PREMIOS NOBEL RELACIONADOS CON LA GENÉTICA Translate this page 1987, susumu tonegawa. Por su descubrimiento del fundamento genético de laformación de una rica variedad de anticuerpos. 1989, nobel de Química http://www.ucm.es/info/genetica/AVG/nobel/nobel.htm
Extractions: Alfred Nobel La mayoría de los Premios Nobel que figuran en la siguiente lista son de Fisiología y Medicina, salvo algunos de Química y de la Paz que se indican de forma expresa en la tabla. Albrecht Kossel Por sus trabajos sobre las sustancias albuminoides, incluyendo las nucleínas, que han contribuido al conocimiento de la química de las células. Karl Landsteiner Por sus descubrimientos de los grupos sanguíneos de la especie humana. Thomas H. Morgan Por su descubrimiento sobre la función de los cromosomas como portadores de la herencia. Hermann J. Muller Por su descubrimiento de la inducción de mutaciones mediante radiación con rayos X. Linus Carl Pauling Por sus investigaciones sobre la naturaleza de los enlaces químicos y su aplicación en la elucidación de la estructura de las sustancias complejas. También recibió el Premio Nobel de la Paz en 1962 por su lucha contra el desarrollo de las armas nucleares. George W. Beadle Edward L. Tatum Por su descubrimiento de que los genes actúan regulando sucesos químicos definidos.
Extractions: on the occasion of the one-hundredth anniversary of the Nobel Prize Zhores I. Alferov (Physics, 2000) Sidney Altman (Chemistry, 1989) Philip W. Anderson (Physics, 1977) Oscar Arias Sanchez (Peace, 1987) J. Georg Bednorz (Physics, 1987) Bishop Carlos F. X. Belo (Peace, 1996) Baruj Benacerraf (Physiology/Medicine, 1980) Hans A. Bethe (Physics, 1967) Gerd K. Binnig (Physics, 1986) James W. Black (Physiology/Medicine, 1988) Guenter Blobel (Physiology/Medicine, 1999) Nicolaas Bloembergen (Physics, 1981) Norman E. Borlaug (Peace, 1970) Paul D. Boyer (Chemistry, 1997) Bertram N. Brockhouse (Physics, 1994) Herbert C. Brown (Chemistry, 1979) Georges Charpak (Physics, 1992) Claude Cohen-Tannoudji (Physics, 1997) John W. Cornforth (Chemistry, 1975) Francis H.C. Crick (Physiology/ Medicine, 1962) James W. Cronin (Physics, 1980) Paul J. Crutzen (Chemistry, 1995) Robert F. Curl (Chemistry, 1996) His Holiness The Dalai Lama (Peace, 1989) Johann Deisenhofer (Chemistry, 1988) Peter C. Doherty (Physiology/Medicine, 1996) Manfred Eigen (Chemistry, 1967)
Extractions: on the occasion of the one-hundredth anniversary of the Nobel Prize Zhores I. Alferov (Physics, 2000) Sidney Altman (Chemistry, 1989) Philip W. Anderson (Physics, 1977) Oscar Arias Sanchez (Peace, 1987) J. Georg Bednorz (Physics, 1987) Bishop Carlos F. X. Belo (Peace, 1996) Baruj Benacerraf (Physiology/Medicine, 1980) Hans A. Bethe (Physics, 1967) Gerd K. Binnig (Physics, 1986) James W. Black (Physiology/Medicine, 1988) Guenter Blobel (Physiology/Medicine, 1999) Nicolaas Bloembergen (Physics, 1981) Norman E. Borlaug (Peace, 1970) Paul D. Boyer (Chemistry, 1997) Bertram N. Brockhouse (Physics, 1994) Herbert C. Brown (Chemistry, 1979) Georges Charpak (Physics, 1992) Claude Cohen-Tannoudji (Physics, 1997) John W. Cornforth (Chemistry, 1975) Francis H.C. Crick (Physiology/ Medicine, 1962) James W. Cronin (Physics, 1980) Paul J. Crutzen (Chemistry, 1995) Robert F. Curl (Chemistry, 1996) His Holiness The Dalai Lama (Peace, 1989) Johann Deisenhofer (Chemistry, 1988) Peter C. Doherty (Physiology/Medicine, 1996) Manfred Eigen (Chemistry, 1967)
Nobel For Medicine All Laureates W. Black, Gertrude B. Elion, George H. Hitchings 1987 susumu tonegawa 1986 Stanley TheNobel Prize A History of Genius, Controversy and Prestige by Burton http://www.popular-science.net/nobel/med-list.html
