首頁 考試吧論壇 Exam8視線 考試商城 網(wǎng)絡(luò)課程 模擬考試 考友錄 實(shí)用文檔 求職招聘 論文下載
2011中考 | 2011高考 | 2012考研 | 考研培訓(xùn) | 在職研 | 自學(xué)考試 | 成人高考 | 法律碩士 | MBA考試
MPA考試 | 中科院
四六級(jí) | 職稱英語 | 商務(wù)英語 | 公共英語 | 托福 | 雅思 | 專四專八 | 口譯筆譯 | 博思 | GRE GMAT
新概念英語 | 成人英語三級(jí) | 申碩英語 | 攻碩英語 | 職稱日語 | 日語學(xué)習(xí) | 法語 | 德語 | 韓語
計(jì)算機(jī)等級(jí)考試 | 軟件水平考試 | 職稱計(jì)算機(jī) | 微軟認(rèn)證 | 思科認(rèn)證 | Oracle認(rèn)證 | Linux認(rèn)證
華為認(rèn)證 | Java認(rèn)證
公務(wù)員 | 報(bào)關(guān)員 | 銀行從業(yè)資格 | 證券從業(yè)資格 | 期貨從業(yè)資格 | 司法考試 | 法律顧問 | 導(dǎo)游資格
報(bào)檢員 | 教師資格 | 社會(huì)工作者 | 外銷員 | 國(guó)際商務(wù)師 | 跟單員 | 單證員 | 物流師 | 價(jià)格鑒證師
人力資源 | 管理咨詢師考試 | 秘書資格 | 心理咨詢師考試 | 出版專業(yè)資格 | 廣告師職業(yè)水平
駕駛員 | 網(wǎng)絡(luò)編輯
衛(wèi)生資格 | 執(zhí)業(yè)醫(yī)師 | 執(zhí)業(yè)藥師 | 執(zhí)業(yè)護(hù)士
會(huì)計(jì)從業(yè)資格考試會(huì)計(jì)證) | 經(jīng)濟(jì)師 | 會(huì)計(jì)職稱 | 注冊(cè)會(huì)計(jì)師 | 審計(jì)師 | 注冊(cè)稅務(wù)師
注冊(cè)資產(chǎn)評(píng)估師 | 高級(jí)會(huì)計(jì)師 | ACCA | 統(tǒng)計(jì)師 | 精算師 | 理財(cái)規(guī)劃師 | 國(guó)際內(nèi)審師
一級(jí)建造師 | 二級(jí)建造師 | 造價(jià)工程師 | 造價(jià)員 | 咨詢工程師 | 監(jiān)理工程師 | 安全工程師
質(zhì)量工程師 | 物業(yè)管理師 | 招標(biāo)師 | 結(jié)構(gòu)工程師 | 建筑師 | 房地產(chǎn)估價(jià)師 | 土地估價(jià)師 | 巖土師
設(shè)備監(jiān)理師 | 房地產(chǎn)經(jīng)紀(jì)人 | 投資項(xiàng)目管理師 | 土地登記代理人 | 環(huán)境影響評(píng)價(jià)師 | 環(huán)保工程師
城市規(guī)劃師 | 公路監(jiān)理師 | 公路造價(jià)師 | 安全評(píng)價(jià)師 | 電氣工程師 | 注冊(cè)測(cè)繪師 | 注冊(cè)計(jì)量師
繽紛校園 | 實(shí)用文檔 | 英語學(xué)習(xí) | 作文大全 | 求職招聘 | 論文下載 | 訪談 | 游戲
考研_考試吧考研_首發(fā)2011考研成績(jī)查詢
考研網(wǎng)校 模擬考場(chǎng) 考研資訊 復(fù)習(xí)指導(dǎo) 歷年真題 模擬試題 經(jīng)驗(yàn) 考研查分 考研復(fù)試 考研調(diào)劑 論壇 短信提醒
考研英語| 資料 真題 模擬題  考研政治| 資料 真題 模擬題  考研數(shù)學(xué)| 資料 真題 模擬題  專業(yè)課| 資料 真題 模擬題  在職研究生

考研英語歷年真題來源報(bào)刊閱讀100篇 Text99

From Genes to GMOs NO.99

From Genes to GMOs

  Today, genes can be isolated, identified, and cloned, then inserted into other organisms to alter their traits. The process is called genetic engineering. For this technology to develop, a few tools were necessary. In the 1970s, scientists isolated bacterial plasmids. These are hulahoopshaped doublestranded units of DNA that can be moved easily from one cell to another. They also discovered "scissors," called restriction enzymes for cutting the DNA into predictable, reproducible patterns. These enzymes are used to"snip apart" plasmids at very specific DNA sequences, leaving free ends that can be rejoined as the scientist chooses. Restriction enzymes occur in bacteria as part of a natural defense mechanism to guard against invading viruses. Many different types are now available, each cutting DNA at a different sequence of base pairs.

  Once a plasmid is snipped open, a foreign piece of DNA, cut by the same enzyme scissors, can be taped, end to end, into the plasmid using another enzyme, DNA ligase. This is the glue that sticks all the pieces together. The new plasmid is inserted back into a cell, where numerous copies can be made. Introduction of specific genetic material into rapidly reproducing target bacteria can turn the cells into miniature factories for production of useful substances. For example, when the Exxon Valdez oil freighter ran aground in 1989 and spilled thirtyeight million liters of oil, oileating bacteria, created in just this manner, were used in the cleanup operation. The oil was broken down five times faster with help from the genetically modified organisms (GMOs).

  Plasmid technology has also been developed for moving targeted genetic material into plants. In this technique, scientists use the plasmid from a bacterium that causes tumors on plants. In nature, this bacterium transfers genetic material into plant tissues by releasing plasmids onto damaged plant cells. The plasmids enter the plant tissue and produce a swelling, or tumor. Because of this special ability to invade plant tissue, these tumorinducing (TI) plasmids are now used routinely as "taxi cabs" to carry target genes into a wide variety of plant cells, including, for example, corn. The European corn borer is a common pest in this economically valuable crop. When pesticides are used against them, timing is critical. If sprayed too late, the corn borer will already have made a home inside the corn stem and will not be killed. CIBA Research was the first company to develop what has become commonly known as Bt corn. It contains genes that allow it to resist infestation by the corn borer. The Bt genes came from a bacterium called Bacillus thuring ensis . It produces a protein called Bt protoxin. When an insect larva eats these bacteria, the toxin contained in the bacterium attaches to the insect's gut and makes holes in it, and the larva starves to death. Bt corn can be grown using less pesticide, and sometimes even no pesticide.

 

1 2 3 4 下一頁
文章搜索
任汝芬老師
在線名師:任汝芬老師
   著名政治教育專家;研究生、博士生導(dǎo)師;中國(guó)國(guó)家人事人才培...[詳細(xì)]
考研欄目導(dǎo)航
版權(quán)聲明:如果考研網(wǎng)所轉(zhuǎn)載內(nèi)容不慎侵犯了您的權(quán)益,請(qǐng)與我們聯(lián)系800@exam8.com,我們將會(huì)及時(shí)處理。如轉(zhuǎn)載本考研網(wǎng)內(nèi)容,請(qǐng)注明出處。