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SCIENCE IN THE NEWS - 2002 Nobel Science Prizes

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SCIENCE IN THE NEWS - October 22, 2002: Nobel Science Prizes

By George Grow


VOICE ONE:
This is Steve Ember.
VOICE TWO:
And this is Bob Doughty1 with SCIENCE IN THE NEWS, a VOA Special English program about recent


developments in science. Today, we tell about this year’s Nobel Prizes for medicine, physics and chemistry.


(THEME)

VOICE ONE:

The Nobel Prizes for medicine, physics and chemistry were announced in Sweden
earlier this month. The Nobel Prizes are the world’s most important honors for
scientific work. The awards will be presented at ceremonies in Stockholm
December tenth. The winners for each prize will share one-million dollars.

The Nobel committee at the Karolinska Institute is giving the Nobel Prize in
Physiology2 or Medicine to three scientists. Two are British. One is Sydney Brenner of the Salk Institute for
Biological Studies in La Jolla, California. The other is John Sulston of the Wellcome Trust Sanger Institute in
Cambridge, England. The third winner is American scientist Robert Horvitz of the Massachusetts Institute of
Technology in Cambridge.

The three men will share the Medicine Prize for their discoveries of how healthy cells carry orders to kill
themselves. The discoveries involve a process called programmed cell death. Programmed cell death is necessary
for tissue and organ development. It also influences the development of many diseases.

VOICE TWO:

All three scientists made discoveries with an organism called C. elegans. Forty years ago, Sydney Brenner
wanted to study how genes4 and cells are connected in complex animals. Yet the size of complex animals limited
his work. So he proposed studying a soil worm, called C. elegans. The worm is only about one millimeter long. It
has a clear skin and reproduces quickly. Scientists can watch its cells divide under a microscope.

Doctor Brenner showed that a chemical could produce changes in the genes of C. elegans. He found that different
changes could be linked to several genes and to effects on organ development.

VOICE ONE:

John Sulston developed methods to study cell division in C. elegans. He explained the process by which a
fertilized5 egg develops into an adult organism. In nineteen-seventy-six, he described this process for part of the
worm’s nervous system.

Doctor Sulston showed that some cells in C. elegans are designed to die through programmed cell death. He
discovered that cells divided more often than appeared necessary to make an adult organism. This led him to
believe that some cells have genetic6 orders to die as part of their development.

VOICE TWO:

Robert Horvitz used C. elegans to discover the existence of a genetic program that controls cell death. In a series
of experiments, he identified two genes required for cells to die. Later, he showed that another gene3 protects
against cell death. He also identified genes that direct how the dead cell is removed.



The Nobel committee said the three men’s work has made it possible to identify genes with similar controls in
humans. The committee said their work has helped scientists better understand how cancer and many other
diseases develop.

(MUSIC BRIDGE)

VOICE ONE:

The Nobel Prize in Physics this year also has three winners. The Royal Swedish Academy of Sciences praised
their work in astrophysics, the physics of objects in space. It said the work has increased understanding of the
universe.

American Raymond Davis and Masatoshi Koshiba of Japan were honored for experiments that confirmed the
existence of mysterious particles known as neutrinos. Neutrinos are formed in the sun and other stars when
hydrogen gas changes into helium. However, neutrinos rarely react with other substances. As a result, scientists
have had great difficulty confirming their existence.

VOICE TWO:

Raymond Davis of the University of Pennsylvania in Philadelphia was the first person to measure neutrinos from
the sun. In the nineteen-sixties, he started work on a project to prove they exist. He placed a huge container
underground in a gold mine in South Dakota. He filled the tank with six-hundred-fifteen metric tons of cleaning
fluid.

Mister Davis estimated that about twenty neutrinos would react with the chlorine in the cleaning fluid every
month. This meant that twenty atoms of the chemical argon would be created. He developed a method to identify
these atoms and measure their number.

The American scientist collected information from his experiment until nineteen-ninety-four. By then, about two-
thousand argon atoms were discovered in the tank. He used control experiments to show that no argon atoms
were left in the chlorine.