Untitled Ph.D. Dr. susumu tonegawa, of the Massachusetts Institute of Technology is the FourthAnnual CNBC Lecturer. In 1987 Dr. tonegawa received the nobel Prize in http://www2.ipcku.kansai-u.ac.jp/~ttank/04tonegawa.htm
Extractions: Back to the TABLE The Fourth Annual CNBC Lecture "From Genes to Synaptic Plasticity to Spatial Memory" Susumu Tonegawa, Ph.D. Center for Learning and Memory Massachusetts Institute of Technology Friday, April 11, 1997 3:30 - 6:00 pm Auditorium 2nd Floor, Mellon Institute Reception immediately following ABSTRACT We have developed a method to create mice in which the deletion (knockout) of virtually any gene of interest is restricted to a subregion or a specific cell type in the CNS such as the pyramidal cells of the hippocampal CA1 region. We applied this technique to the gene encoding the essential subunit of all known isoforms of NMDA receptors. These mice lack the NMDAR1 gene specifically and exclusively in the CA1 pyramidal cells and only after the third postnatal week. The latter temporal restriction of the gene knockout makes it highly unlikely that any impairments observed in these knockout mice are due to a developmental abnormality. The mutant mice grow into adulthood without obvious abnormalities. Adult mice lack NMDA receptor-mediated synaptic currents and long-term potentiation specifically in the CA1 synapses and exhibit impaired spatial memory but unimpaired nonspatial memory. Our results strongly suggest that activity-dependent modifications of CA1 synapses, mediated by NMDA receptors, play an essential role in the acquisition of spatial memories. To investigate further the role of NMDA receptor-dependent CA1 synaptic plasticity in spatial memory, we studied in collaboration with Matthew Wilson place-specific firing of the mutant hippocampal CA1 pyramidal cells using multiple electrode recording techniques applied to freely behaving mice. We have discovered that although the CA1 pyramidal cells in the NMDAR1 knockout mice retain place-related activity, there is a significant decrease in the spatial specificity of individual place fields. We have also found a striking deficit in the coordinated firing of pairs of neurons tuned to similar spatial locations. Pairs have uncorrelated firing even if their fields overlap. These results demonstrate that NMDA receptor-mediated synaptic plasticity is necessary for the proper representation of space in the CA1 region of the hippocampus. The results also suggest that the reason why NMDAR1 knockout mice are poor in acquiring spatial memory is because the lack of NMDA receptors in the CA1 region causes a failure in the formation of refined place fields in the CA1 and its downstream regions. SUSUMU TONEGAWA, Ph.D. Dr. Susumu Tonegawa, of the Massachusetts Institute of Technology is the Fourth Annual CNBC Lecturer. In 1987 Dr. Tonegawa received the Nobel Prize in Physiology or Medicine for his work on the genetics of antibody production. In recent years, he turned his attention to neurobiology and became rapidly established as a leader in the application of new genetic techniquies for the study of the nervous system. Dr. Tonegawa received his B.S. degree in chemistry from Kyoto University in Kyoto, Japan and his doctorate in biology from the University of California, San Diego. He completed postdoctoral work at the University of California, San Diego and the Salk Institute. He continued his research at the Basel Institute for Immunology in Switzerland. Dr. Tonegawa is a professor at the Center for Cancer Research at MIT and an investigator for the Howard Hughes Medical Institute. In April of 1994, he became the Director of MIT's newly created Center for Learning and Memory. THE CENTER FOR THE NEURAL BASIS OF COGNITION ANNUAL LECTURE