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Physiology or medicine was the third prize area Alfred Nobel mentioned in his will. Nobel had an active interest in medical research. He came into contact with Swedish physiologist Jöns Johansson through Karolinska Institute around 1890. Johansson worked for a brief period in Nobel's laboratory in Sevran, France during the same year. The Nobel Prize in Physiology or Medicine is awarded by the Nobel Assembly at Karolinska Institute. This volume is a collection of the Nobel lectures delivered by the Nobel Laureates, together with their biographies and the presentation speeches for the period 2006-2010.List of Laureates and their award citations:(2006) Andrew Z Fire and Craig C Mello — for their discovery of RNA interference-gene silencing by double-stranded RNA;(2007) Mario R Capecchi, Martin J Evans and Oliver Smithies — for their discoveries of principles for introducing specific gene modifications in mice by the use of embryonic stem cells;(2008) Harald zur Hausen — for his discovery of human papilloma viruses causing cervical cancer, and Françoise Barré-Sinoussi and Luc Montagnier — for their discovery of human immunodeficiency virus;(2009) Elizabeth H Blackburn, Carol W Greider and Jack W Szostak — for the discovery of how chromosomes are protected by telomeres and the enzyme telomerase;(2010) Robert G Edwards — for the development of in vitro fertilization.
The field of solid state ionics deals with ionically conducting materials in the solid state and numerous devices based on such materials. Solid state ionic materials cover a wide spectrum, ranging from inorganic crystalline and polycrystalline solids, ceramics, glasses, polymers, composites and nano-scale materials. A large number of Scientists in Asia are engaged in research in solid state ionic materials and devices and since 1988. The Asian Society for solid state ionics has played a key role in organizing a series of bi-ennial conferences on solid state ionics in different Asian countries. The contributions in this volume were presented at the 10th conference in the series organized by the Postgraduate Institute of Science (PGIS) and the Faculty of Science, University of Peradeniya, Sri Lanka, which coincided with the 10th Anniversary of the Postgraduate Institute of Science (PGIS). The topics cover solid state ionic materials as well as such devices as solid state batteries, fuel cells, sensors, and electrochromic devices. The aspects covered include theoretical studies and modeling, experimental techniques, materials synthesis and characterization, device fabrication and characterization.
During the period 1991 – 1995, important areas of physiological/medical research being recognized were ion channels in cells, protein phosphorylation, split genes, G-proteins and genetic control of embryonic development. The following is a list of the Nobel laureates for those years, with a description of the works that won them their prizes: (1991) E NEHER & B SAKMANN — for their discoveries concerning the function of single ion channels in cells; (1992) E H FISCHER & E G KREBS — for their discoveries concerning reversible protein phosphorylation as a biological regulatory mechanism; (1993) R J ROBERTS & P A SHARP — for their discoveries of split genes; (1994) A G GILMAN & M RODBELL — for their discovery of G-proteins and the role of these proteins in signal transduction in cells; (1995) E B LEWIS, C NÜSSLEIN-VOLHARD & E F WIESCHAUS — for their discoveries concerning the genetic control of early embryonic development.
A collection of the Nobel lectures delivered by the prizewinners in physiology or medicine for the period 1996-2000. Each lecture is based on the work for which the laureate was awarded the prize. The following is a list of the Nobel laureates during 1996-2000 with a description of the works that won them their prizes: P.C. Doherty and R.M. Zinkernagel (1996) - for their discoveries concerning the specificity of the cell mediated immune defence; S.B. Prusiner (1997) -for his discovery of "prisons - a new biological principle of infection"; R.F. Furchgott, L.J. Ignarro and F. Murad (1998) - for their discoveries concerning nitric oxide as a signalling molecule in the cardiovascular system; G. Blobel (1999) - for the discovery that "proteins have intrinsic signals that govern their transport and localization in the cell"; A. Carlsson, P. Greengard and E.R. Kandel (2000) - for their discoveries concerning "signal transduction in the nervous system".
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.
Winner of the American Medical Writers' Association Book Award, this volume describes, with observations on the process of scientific research, the author's successive research problems, the challenges they presented and the ultimate accomplishments thatresulted.
A History of the Brain tells the full story of neuroscience, from antiquity to the present day. It describes how we have come to understand the biological nature of the brain, beginning in prehistoric times, and progressing to the twentieth century with the development of Modern Neuroscience. This is the first time a history of the brain has been written in a narrative way, emphasizing how our understanding of the brain and nervous system has developed over time, with the development of the disciplines of anatomy, pharmacology, physiology, psychology and neurosurgery. The book covers: beliefs about the brain in ancient Egypt, Greece and Rome the Medieval period, Renaissance and Enlightenment the nineteenth century the most important advances in the twentieth century and future directions in neuroscience. The discoveries leading to the development of modern neuroscience gave rise to one of the most exciting and fascinating stories in the whole of science. Written for readers with no prior knowledge of the brain or history, the book will delight students, and will also be of great interest to researchers and lecturers with an interest in understanding how we have arrived at our present knowledge of the brain.