Nobel prizes honor innovative approaches; looking into a worm, detecting X rays and tiny particles, and examining biomolecules.The 2002 Nobel prizes announced early this week pay tribute to an international sampling of scientists who have developed powerful new tactics for expanding the horizons of research. Physiology or Medicine The German philosopher Friedrich Nietzsche once wrote, "You have made your way from worm to man, and much within you is still worm." Offering ample support for that premise, this year's Nobel Prize in Physiology or Medicine Below is a list of the winners of the Nobel Prize in Physiology or Medicine (Swedish: Nobelpriset i fysiologi eller medicin) from 1901 to the present.[1] goes to three scientists whose anatomical and genetic studies of the nematode worm Caenorhabditis elegans revealed aspects of development relevant to all animals, including people. The honored trio is Sydney Brenner of the Molecular Sciences Institute The Molecular Sciences Institute is an independent non-profit research laboratory that combines genomic experimentation with computer modeling located in Berkeley, California. Dr. Sydney Brenner founded it in 1996. in Berkeley, Calif., H. Robert Horvitz H. Robert Horvitz (born May 8, 1947) is an American biologist best known for his research on the nematode worm Caenorhabditis elegans. He is currently at the Massachusetts Institute of Technology where he is Professor of Biology and a member of the McGovern Institute for , a Howard Hughes Medical Institute Howard Hughes Medical Institute, (HHMI), nonprofit medical research organization founded in 1953 by Howard Hughes and largly funded from proceeds of the 1984–85 sale of Hughes Aircraft. Headquartered in Chevy Chase, Md. investigator at the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, , and John E. Sulston Sir John Edward Sulston PhD, FRS (born March 27, 1942) was educated at Pembroke College, Cambridge graduating in 1963. He joined the Chemistry Department in Cambridge, gained his PhD for research in nucleotide chemistry and devoted his scientific life to biological research, of the Sanger Institute in Hinxton, England. "The Laureates have identified key genes regulating organ development and programmed cell death pro·grammed cell death n. See apoptosis. programmed cell death proposed system of cell death, often including poly(ADP)-ribosylation, ensures that a cell will not survive if it is so badly damaged that its recovery would harm the and have shown that corresponding genes exist in higher species, including man," declared the award statement released by the Nobel Assembly at the Karolinska Institute in Sweden. In the 1960s, Brenner decided that C. elegans should be added to the small menu of animals that scientists regularly select for their studies. Brenner argued that the millimeter-long worm offers an excellent opportunity to study the development of an animal, particularly the wiring of its nervous system. At the time, many biologists thought that investigating a lowly nematode was foolhardy. Brenner had a raft of reasons, however. The worm is transparent, grows rapidly, and contains exactly 959 cells, excluding sperm and eggs. And since C. elegans comes in hermaphroditic forms, it can mate with itself, creating inbred worms that enable biologists to identify genes and their roles more easily. Today, there's a strong community of worm researchers whose findings rival those of biologists studying the mouse and fly, two other common lab animals. In fact, 4 years ago, the worm became the first animal to have all of its genes sequenced and identified (SN: 12/12/98, p. 372). Horvitz and Sulston were among the earliest converts to C. elegans. Both worked in Brenner's laboratory before starting their own teams. Sulston painstakingly documented the fate of each and every worm cell as the animal matured from a single egg cell. In doing so, he discovered, among many other things, that more than a hundred cells are destined des·tine tr.v. des·tined, des·tin·ing, des·tines 1. To determine beforehand; preordain: a foolish scheme destined to fail; a film destined to become a classic. 2. to die during the tiny animal's development, a phenomenon known as programmed cell death, or apoptosis. "He had the great foresight to see that this description [of cell fate] could be powerful," says Paul Sternberg of the California Institute of Technology California Institute of Technology, at Pasadena, Calif.; originally for men, became coeducational in 1970; founded 1891 as Throop Polytechnic Institute; called Throop College of Technology, 1913–20. in Pasadena, who has done similar cell-fate studies in worms. Horvitz specialized in identifying worm genes that control biological processes, ranging from olfaction to apoptosis. His discovery of C. elegans genes related to apoptosis led to the identification of similar genes in people. The actions of such cell-death genes are now seen as critical to understanding human biology and many disease processes. Horvitz's work "took cell