VOICE ONE:

Masatoshi Koshiba of the University of Tokyo confirmed Mister Davis’s results. He and his team built another
huge tank to measure neutrinos. It was placed deep in a mine in Japan. However, Mister Koshiba used a different
liquid: water. The reaction of neutrinos with the water released electrons that produced bursts of light. He
recorded the direction of the bursts of light. He was able to show for the first time that neutrinos came from the
sun.

VOICE TWO:

The other half of the Nobel Physics Prize went to Riccardo Giacconi of Associated Universities, Incorporated, in
Washington, D-C. He was the first scientist to discover X-ray radiation from areas outside our solar system. The
Swedish Academy praised his work in experiments that resulted in new images from space.

In nineteen-fifty-nine, Riccardo Giacconi began designing rocket-launched telescopes that could measure X-rays
from the Sun. His first successful experiment discovered X-rays in the Scorpio star system.

VOICE ONE:

Since then, scientists have developed more modern X-ray telescopes to discover black holes and other stars.
Those instruments have used versions of Mister Giacconi’s method.

The Italian-born American scientist also helped to develop a satellite to study the sky for radiation. He also built
an X-ray telescope that could provide detailed7 images. It has made a large number of discoveries.

(MUSIC BRIDGE)

VOICE TWO:


Scientists from the United States, Japan and Switzerland won the Nobel Prize for Chemistry. The Royal Swedish
Academy praised them for developing ways to identify and study the structure of large biological molecules9 such
as proteins.

One winner is American John Fenn of Virginia Commonwealth10 University in Richmond. Another winner is
Koichi Tanaka of the Shimadzu Corporation in Kyoto, Japan. The Swedish Academy praised their work in
improving a process called mass spectrometry to study large protein molecules.

VOICE ONE:

Mass spectrometry lets scientists quickly identify substances such as proteins. The process has been used in tests
for illegal drugs or other substances. It has been used on small and moderate-sized molecules for much of the
twentieth century. Mister Fenn and Mister Tanaka were honored for finding two ways to extend the process to
larger molecules.

The American scientist demonstrated a way to change proteins into a gas without losing their structure. He used a
strong electrical field to spread electrically-charged particles containing the proteins. The particles explode into
smaller particles. Then, the smaller particles explode into even smaller ones. Finally, only an electrically-charged
protein remains11.

Mister Tanaka showed that low levels of laser light could change the proteins without breaking them apart. He
was the first person to demonstrate that laser technology could be used for large biological molecules.

VOICE TWO:

Kurt Wuethrich of the Swiss Federal Institute of Technology in Zurich, Switzerland will also receive the Nobel
Chemistry Prize. He was honored for improving a process called nuclear magnetic resonance12. N-M-R providess
information on the three-dimensional structure and scientific qualities of molecules.

Mister Wuethrich developed an idea about how N-M-R could be extended to include biological molecules, such
as proteins. He invented a method of identifying areas in the protein molecule8. He also proposed a way to
measure the distances between these areas. This method is called sequential assignment. Today, it is a necessary
part of all N-M-R structural13 investigations14.

The Nobel committee says all three men have helped to show how proteins operate in cells. It says this has led to
a better understanding of life processes and aided the development of new medicines.

(THEME)

VOICE ONE:

This SCIENCE IN THE NEWS program was written and produced by George Grow. This is Steve Ember.

VOICE TWO:

And this is Bob Doughty. Join us again next week for more news about science in Special English on the Voice
of America.


