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The history of molecular biology in Germany is closely linked to the Institute of Genetics in Cologne, the first molecular biological Institute at a German university. Founded in 1959 by the émigré physicist and future Nobel laureate Max Delbrück, the Institute was the first in Germany to implement less hierarchical American organizational structures and research habits. The Institute had already gained an excellent international scientific reputation by the beginning of the 1960s.This volume comprises the recollections of scientists pertaining to the Institute's research, organization and other specificities. Articles by historians of science analyze the historical background and international framework of the Institute's foundations and genetic research. In addition, the scientists discuss contemporary questions of science policy with regard to teaching and the impact of the internal structures of scientific institutions on the quality of research.
Despite its historical impact on the biological sciences, the paper entitled 'On the Nature of Gene Mutation and Gene Structure' has remained largely inaccessible because it was only published in a short-lived German periodical. This book makes the 'Three Man' Paper available in English for the first time.
A thoughtful new look at the entwined histories of genetic medicine and eugenics, with probing discussion of the moral risks of seeking human perfection
Professor Max Delbrück was a charismatic scientist, and winner of the Nobel Prize in Physiology or Medicine in 1969, who gathered around him numerous students, colleagues and friends to explore modern quantitative approaches to biology. This small book is a collection of personal reminiscences given at a Centennial Celebration of his birth at the University of Salamanca, Spain, in October 2006 by those who primarily joined Max in a search for understanding sensory transduction. Included among the twenty-three chapters and three appendices are several chapters by persons unable to attend as well as some talks presented at other centenary celebrations for Max. In addition three of Max and Manny's children shared memories of their family life and activities. The book was organized and edited by Walter Shropshire, Jr., at the invitation of the Salamanca organizing committee, to make these stories available to a wider audience, even though Max is well known and respected within both biology and physics research communities. It is hoped that these anecdotes and insights honoring the life and work of Max will be an inspiration to others as an example of how to enjoy the creative play of innovative and significant scientific research.
Analyzes Randomness in Major Genetic Processes and EventsNo matter how far science advances, the proportion of what is knowable to what is random will remain unchanged, and attempts to ignore this critical threshold are futile at best. With the revolutionary explosion in genetic information discovery, it is crucially important to recognize the unde
In recent decades, developments in research technologies and therapeutic advances have generated immense public recognition for neuroscience. However, its origins as a field, often linked to partnerships and projects at various brain-focused research centres in the United States during the 1960s, can be traced much further back in time. In A New Field in Mind Frank Stahnisch documents and analyzes the antecedents of the modern neurosciences as an interdisciplinary field. Although postwar American research centres, such as Francis O. Schmitt's Neuroscience Research Program at MIT, brought the modern field to prominence, Stahnisch reveals the pioneering collaborations in the early brain sciences at centres in Germany, Austria, and Switzerland in the first half of the twentieth century. One of these, Heinrich Obersteiner's institute in Vienna, began its work in the 1880s. Through case studies and collective biographies, Stahnisch investigates the evolving relationships between disciplines – anatomy, neurology, psychiatry, physiology, serology, and neurosurgery – which created new epistemological and social contexts for brain research. He also shows how changing political conditions in Central Europe affected the development of the neurosciences, ultimately leading to the expulsion of many physicians and researchers under the Nazi regime and their migration to North America. An in-depth and innovative study, A New Field in Mind tracks the emergence and evolution of neuroscientific research from the late nineteenth century to the postwar period.
A biography of two maverick scientists whose intellectual wanderlust kick-started modern genomics and cosmology. Max Delbruck and George Gamow, the so-called ordinary geniuses of Segre's third book, were not as famous or as decorated as some of their colleagues in midtwentieth-century physics, yet these two friends had a profound influence on how we now see the world, both on its largest scale (the universe) and its smallest (genetic code). Their maverick approach to research resulted in truly pioneering science. Wherever these men ventured, they were catalysts for great discoveries. Here Segre honors them in his typically inviting and elegant style and shows readers how they were far from "ordinary". While portraying their personal lives Segre, a scientist himself, gives readers an inside look at how science is done--collaboration, competition, the influence of politics, the role of intuition and luck, and the sense of wonder and curiosity that fuels these extraordinary minds. Ordinary Geniuses will appeal to the readers of Simon Singh, Amir Aczel, and other writers exploring the history of scientific ideas and the people behind them.
The life of the man who studied astronomy, theoretical physics, contributed to genetics, molecular biology, sensory behavior, and evolution and shared the Nobel Prize for Physiology and Medicine