The annual CNBC lecture provides an opportunity for the Cognitive and Neuroscience communities in Pittsburgh to gather together to consider an important aspect of cognitive neuroscience through the work of a recognized leader of the field. The series was inaugurated in 1994 by Dr. Mortimer Mishkin. The Fourth Annual CNBC Lecture, From Genes to Synaptic Plasticity to Spatial Memory, will be given by Dr. Tonegawa in the Mellon Institute Auditorium on the 2nd Floor of Mellon Institute. The proceedings will begin at 3:30 with a brief update on the state of the Center, which will be followed by Dr.Tonegawa's lecture. The lecture will be followed by a reception from 5:00 - 6:00 pm in the auditorium lobby. The reception will give participants an opportunity to meet Dr. Tonegawa and to talk with colleagues in the cognitive and neural sciences. Faculty and students from throughout the community are welcome to attend. CENTER FOR THE NEURAL BASIS OF COGNITION (CNBC) IS A JOINT PROJECT OF CARNEGIE MELLON UNIVERSITY and the UNIVERSITY OF PITTSBURGH Back to the TABLE
Laureatii Premiilor Nobel ale Americii. 1986, Stanley Cohen Rita Levi Montalcini, Statele Uniteale Americii Italia. 1987, susumu tonegawa, Japonia. 1988, Sir James http://www.rotravel.com/medicine/nobel/r_laur.htm
Nobel Prize For Physiology Or Medicine nobel Prize for Physiology or Medicine. for their contributions to the understandingof substances that influence cell growth 1987 susumu tonegawa (Japan), for http://www.factmonster.com/ipa/A0105787.html
Extractions: Emil A. von Behring (Germany), for work on serum therapy against diphtheria Sir Ronald Ross (U.K.), for work on malaria Niels R. Finsen (Denmark), for his treatment of lupus vulgaris with concentrated light rays Ivan P. Pavlov (U.S.S.R.), for work on the physiology of digestion Robert Koch (Germany), for work on tuberculosis Camillo Golgi (Italy) and (Spain), for work on structure of the nervous system Charles L. A. Laveran
Nobel Prizes In Medicine THE nobel PRIZE IN PHYSIOLOGY OR MEDICINE 1987 tonegawa, susumu, Japan, MassachusettsInstitute of Technology (MIT), Cambridge, MA, USA, * 1939 för hans http://felix.unife.it/Root/d-Medicine/d-The-physician/t-Nobel-prizes-medicine
100 Nobel Laureates Warn Our Planet! Physics, 1993 susumu tonegawa Physiology/Medicine, 1997 Charles H. Townes Physics,1964 Daniel T. Tsui Physics, 1998 Archbishop Source http//www.nobel.se. http://www.lovearth.net/100NobelLaureatesWarnOurPlanet.htm
Extractions: Centennial Symposium here yesterday celebrating the 100th anniversary of the Nobel prize, 100 Nobel laureates have issued a brief but dire warning of the "profound dangers" facing the world. Their statement predicts that our security depends on immediate environmental and social reform. The following is the text of their statement: THE STATEMENT The most profound danger to world peace in the coming years will stem not from the irrational acts of states or individuals but from the legitimate demands of the world's dispossessed. Of these poor and disenfranchised, the majority live a marginal existence in equatorial climates. Global warming, not of their making but originating with the wealthy few, will affect their fragile ecologies most. Their situation will be desperate and manifestly unjust. It cannot be expected, therefore, that in all cases they will be content to await the beneficence of the rich. If then we permit the devastating power of modern weaponry to spread through this combustible human landscape, we invite a conflagration that can engulf both rich and poor. The only hope for the future lies in co-operative international action, legitimized by
