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Frederick Sanger
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.
Fred Sanger - Double Nobel Laureate
Considered 'the father of genomics', Fred Sanger (1918–2013) paved the way for the modern revolution in our understanding of biology. His pioneering methods for sequencing proteins, RNA and, eventually, DNA earned him two Nobel Prizes. He remains one of only four scientists (and the only British scientist) ever to have achieved that distinction. In this, the first full biography of Fred Sanger to be published, Brownlee traces Sanger's life from his birth in rural Gloucestershire to his retirement in 1983 from the Medical Research Council's Laboratory of Molecular Biology in Cambridge. Along the way, he highlights the remarkable extent of Sanger's scientific achievements and provides a real portrait of the modest man behind them. Including an extensive transcript of a rare interview of Sanger by the author, this biography also considers the wider legacy of Sanger's work, including his impact on the Human Genome Project and beyond.
Selected Papers of Frederick Sanger
This important volume is mainly concerned with the development of methods for ?sequencing? ? that is, determination of the order of the amino acids in proteins and of nucleotides in RNA and DNA. In 1943 the position of only one amino acid in a protein (insulin) was known, and Sanger's first paper resulted in finding a second amino acid. In his final paper in 1982 he describes the determination of a DNA sequence of 48,502 nucleotides. The papers describe the steady improvements in techniques, and exciting biological results revealed by the sequences.
Diabetes: The Biography
Diabetes is a disease with a fascinating history and one that has been growing dramatically with urbanization. According to the World Health Authority, it now affects 4.6% of adults over 20, reaching 30% in the over 35s in some populations. It is one of the most serious and widespread diseases today. But the general perception of diabetes is quite different. At the beginning of the 20th century, diabetes sufferers mostly tended to be middle-aged and overweight, and could live tolerably well with the disease for a couple of decades, but when it occasionally struck younger people, it could be fatal within a few months. The development of insulin in the early 1920s dramatically changed things f...
The Discovery of Insulin
The discovery of insulin at the University of Toronto in 1921-22 was one of the most dramatic events in the history of the treatment of disease. Insulin was a wonder-drug with ability to bring patients back from the very brink of death, and it was no surprise that in 1923 the Nobel Prize for Medicine was awarded to its discoverers, the Canadian research team of Banting, Best, Collip, and Macleod. In this engaging and award-winning account, historian Michael Bliss recounts the fascinating story behind the discovery of insulin – a story as much filled with fiery confrontation and intense competition as medical dedication and scientific genius. Originally published in 1982 and updated in 1996, The Discovery of Insulin has won the City of Toronto Book Award, the Jason Hannah Medal of the Royal Society of Canada, and the William H. Welch Medal of the American Association for the History of Medicine.
A History of Molecular Biology
Every day it seems the media focus on yet another new development in biology--gene therapy, the human genome project, the creation of new varieties of animals and plants through genetic engineering. These possibilities have all emanated from molecular biology. A History of Molecular Biology is a complete but compact account for a general readership of the history of this revolution. Michel Morange, himself a molecular biologist, takes us from the turn-of-the-century convergence of molecular biology's two progenitors, genetics and biochemistry, to the perfection of gene splicing and cloning techniques in the 1980s. Drawing on the important work of American, English, and French historians of s...
Lives And Times Of Great Pioneers In Chemistry (Lavoisier To Sanger)
Chemical science has made major advances in the last few decades and has gradually transformed in to a highly multidisciplinary subject that is exciting academically and at the same time beneficial to human kind. In this context, we owe much to the foundations laid by great pioneers of chemistry who contributed new knowledge and created new directions. This book presents the lives and times of 21 great chemists starting from Lavoisier (18th century) and ending with Sanger. Then, there are stories of the great Faraday (19th century) and of the 20th century geniuses G N Lewis and Linus Pauling. The material in the book is presented in the form of stories describing important aspects of the lives of these great personalities, besides highlighting their contributions to chemistry. It is hoped that the book will provide enjoyable reading and also inspiration to those who wish to understand the secret of the creativity of these great chemists.
Chemical Embryology
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Laboratory Methodology in Biochemistry
Provides information on methodologies and techniques concerning the biochemical laboratory, as well as improvements or advancements made on existing methodologies. Original methodologies for the purification of biological macromolecules and methodologies for metabolic pathways and enzyme kinetics are covered. The application of biochemical and biophysical methodologies for the structural and dynamic characterization of biological macromolecules is considered. The elaboration of automated systems for biochemical research and computer programs for the management and processing of experimental data are both reviewed. Development of instruments and equipment for biochemical research is also presented.
What Is Life?
Life is all around us, abundant and diverse. It is truly a marvel. But what does it actually mean to be alive, and how do we decide what is living and what is not? After a lifetime of studying life, Nobel Prize-winner Sir Paul Nurse, one of the world's leading scientists, has taken on the challenge of defining it. Written with great personality and charm, his accessible guide takes readers on a journey to discover biology's five great building blocks, demonstrates how biology has changed and is changing the world, and reveals where research is headed next. To survive all the challenges that face the human race today - population growth, pandemics, food shortages, climate change - it is vital...
