AIDS Research
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AOTANI, Masayasu
Jan 14, 2008, 7:13:49 AM1/14/08
to ST...@googlegroups.com, AOTANI, Masayasu
火曜日は今週で終わり、月曜日は来週で終わりです。
休み中は金曜5限の勉強会だけが有ります。
来年度は月・火の5限をA群及び国際交流センターのサービスコース(補講)とします。
詳細はリスト(EERRとSTST)にも流しますが、基本的には月・火・金の練習内容が同じなので、どうなるかは分かりませんが、トータルで今より受講者が増えてもクラスあたりの人数は減らすのが目標です。
何れにせよ、専門の勉強が有るのに、英語までしないといけないので、大変には違い有りません。しかし、習得・習熟に膨大な時間が掛かるのはどんな分野でも同じです。
継続は力なりですが、太く長くやらなければ、継続しても大して出来る様にはならないでしょう。
さて、今週はnormal speedを聴いてみましょう。
Our World — 12 January 2008
Straight ahead on "Our World" ... Potential new
ways of attacking the virus that causes AIDS ... the benefits of making ethanol
from switchgrass ... and a surprising discovery on the East African
savannah:
PALMER: "My intuition was that if you remove
something that feeds on a tree, you'd expect the tree to start to flourish and
do well, and what I was seeing was sort of the exact opposite of
that."
A strange symbiosis, the Consumer Electronics
Show, and more. I'm Art Chimes. Welcome to VOA's science and technology
magazine, "Our World."
In what is being hailed as a major step in the
fight against HIV/AIDS, U.S. researchers have identified 273 proteins that are
key to reproduction of the virus that causes AIDS. That gives scientists many
potential new targets for drugs to disrupt the sophisticated life cycle of the
virus.
ELLEDGE: "The set of proteins will provide a lot
of insight into how the virus actually functions. And people may be able to use
that information to somehowrcumvent the virus. But the other way you can look at
it is that now there are more targets. They're potential targets."
Stephen Elledge of Harvard Medical School is the
lead author of the paper describing the discovery, which was published Thursday
online in SciencExpress.
HIV has little genetic material of its own, so
when it infects a cell, it hijacks the cell's genetic code to reproduce. This
new study identifies some of the cell proteins the virus uses in that
process.
Speaking in a Science magazine podcast, Elledge
said current anti-AIDS drugs generally focus on the virus itself.
ELLEDGE: "But the problem is that HIV is a highly
mutable virus, so it can change the target of the drug so that it no longer
binds the drug that well."
Which is why Elledge focused on human proteins.
Of the 273 he identified as being essential to HIV reproduction, only 36 were
previously known.
Leading AIDS researchers hailed Elledge's work.
HIV co-discoverer Robert Gallo called it "terrific." Dr. Anthony Fauci, head of
the U.S. National Institute of Allergy and Infectious Diseases described it as
"elegant science," but he told The New York Times that it's too soon to tell if
this laboratory discovery will actually prove useful in treating
patients.
Elledge also admits there could be side effects
to any treatments developed using his discovery.
ELLEDGE: "And the downside, the potential
downside, is that if the organism -— us — needs that particular protein, [then]
if you inhibit it, you might get sick. And of course, that's true for any drug.
If anyone finds a drug target and they decide they're going to make a drug that
inhibits it, it has to be tested in people to see how people tolerate having
that pathway reduced."
To find the 273 proteins that are part of the HIV
life cycle, Elledge and his colleagues screened thousands of possibilities using
a technique honored with a Nobel Prize a year ago, RNA interference, which can
be used to effectively shut down one gene at a time within a cell. Then the
researchers infected the cell with HIV to see if the virus could
reproduce.
ELLEDGE: "And we did this for over 20,000
human proteins, all the known, currently known proteins. We wanted to cover
everything, we wanted to leave no stone unturned to see what the list looked
like. And that's how we did it."
Stephen Elledge, of Harvard Medical School and
the Howard Hughes Medical Institute, says the same approach could be used to
help find targets in the fight against other virus infections as
well.
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青谷英語のすべて
「英語勉強力: 成功する超効率学習」
(DHC出版のCDBook)
http://aoitani.net/dhc.html
**********************************
青谷正妥(あおたにまさやす)♂
プロモーションビデオ(衛星放送録画:個人使用のみ)
http://aoitani.net/Go_on_AOTANI.wmv
-----------------------------------------------------------
『下に出ていますが、年20回発行で、一回400字という、非常に
slowなメルマガを始めました。』
幸運の青い谷、京大のゴールデンボーイ: 青谷正妥
http://aoitani.net/
(来ると不幸になるホームページ:但し、虫はいません。)
・英語のカリスマ青谷正妥:TOEFL,TOEIC満点達成
http://aoitani.net/TOEFL_iBT.html
・英語のコンビニ:目からウロコの英語情報(メールマガジンです。)
http://www.mag2.com/m/0000113907.htm
・留学と英語学習のメーリングリスト"EERR"
http://aoitani.net/ の登録ボックスより
・「人は不特定多数に名刺を配り続けると有名になれるのか?」
http://www.japantoday.com/jp/newsmaker/2
-----------------------------------------------------------
青谷英語のすべて
「英語勉強力: 成功する超効率学習」
(DHC出版のCDBook)
http://aoitani.net/dhc.html
**********************************
青谷正妥(あおたにまさやす)♂
プロモーションビデオ(衛星放送録画:個人使用のみ)
http://aoitani.net/Go_on_AOTANI.wmv
-----------------------------------------------------------
『下に出ていますが、年20回発行で、一回400字という、非常に
slowなメルマガを始めました。』
幸運の青い谷、京大のゴールデンボーイ: 青谷正妥
http://aoitani.net/
(来ると不幸になるホームページ:但し、虫はいません。)
・英語のカリスマ青谷正妥:TOEFL,TOEIC満点達成
http://aoitani.net/TOEFL_iBT.html
・英語のコンビニ:目からウロコの英語情報(メールマガジンです。)
http://www.mag2.com/m/0000113907.htm
・留学と英語学習のメーリングリスト"EERR"
http://aoitani.net/ の登録ボックスより
・「人は不特定多数に名刺を配り続けると有名になれるのか?」
http://www.japantoday.com/jp/newsmaker/2
-----------------------------------------------------------
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