Winners Of The Nobel Prize In Medicine Or Physiology Taken from The nobel Prize Internet Archive. 2000. 1987. susumu tonegawa for hisdiscovery of the genetic principle for generation of antibody diversity. 1986. http://www.manbir-online.com/htm3/nobel-med-list.htm
100 Nobel Laureates Call For Environmental And Social Reforms The nobel PrizeWinning Signatories Zhores I. Alferov Physics, 2000 Sidney Physics,1993 susumu tonegawa Physiology/Medicine, 1987 Charles H. Townes Physics http://www.policyalternatives.ca/publications/articles/article341.html
Nobel Prizes HyperCounter. nobel prizes Microbiologi, Virologi, Genetisti, Immunologi. Milstein.1987 susumu tonegawa. 1989 J. Michael Bishop, Harold E. Varmus. http://150.217.100.14/didonline/anno-ii/microbiologia/2001-2002/Lezioni/nobel_pr
Extractions: UNIVERSITÀ DEGLI STUDI DI FIRENZE DIPARTIMENTO DI SANITÀ PUBBLICA (Direttore: Prof. Nicola Comodo) Sezione di Microbiologia "Renzo Davoli" Accesso n° Cliccando sullanno o sul nome si va al sito ufficiale, dove si trovano le foto, le biografie, le motivazioni, e altro. Emil Adolf von Behring Ronald Ross Robert Koch Charles Louis Alphonse Laveran ... Stanley B. Prusiner
Susumu Tonegawa HHMI INVESTIGATORS / susumu tonegawa. susumu tonegawa, Ph.D. Investigator,Massachusetts Institute of Technology Biography Summary http://www.hhmi.org/research/investigators/tonegawa.html
Extractions: Massachusetts Institute of Technology Biography... Summary: Susumu Tonegawa uses genetically engineered mice to investigate neural development and the molecular, cellular, and neuronal ensemble mechanisms underlying learning and memory. Our primary research interests are the molecular, cellular, and neuronal circuitry mechanisms underlying acquisition, consolidation, and retrieval of hippocampus-dependent memory in rodents. We are also interested in deciphering mechanisms underlying neural activity-dependent development of sensory systems. To study these problems, we produce conditionally engineered (i.e., spatially targeted and/or temporally regulated) mice and analyze these mice by multifaceted methods, including molecular and cellular biology, in vitro and in vivo physiology, and behavioral studies. We attempt to identify deficits at each of the multiple levels of complexity in specific brain areas or cell types and to determine which deficits underlie specific learning or memory, or developmental impairments observed in the mutants.
Robert T. Wong, MD, Lecture Series Robert T. Wong, MD, Lecture Series. nobel Prize Winner susumu Tonegawato Speak in March. The Robert T. Wong, MD, Lecture Series features http://www.hawaii.edu/news/kulama/990305/wonglecture.html
Extractions: Robert T. Wong, MD, Lecture Series Nobel Prize Winner Susumu Tonegawa to Speak in March The Robert T. Wong, MD, Lecture Series features Nobel Prize recipient Susumu Tonegawa in three lectures March 12 and 15. Tonegawa received the 1987 Nobel Prize in physiology or medicine for his discovery of the genetic principle of generation of antibody diversity. Tonegawa is the Amgen Professor of Biology and Neuroscience and director of the Center for Learning and Memory at MIT's Center for Cancer Research. He attended the University of Kyoto and received his PhD from the University of California, San Diego. He will speak on the following dates: Friday, March 12
Mt Time At MIT talking with MIT Professor susumu tonegawa 1987Nobel Prize in Physiology and Medicine. http://web.media.mit.edu/~reilly/tonegawa.html
Datastream Latinamerica Translate this page Datastream Systems, Inc. (NASDAQ DSTM) anunció que el ganador del Premio NobelDr. susumu tonegawa fue orador en el seminario que la empresa organizó para http://www.datastream.net/latinamerica/site/noticias/togenawa.asp
