to archives, which have remained secret for 1) years. Many of the prizes subjected to particular evaluation concern awards given for discoveries in the field of infectious diseases and the interconnected field of genetics. The book illustrates the individuals and environments that are conducive to scientific creativity. Nowhere is this enigmatic activity'-- the mime mover in advancing the human condition highlighted as lucidly as by identification individuals worthy of Nobel Prizes. --Book Jacket.
The zebrafish has become one of the most important model organisms to study biological processes within a living body. As a vertebrate that has many of the strengths of invertebrate model systems, it offers numerous advantages to researchers interested in many aspects of embryonic development, physiology and disease. This book not only provides a complete set of instructions that will allow researchers to establish the zebrafish in their laboratory. It also gives a broad overview of commonly used methods and a comprehensive collection of protocols describing the most powerful techniques.
In this Brief, Joe Jeffers uncovers the life and works of two-time Nobel Laureate Frederick Sanger. Following Sanger’s early life to retirement, Jeffers describes how this celebrated British biochemist became the first person to determine the amino acid sequence of a protein for which he was awarded the Nobel Prize in 1958. Highlighting Sanger’s remarkable career, Jeffers describes Sanger’s later change in research direction to investigate deoxyribonucleic acids (DNA), work for which Sanger also received the Nobel Prize jointly with Paul Berg and Walter Gilbert in 1980. Joe Jeffers conducted twelve interviews with Sanger over the period of 1999-2009 and he has also spoken to more than 40 of Sanger’s colleagues and family members. This brief provides a rigorous yet concise view of Sanger on a personal and scientific level and is suitable for biochemists, historians or the interested layperson.
The ability of cells to sense and respond to changes in oxygenation underlies a multitude of developmental, physiological, and pathological processes. This volume provides a comprehensive compendium of experimental approaches to the study of oxygen sensing in 48 chapters that are written by leaders in their fields.
We are swamped with information and each day seems to bring new discoveries that must be considered. Never before in the history of science have so many scientists been as active as today. It has become a major problem for the expert just to keep up with the literature in his or her own field of research. Why, then, should experts and their poor students worry about the pioneers of microbiology, those half-forgotten scientists who a century ago devoted their lives to a new science that was on its way to revolutionizing medicine?With so many new facts and problems screaming for our attention, it is easy to lose sight of the long road that we have travelled in order to get to the point where we are now. Tracing the path of those who have gone before us will help us to see our own scientific goals and efforts in a more revealing perspective.The great figures who are at the center of interest in this book — Robert Koch, Emil von Behring, Paul Ehrlich and Elie Metchnikoff — were far from uncontroversial during their lifetimes. It is interesting to see how they were judged by their peers at the Karolinska Institutet when they were considered for the Nobel Prize.Pioneers of Microbiology and the Nobel Prize has been written in such a way that it can be enjoyed even without an extensive knowledge of microbiology and medicine. In fact, a considerable part of the book portrays the state of medicine during the middle of the 19th century, when bacteriology can be said to have made its debut on the medical scene.