时间:2019-01-23 作者:英语课 分类:一起听英语


英语课

病毒存在了多少年,我们人体内有多少基因?这些科学问题来让我们揭晓。


William: Hello and welcome to 6 minute English. I hope you're ready for another five


minutes and fifty-five seconds of wonderful English language conversation


about an interesting topic from BBC News. I'm William Kremer.


Helen: Hello, I'm Helen Hu. Today we're talking about genes 1...


William: Oh right! Is that why we're both wearing jeans?


Helen: No, no, not that kind of jeans. Genes spelled G-E-N-E-S – these are the


molecules 2 in our body which hold genetic 3 information. So genes tell our


bodies how they should grow and develop.


William: Right, and genes are what parents hand down to their children. We carry


genes from one generation to the next.


Helen: Now before we go any further, it's time for our weekly quiz. Were you very


good at science at school, William?


William: Not particularly.


Helen: Good! You'll be rubbish at this then. OK, the question is: How many genes do


human beings have? Is it


a) between 10,000 and 25,000 or is it


b) between 100,000 and 250,000 or


c) between 1 million and 2.5 million


William: OK, well I have no idea so I'm going to go for c) between 1 million and 2.5


million.


Helen: OK, well the answer will be at the end of the programme. Now, a new


scientific study has looked at the genes of lots of animals and found traces of


the same viruses that existed a long time ago.


William: Right, they found traces – signs that something happened or existed. And the


traces they found were of viruses, the tiny creatures that spread infectious


diseases. So Helen, they think that these viruses have existed for millions of


years then...? 


6 Minute English © British Broadcasting Corporation 2012


Page 2 of 4


bbclearningenglish.com


Helen: Exactly. Let's listen to a clip from BBC correspondent David Shukman. See if


you can hear which animals the researchers studied:


BBC correspondent David Shukman:


Researchers from Oxford 4, New York and Belgium have investigated the genes of 38


mammals – including humans, mice, elephants and dolphins, and they've found that most of


them share traces of the same ancient viruses. The work has established that at least one


virus infected our common ancestors as long as one hundred million years ago.


Helen: So, did you hear which animals were mentioned?


William: The researchers investigated 38 different mammals including humans, mice,


elephants and dolphins.


Helen: That's right. And by comparing the genes of the animals they've concluded


that there was at least one virus that infected our ancestors perhaps a


hundred million years ago.


William: Wow. An ancestor is a person or plant that is related to something today but


that lived earlier. So... so what? So what, Helen? What's the significance of


that?


Helen: Well, for a start it suggests that these viruses are incredibly good at survival.


And as we will hear in our next clip, these diseases have not only survived,


but they also have evolved – they have changed and adapted slowly over a


long time.


William: OK, so let's hear the next clip now. See if you can hear the word that David


Shukman uses instead of the word viruses.


BBC correspondent David Shukman:


The scientists found that these micro-organisms have adapted to stay within their host cell,


where they have thrived. So within the double helix of our DNA 5 lies not only a legacy 6 of past


infections but also a miniature eco-system in which the viruses live on and evolve.


William: David Shukman used the word micro-organisms instead of the word viruses. A


micro-organism is a very very small creature.


Helen: He said the scientists found that the micro-organisms had thrived, meaning


they had prospered 7, they had developed well. The research suggests that our


genes actually help viruses to survive and evolve. And some viruses have


developed positive outcomes. For example the protein syncytin evolved from


a virus and has helped develop the female placenta.


William: OK, so these micro-organisms can be good things?


Helen: Well, they are not exactly 'good', but they have helped us to evolve.


William: Ah sorry, I wasn't being very 'scientific'! Let's hear the final clip now, and


we're going to hear the opinion of the senior researcher on the project. See if


you can hear why he thinks his research could be useful in the future.


6 Minute English © British Broadcasting Corporation 2012


Page 3 of 4


bbclearningenglish.com


BBC correspondent David Shukman:


According to the senior author of the study, Dr Robert Belshaw of Oxford University,


understanding these survivors 8 from the distant past may provide clues to the early detection


of cancers or infections.


