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VOICE ONE:
This is SCIENCE IN THE NEWS, in VOA Special English. I'm Doug Johnson.
VOICE TWO:
And I'm Mario Ritter. Today, we will tell about the two thousand nine Nobel Prizes for discoveries in science. We also will tell about progress against acquired immune deficiency syndrome1, better known as AIDS.
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VOICE ONE:
The Nobel Prizes for Chemistry, Physics and Physiology2 or Medicine are to be presented in Sweden this week. The winners were chosen by the Royal Swedish Academy of Sciences. They will receive their prizes at ceremonies in Stockholm on December tenth. The winners in each area of science will share a prize valued at one million four hundred thousand dollars.
Nobel week is a busy time in the Swedish capital. The winners make speeches, meet with reporters and attend parties. But the most important event is when the King of Sweden presents the honorees with their awards.
VOICE TWO:
Elizabeth Blackburn
Among those expected to accept their prizes are Elizabeth Blackburn, Carol Greider and Jack3 Szostak. They share the Nobel Prize for Physiology or Medicine. This year, it is presented for solving a problem in biology.
The three honorees are working in the United States. Elizabeth Blackburn does her research at the University of California in San Francisco. Carol Greider works at the Johns Hopkins University School of Medicine in Maryland. Jack Szostak works from the Harvard University Medical School, the Massachusetts General Hospital and the Howard Hughes Medical Institute.
VOICE ONE:
The Royal Swedish Academy of Sciences says it is honoring the researchers for showing how telomeres and the enzyme4 that makes them protect chromosomes6.
A telomere is a structure of genetic7 material. Telomerase is the enzyme in the body that builds the telomeres. A chromosome5 contains molecules8 of deoxyribonucleic acid, better known as DNA9. This material carries the genetic information that makes us who we are. A telomere is at each end of a chromosome. Telomeres are necessary for a cell to divide.
The identification of telomeres about twenty years ago helped scientists understand how cells operate. But it was a finding that did not at first seem important to everyday life. Scientists now know that telomeres are involved in two subjects of widespread interest – aging and cancer.
VOICE TWO:
The winners of the Nobel Prize in Physiology or Medicine were involved in the findings. Elizabeth Blackburn and Jack Szostak discovered the exact order of genetic information that protects chromosomes from ruin. They found that cells age if telomeres are shortened. For example, the first genetic copy of a sheep had shortened telomeres. The cloned animal started to suffer from arthritis10 at an age that some experts thought was unusually early for a sheep.
Miz Blackburn and Carol Greider identified the enzyme telomerase. Cells do not die as fast if a lot of telomerase is produced, so aging is slowed. But studies suggest that cancer cells may use telomerase to divide in abnormal ways.
The winners of the Nobel Prize in medicine are all American citizens. Mister Szostak came to the United States from England. Miz Blackburn was born in Australia and is also an Australian citizen.
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VOICE ONE:
Another woman, an Israeli, is a winner of the Nobel Prize in Chemistry. She is Ada Yonath of the Weitzmann Institute of Science in Rehovot, Israel.
She is sharing the prize with two male researchers. They are Venkatraman Ramakrishnan of the MRC Laboratory of Molecular11 Biology at Cambridge University in England, and Thomas Steitz of Yale University in New Haven12, Connecticut. Mister Ramakrishnan is a British citizen, and Mister Steitz is an American.
The Royal Swedish Academy of Sciences is honoring all three researchers for studies of the structure and operation of a kind of cell called a ribosome. The Academy said the three were chosen for having shown what a ribosome looks like and how it operates at the atomic level.
VOICE TWO:
The researchers demonstrated how information in pieces of DNA is translated into the thousands of proteins contained in living matter.
Each researcher worked independently. They made maps that placed hundreds of thousands of atoms in the ribosomes. Some of their work involved X-rays produced by particle accelerators, devices that bring atomic particles into high energies.
The Royal Swedish Academy says the DNA in cells contains the designs for how people, plants and bacteria look and operate. But if there were nothing beyond the DNA in cells, life could not exist.
VOICE ONE:
Ribosomes change the design into living matter of all kinds. They make proteins including oxygen-carrying blood substances, antibodies to protect against disease, and substances that break down sugar.
Many antibiotic13 medicines currently in use block bacterial14 ribosomes from action. Bacteria cannot survive without bacterial ribosomes. Each Nobel Prize winner showed how ribosomes tie or bind15 with antibiotics16. The Academy says new medicines could result from the work of the Nobel Prize winners in chemistry.