Extractions: Latinamerica Argentina Brasil Noticias Regionales ... Foros Datastream Una vez recibido su Ph.D. en biología molecular de la Universidad de California, San Diego, continuo con una capacitación posdoctoral en el Salk Institute y una práctica en el Base Institute for Immunology. En 1981, Dr. Tonegawa fue designado profesor de biología en el Massachusetts Institute of Technology (MIT) y socio del Centro para Investigación del cáncer (Center for Cancer Research). En 1994, fundó el Centro Picower para Aprendizaje y memoria MIT. Recibió varios premios: Louisa Gross Horwitz, Premio Internacional de la Fundación Gairdner, Orden de Cultura "Bunkakunsho" del Emperador de Japón, Premio a la Investigación sobre Cáncer del Bristol Myers Squibb, el Premio Albert and Mary Lasker y el Premio Nobel en 1987 en Fisiología o Medicina. Acerca de Datastream
ACS :: Nobel Prize Winners The most recent Societysupported grantee to be awarded the nobel Prize (2001) is 1987Susumu tonegawa, PhD Discovered how antibodies are made by cells of the http://www.cancer.org/docroot/RES/content/RES_7_6_Nobel_Prize_Winners.asp?sitear
Nobel Laureates At MIT 1/3 Samuel CC Ting, professor of physics, shared the 1976 nobel Prize in physics 1/3Susumu tonegawa, professor of biology, won the 1987 prize in physiology or http://www-tech.mit.edu/V110/N43/nobel4.43n.html
Extractions: Nobel laureates at MIT There are 10 current or emeritus MIT faculty members who have won Nobel Prizes: 1/3 Har Gobind Khorana, a professor of biology and chemistry, won the 1968 Nobel Prize in physiology or medicine for interpreting "the genetic code and its function in protein synthesis." His work was done at the University of Wisconsin. 1/3 Salvador Luria, professor of biology, emeritus, shared the 1969 prize in physiology or medicine for discoveries concerning "the replication mechanism and the genetic structure of viruses." 1/3 Paul A. Samuelson, Institute professor of economics, emeritus, won the 1970 Nobel Memorial Prize in Economic Science for working to raise the level of scientific analysis in economic theory. He was the first American to win the award. 1/3 Samuel C. C. Ting, professor of physics, shared the 1976 Nobel Prize in physics for discovering the J particle, a heavy elemental particle of subatomic matter. 1/3 Franco Modigliani, Institute professor of economics, emeritus, won the 1985 economics prize for his "pioneering analyses of saving and of financial markets," often referred to as "life-cycle savings." 1/3 Susumu Tonegawa, professor of biology, won the 1987 prize in physiology or medicine for discovering how gene fragments combine to produce countless variations in the immune response of humans.
SIMR - Centenary Survey Of Nobel Laureates through the study of intact organisms. Harold E. Varmus, nobel Prizewinner 1989. 1987Susumu tonegawa - describes the basic principles of antibody synthesis. http://www.simr.org.uk/pages/nobel/time_line_9.html
Extractions: "Now, more than ever, research with laboratory animals is required to bring the benefits of advances in molecular genetics, neuroscience, and other highly productive fields to clinical application through the study of intact organisms." - Harold E. Varmus, Nobel Prizewinner 1989 Baruj BENACERRAF, Jean DAUSSETT and George D. SNELL - describe histocompatibility antigens and the regulation of immunological reactions. Roger W. SPERRY, David H. HUBEL and Torsten N. WIESEL - describe the processing of visual information by the brain. Sune K. BERGSTRÖM, Bengi I. SAMUELSON and Sir John R. VANE - discover the prostaglandin group of hormone-like compounds found in all animals. Barbara McCLINTOCK - studies maize and finds chromosomes can sometimes transfer segments from one to another.