William: Robert Belshaw thinks understanding the viruses might help the early


detection of cancers or infections – they might help us notice these diseases


early on.


Helen: OK, time to hear the answer to our quiz. I asked you how many genes human


beings have and you choose c) between 1 million and 2.5 million. Well, the


answer is a) 10,000 – 25,000.


William: Huh.


Helen: Ok, I can tell you're not that interested in this so why don't you do something


useful and remind us of today's vocabulary?


William: Okey-doke.


genes


a trace


a virus


an ancestor


to evolve


a micro-organism


to thrive


detection


Helen: If you would like to know more about these words, download our pdf script on


bbclearningenglish.com.


William: Goodbye!


Helen: Bye!



n.基因( gene的名词复数 )
  • 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
分子( molecule的名词复数 )
  • 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。
adj.遗传的,遗传学的
  • 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。
n.牛津(英国城市)
  • At present he has become a Professor of Chemistry at Oxford.他现在已是牛津大学的化学教授了。
  • This is where the road to Oxford joins the road to London.这是去牛津的路与去伦敦的路的汇合处。
(缩)deoxyribonucleic acid 脱氧核糖核酸
  • DNA is stored in the nucleus of a cell.脱氧核糖核酸储存于细胞的细胞核里。
  • Gene mutations are alterations in the DNA code.基因突变是指DNA密码的改变。
n.遗产,遗赠;先人(或过去)留下的东西
  • They are the most precious cultural legacy our forefathers left.它们是我们祖先留下来的最宝贵的文化遗产。
  • He thinks the legacy is a gift from the Gods.他认为这笔遗产是天赐之物。
成功,兴旺( prosper的过去式和过去分词 )
  • The organization certainly prospered under his stewardship. 不可否认,这个组织在他的管理下兴旺了起来。
  • Mr. Black prospered from his wise investments. 布莱克先生由于巧妙的投资赚了不少钱。
幸存者,残存者,生还者( survivor的名词复数 )
  • The survivors were adrift in a lifeboat for six days. 幸存者在救生艇上漂流了六天。
  • survivors clinging to a raft 紧紧抓住救生筏的幸存者
学英语单词
achalasia of cricopharyngeus muscle
adjectival noun
agons
ahungalla
aircraft range
airfield light
anhydro ring
anti - virus software
azimuth adjusting screw
bisoprolol
Buprestoidea
calliferous
canal reach
ceratophrys cornuta
child element
clear scan radar
coated product
combined scouring and milling
constructive advertising
doby
dramshop liability
egidius
electricidad
entrouble
equivalence of ideals in the narrower sense
erectionerror
exopodite
exteroceptive impulses
fluoridizing
fractional coin
fractionated gain
fT value
generalizability
glallzing
Goldoni, Carlo
graphite for spectroanalysis
Guangxi talc
hardware engineering
Hayti
held retention water
homogomph articulation
Hornslet
host interface
Houghton Lake
IMDG
inscribed figure
instantaneous course
Kundabwika Falls
lacquer tree
lefties
leptometopa latipes
market-facing
mean lower low-water springs
merchandising policy
microbacillus
mosquito cycle
Mugrum
neopluralism
oak-leaved goosefeet
oil tray
olfactory perception
opens into
Osmanthus suavis
outdoorsman
overriding royalty interest
pprus
prolatives
pyrus xerophila yu
quality symbol
quick-steaming boiler
re-adzing of tie
Readlink
redeposit
reinstallation
relearning method
request bus
revenue from state enterprise
rock kangaroos
roket
Rumex trisetifer
Salinas, Pta.
sawtyr
Section Eights
self-punishing
slow-burning
small coal
south cardinal mark
stabilized non-operating temperature
standard arrival
stenopetala
tabular data presentation
tactual displays
telemetry band
Tony Danza
transcreation
transistor flasher
Trisetum clarkei
unconfinable
wet out
widden
zonatuss
Zuban'ya