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生物醫(yī)學(xué)專業(yè)翻譯案例

英－中

126 Multi-Dimensional Separations Technology for Proteomics

OBJECTIVE: Analysis of the proteome is the next great challenge in biology following sequencing of the genome. Current techniques rely on 2-dimensional gel electrophoresis followed by mass spectrometry, and have difficulty distinguishing among proteins which differ only in post translational modifications. The objective is to develop a multi-dimensional separation technique with broad applicability in proteomic analysis.

DESCRIPTION: Proteins are the functional end products of gene expression and the sequencing of human, bacterial and other genomes will result in next generation biological materials for the Objective Force. Applications, described in detail by recent National Academy and Office of Net Assessment studies, include armor, power, soldier health and performance and sensors. There are two key issues: identification of a useful protein, and its subsequent production and purification.

When working with proteins from samples where genomic information is available (e.g., E. coli), proteins are separated by charge (pI) and molecular weight (MW), i.e., in two dimensions. The protein spot is then subjected to MALDI-TOF mass spectrometry and peaks matched against expected peptides. In the absence of genomic information one automatically assigns different spots to different proteins and performs laborious and expensive mass spectrometric analysis.

 

 

多維分離技術(shù)在蛋白質(zhì)組學(xué)中的應(yīng)用

摘要：蛋白質(zhì)組分析是繼基因組測(cè)序后生物學(xué)領(lǐng)域面對(duì)的下一個(gè)巨大挑戰(zhàn)�，F(xiàn)在的技術(shù)主要依賴于二維凝膠電泳后行質(zhì)譜分析，這一技術(shù)在區(qū)別翻譯后修飾差異的方面遇到了困難。本文目的在于發(fā)展一種廣泛應(yīng)用與蛋白質(zhì)組學(xué)分析的多維分離技術(shù)。

 

簡(jiǎn)介：蛋白質(zhì)是基因表達(dá)的功能終產(chǎn)物，為適應(yīng)選擇壓力，人類、細(xì)菌和其它生物的基因組序列引起下一代生物學(xué)物質(zhì)的產(chǎn)生。其應(yīng)用詳見(jiàn)國(guó)家科學(xué)院和網(wǎng)絡(luò)評(píng)估辦公室最近的研究，包括裝甲、能源、士兵健康和表現(xiàn)以及傳感器。有兩個(gè)關(guān)鍵問(wèn)題：一種有用蛋白的鑒定，及其后續(xù)的產(chǎn)物和純化。在處理基因組信心已知的蛋白質(zhì)樣品時(shí)，蛋白質(zhì)可通過(guò)電荷（pI）和分子量（MW）差異被分離，如在二維空間水平。然后取蛋白點(diǎn)行MALDI-TOF質(zhì)譜后將峰值與預(yù)期的肽段進(jìn)行匹配。在缺乏基因組信息的情況下則自動(dòng)將不同的蛋白點(diǎn)認(rèn)定為不同的蛋白質(zhì)而進(jìn)行煩瑣而昂貴的質(zhì)譜分析。

 

中譯英：

上海市農(nóng)業(yè)科學(xué)院生物技術(shù)研究中心姚泉洪等人的發(fā)明專利"耐高溫β-葡萄糖苷酸酶基因及其獲得方法"榮獲第十九屆上海市優(yōu)秀發(fā)明選拔賽一等獎(jiǎng)。

The invention patent in the name of “Thermo-tolerant β-glucuronidase (GUS) Genes and its Realization Methods”, developed by Yao Quanhong and his partners of Agro-Biotechnology Research Center of Shanghai Academy of Agricultural Sciences, was awarded “the 19th Shanghai Outstanding Inventions” and won the 1^st of the selective trials.

 

　　耐高溫的報(bào)告基因可免除轉(zhuǎn)基因生物體中內(nèi)源背景的干擾，增加轉(zhuǎn)基因檢測(cè)的可靠性，同時(shí)高比活的GUS報(bào)告基因?qū)⒚黠@提高轉(zhuǎn)基因檢測(cè)的靈敏度，使時(shí)空特異、生物或非生物環(huán)境誘導(dǎo)的表達(dá)調(diào)控研究結(jié)果差異更大、數(shù)據(jù)更準(zhǔn)確，并且將大大降低底物的用量，降低檢測(cè)成本。獲得高比活、耐高溫的β-葡萄糖苷酸酶，不僅對(duì)各種轉(zhuǎn)基因生物的檢測(cè)有應(yīng)用價(jià)值，而且將對(duì)功能基因組研究產(chǎn)生巨大的推動(dòng)作用。

The thermo-tolerant reporting gene can exclude the interference of  endogentic background from the trans-gene organisms and increase the reliability of trans-gene identification. Simultaneously, GUS reporting gene with high specific activity can increase the sensitivity of trans-gene identification apparently so that it not only can enlarge the research results deviation of expression and modulation, induced under spatio-temporally specific, biological and abiological circumstances, and make the data more accurate, but also can decrease the dose of substrates greatly and decrease the identification costs. Acquiring thermo-tolerant β-glucuronidase with high specific activity not only has application value to the identification of variant trans-gene organisms, but also will promote the research of functional genome greatly.

　　 "耐高溫β-葡萄糖苷酸酶基因及其獲得方法"專利較大程度上解決了植物基因工程研究中遇到的轉(zhuǎn)基因檢測(cè)效率較低和檢測(cè)成本過(guò)高的問(wèn)題。報(bào)告基因β-葡萄糖苷酸酶具有耐高溫和高比活的特性，能夠顯著降低植物轉(zhuǎn)基因檢測(cè)的成本和假陽(yáng)性，擴(kuò)大了該基因應(yīng)用范圍。另外通過(guò)該項(xiàng)研究推進(jìn)了DNA體外分子進(jìn)化研究的進(jìn)程，建立了高效可靠的DNA改組體系和酶的高通量篩選體系。其中耐高溫的酸性植酸酶被認(rèn)定為上海市高新技術(shù)項(xiàng)目，植酸酶項(xiàng)目整體技術(shù)已實(shí)現(xiàn)轉(zhuǎn)讓，是國(guó)內(nèi)農(nóng)業(yè)生物技術(shù)成果轉(zhuǎn)化方面的成功事例。

    The patent, thermo-tolerant β-glucuronidase (GUS) Genes and its Realization Methods, to a great extent, resolved the problems, low efficiency of trans-gene identification and high identification costs, met during the plant genetic engineering researches. Reporting gene β-glucuronidase, with the  characteristics of thermo-tolerance and high specific activity, can decrease the identification costs of trans-gene plants and efficiency of false positive which enlarges its extent of application. Otherwise, through this research, the course of DNA in vitro evolution is promoted and the high efficient and reliable DNA remodeling system and high throughput screening system of enzymes are constructed. Therein lies the thermo-tolerant acidic phytase which has been cognized as the high and new technique item of Shanghai, and the transfer of whole technology of phytase item has been realized, which is one of the successful cases in the transfer of domestic agricultural biotechnology progeny.