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VOICE TWO:
The Nobel Prize in Physics is going to three scientists who brought the light of knowledge to the subject of light. Half the prize money will go to Charles K. Kao. He did his award-winning work at the Chinese University of Hong Kong, China and at the Standard Telecommunication17 Laboratories in Britain.
The other two winners are Willard Boyle and George Smith. They did their research at Bell Laboratories in Murray Hill, New Jersey18. Mister Boyle and Mister Smith will share the remaining prize money equally.
VOICE ONE:
Mister Kao discovered how to transmit, or send, light signals over long distances through optical glass fibers20. He learned to get light to go far enough down a glass fiber19 to pass on signals. The signals can travel great distances. His work has made possible the development of communications carried around the world by the Internet.
When Mister Kao began his research twenty years ago, fiber optic materials already existed. But they were short by comparison with today. Mister Kao's work helped result in the fact that, if lined up, the current optical cables would make a fiber more than nine hundred sixty-five million kilometers long.
VOICE TWO:
A CCD image sensor21 built by engineers at Bell Labs
Mister Boyle and Mister Smith invented the charge-coupled device, or CCD. The device can turn light into electrical signals. It provided technology for telescopes, medical images and digital cameras. The Royal Swedish Academy says the researchers' work has made possible great developments in those areas.
For example, doctors are able to use better instruments to examine organs in the body. And, many people now use cameras that do not require film.
Mister Kao was born in Shanghai, China. He is a citizen of the United States and Britain. Mister Boyle was born in Canada and is a citizen of Canada and the United States. Mister Smith is an American.
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VOICE ONE:
December first was World AIDS Day. A new report about AIDS and the virus responsible for the disease provided some reason to celebrate.
Experts say the number of new H.I.V. infections has fallen by seventeen percent since two thousand one. H.I.V. is short for the human immunodeficiency virus. The experts say estimates of new H.I.V. infections are down by about fifteen percent in Africa, south of the Sahara Desert. And, new infections have decreased almost twenty-five percent in East Asia. In Eastern Europe, the number of new H.I.V. infections has leveled off. But new infections appear to be rising again in some countries.
VOICE TWO:
The numbers come from a report by the UNAIDS program and the World Health Organization. It says H.I.V.-related deaths appear to have reached their highest level in two thousand four. Since then, deaths have fallen by around ten percent as more people have received treatment.
Experts credit the good news in the report, at least in part, to prevention programs. Yet treatments and population growth mean that more people than ever are living with H.I.V. The latest estimates say almost thirty-three million five hundred thousand have the virus. There were two million AIDS-related deaths last year, and two million seven hundred thousand new infections.
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VOICE ONE:
This SCIENCE IN THE NEWS was written by Jerilyn Watson and Caty Weaver22. Our producer was Brianna Blake. I'm Doug Johnson.
VOICE TWO:
And I'm Mario Ritter. Listen again next week for more news about science in Special English on the Voice of America.
1 syndrome | |
n.综合病症;并存特性 | |
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2 physiology | |
n.生理学,生理机能 | |
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3 jack | |
n.插座,千斤顶,男人;v.抬起,提醒,扛举;n.(Jake)杰克 | |
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4 enzyme | |
n.酵素,酶 | |
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5 chromosome | |
n.染色体 | |
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6 chromosomes | |
n.染色体( chromosome的名词复数 ) | |
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7 genetic | |
adj.遗传的,遗传学的 | |
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8 molecules | |
分子( molecule的名词复数 ) | |
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9 DNA | |
(缩)deoxyribonucleic acid 脱氧核糖核酸 | |
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10 arthritis | |
n.关节炎 | |
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11 molecular | |
adj.分子的;克分子的 | |
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12 haven | |
n.安全的地方,避难所,庇护所 | |
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13 antibiotic | |
adj.抗菌的;n.抗生素 | |
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14 bacterial | |
a.细菌的 | |
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15 bind | |
vt.捆,包扎;装订;约束;使凝固;vi.变硬 | |
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16 antibiotics | |
n.(用作复数)抗生素;(用作单数)抗生物质的研究;抗生素,抗菌素( antibiotic的名词复数 ) | |
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17 telecommunication | |
n.电信,远距离通信 | |
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18 jersey | |
n.运动衫 | |
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19 fiber | |
n.纤维,纤维质 | |
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20 fibers | |
光纤( fiber的名词复数 ); (织物的)质地; 纤维,纤维物质 | |
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21 sensor | |
n.传感器,探测设备,感觉器(官) | |
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22 weaver | |
n.织布工;编织者 | |
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