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点击收听单词发音收听单词发音  

1 doughty Jk5zg     
adj.勇猛的,坚强的
参考例句:
  • Most of successful men have the characteristics of contumacy and doughty.绝大多数成功人士都有共同的特质:脾气倔强,性格刚强。
  • The doughty old man battled his illness with fierce determination.坚强的老人用巨大毅力与疾病作斗争。
2 physiology uAfyL     
n.生理学,生理机能
参考例句:
  • He bought a book about physiology.他买了一本生理学方面的书。
  • He was awarded the Nobel Prize for achievements in physiology.他因生理学方面的建树而被授予诺贝尔奖。
3 gene WgKxx     
n.遗传因子,基因
参考例句:
  • A single gene may have many effects.单一基因可能具有很多种效应。
  • The targeting of gene therapy has been paid close attention.其中基因治疗的靶向性是值得密切关注的问题之一。
4 genes 01914f8eac35d7e14afa065217edd8c0     
n.基因( gene的名词复数 )
参考例句:
  • You have good genes from your parents, so you should live a long time. 你从父母那儿获得优良的基因,所以能够活得很长。 来自《简明英汉词典》
  • Differences will help to reveal the functions of the genes. 它们间的差异将会帮助我们揭开基因多种功能。 来自英汉非文学 - 生命科学 - 生物技术的世纪
5 Fertilized 0f66e269f3e72fa001554304e59712da     
v.施肥( fertilize的过去式和过去分词 )
参考例句:
  • The study of psychology has recently been widely cross-fertilized by new discoveries in genetics. 心理学研究最近从遗传学的新发现中受益匪浅。
  • Flowers are often fertilized by bees as they gather nectar. 花常在蜜蜂采蜜时受粉。
6 genetic PgIxp     
adj.遗传的,遗传学的
参考例句:
  • It's very difficult to treat genetic diseases.遗传性疾病治疗起来很困难。
  • Each daughter cell can receive a full complement of the genetic information.每个子细胞可以收到遗传信息的一个完全补偿物。
7 detailed xuNzms     
adj.详细的,详尽的,极注意细节的,完全的
参考例句:
  • He had made a detailed study of the terrain.他对地形作了缜密的研究。
  • A detailed list of our publications is available on request.我们的出版物有一份详细的目录备索。
8 molecule Y6Tzn     
n.分子,克分子
参考例句:
  • A molecule of water is made up of two atoms of hygrogen and one atom of oxygen.一个水分子是由P妈̬f婘̬ 妈̬成的。
  • This gives us the structural formula of the molecule.这种方式给出了分子的结构式。
9 molecules 187c25e49d45ad10b2f266c1fa7a8d49     
分子( molecule的名词复数 )
参考例句:
  • The structure of molecules can be seen under an electron microscope. 分子的结构可在电子显微镜下观察到。
  • Inside the reactor the large molecules are cracked into smaller molecules. 在反应堆里,大分子裂变为小分子。
10 commonwealth XXzyp     
n.共和国,联邦,共同体
参考例句:
  • He is the chairman of the commonwealth of artists.他是艺术家协会的主席。
  • Most of the members of the Commonwealth are nonwhite.英联邦的许多成员国不是白人国家。
11 remains 1kMzTy     
n.剩余物,残留物;遗体,遗迹
参考例句:
  • He ate the remains of food hungrily.他狼吞虎咽地吃剩余的食物。
  • The remains of the meal were fed to the dog.残羹剩饭喂狗了。
12 resonance hBazC     
n.洪亮;共鸣;共振
参考例句:
  • Playing the piano sets up resonance in those glass ornaments.一弹钢琴那些玻璃饰物就会产生共振。
  • The areas under the two resonance envelopes are unequal.两个共振峰下面的面积是不相等的。
13 structural itXw5     
adj.构造的,组织的,建筑(用)的
参考例句:
  • The storm caused no structural damage.风暴没有造成建筑结构方面的破坏。
  • The North American continent is made up of three great structural entities.北美大陆是由三个构造单元组成的。
14 investigations 02de25420938593f7db7bd4052010b32     
(正式的)调查( investigation的名词复数 ); 侦查; 科学研究; 学术研究
参考例句:
  • His investigations were intensive and thorough but revealed nothing. 他进行了深入彻底的调查,但没有发现什么。
  • He often sent them out to make investigations. 他常常派他们出去作调查。

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