death to a new level," says worm researcher Donald L. Riddle of the University of Missouri in Columbia. When it comes to C. elegans research, the three new Nobel laureates "really set up the field," says Sternberg. "They're all wonderful, deep scientists." --J. Travis Physics Scientists who designed novel detectors to probe some of the most violent actions of stars and most elusive features of the universe earned this year's Nobel Prize in Physics The Nobel Prize in Physics (Swedish: Nobelpriset i fysik) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the six Nobel Prizes. The first prize was awarded in 1901. . Raymond Davis Jr. of the University of Pennsylvania (body, education) University of Pennsylvania - The home of ENIAC and Machiavelli. http://upenn.edu/. Address: Philadelphia, PA, USA. in Philadelphia and Masatoshi Koshiba of the University of Tokyo “Todai” redirects here. For the restaurant called Todai, see Todai (restaurant). The University of Tokyo (東京大学 shared half the prize for their pioneering work in detecting neutrinos emitted by the sun. The other half went to Riccardo Giacconi of Associated Universities in Washington, D.C., for discovering sources of X rays beyond the solar system. "I'm delighted to hear of this award," says astrophysicist John P. Hughes of Rutgers University in Piscataway, N.J. "It is well deserved all around." Of the fundamental particles of matter, neutrinos are among the most plentiful--and the most evasive. Originally thought to have no mass, neutrinos barely interact with other forms of matter, making them extremely difficult to detect. Despite poor odds, Davis devised an experiment to spot neutrinos sent Earthward earth·ward adv. & adj. To or toward the earth. earth  wards adv. from nuclear reactions in the sun. Gathering data from the 1960s until 1994, his apparatus consisted of a tank filled with 100,000 gallons of dry-cleaning fluid. It sat 4,800 feet underground in the Homestake Gold Mine in South Dakota. Because this experiment detected fewer neutrinos than theoretically predicted, it was the first to suggest that some neutrinos disappear on their way to Earth (SN: 6/23/01, p. 388). In the 1980s, Koshiba and his team built the enormous Kamiokande detector in Japan and confirmed Davis' solar-neutrino results (SN: 4/30/88, p. 277). The Kamiokande detector also observed a burst of neutrinos from the explosion of a star--supernova 1987A--in a neighboring galaxy (SN: 3/14/87, p. 165). A later, larger detector, Super-Kamiokande, provided evidence that neutrinos don't disappear but instead change into a type indiscernible in earlier experiments (SN: 1/30/99, p, 76). X rays furnish a portrait of other aspects of the universe. In 1959, Giacconi worked out how to construct a rocket-borne X-ray telescope. He and his group detected the first X-ray source outside the solar system--a distant ultraviolet star in the Scorpio constellation. Later, Giacconi and his collaborators discovered a background of X-ray radiation evenly distributed across the sky. "Giacconi really can be considered the father of cosmic X-ray astronomy," Hughes says. Orbiting X-ray observatories have carried on highly productive studies (SN: 10/27/00, p. 266), and Giacconi still uses data from the orbiting Chandra X-ray Observatory Chandra X-ray Observatory U.S. X-ray space telescope. It was named after astrophysicist Subrahmanyan Chandrasekhar and was launched into orbit in 1999. Its mirror, with an aperture of 1.2 m (4 ft) and a focal length of 10 m (33 ft), produces unprecedented resolution. to study sources that make up the X-ray background. "Cutting-edge technology has always been a part of research in X-ray astronomy," Hughes notes. "Riccardo made sure his group ... was at the forefront of developments concerning X-ray telescopes and detectors, spacecraft, data analysis and interpretation." --I. Peterson Chemistry This year's Nobel Prize in Chemistry The Nobel Prize in Chemistry (Swedish: Nobelpriset i kemi) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the six Nobel Prizes. The first prize was awarded in 1901. , announced as Science News was going to press, recognizes the development of analytical tools for studying large biological molecules, such as proteins. The tools have transformed pharmaceutical development by enabling quick determinations of the identities and three-dimensional structures of molecules central to countless biological processes. John B. Fenn of Virginia Commonwealth University Formed by a merger between the Richmond Professional Institute and the Medical College of Virginia in 1968, VCU has a medical school that is home to the nation's oldest organ transplant program. in Richmond shares half of the prize with Koichi Tanaka of the Shimadzu Corp. in Kyoto, Japan. The other half goes to Kurt Wuthrich of the Swiss Federal Institute of Technology The Swiss Federal Institute of Technology may refer to one of two institutes of higher education in Switzerland:
--J. Gorman |
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