genetic engineering technology 中文意思是什麼

genetic engineering technology 解釋
遺傳工程技術
  • genetic : adj. 1. 遺傳(學)上的。2. 發生的,發展的;創始的。adv. -ically
  • engineering : n. 1. 工程(技術),工程學。2. 開車技術。3. 土木工程,工事。4. 操縱,管理。
  • technology : n. 1. 技術,工程,工藝。2. 製造學,工藝學。3. 術語(匯編)。
  1. Ethical reflection on technology of genetic engineering

    基因工程技術的倫理沉思
  2. Wamow company provides raw material and oem package of crystal collagen mask for worldwide suppliers. the raw material of crystal collagen is composed lf natural medical ingredients, and is the best beauty and moisturizing product. it utilizes bio - genetic engineering technology to compound ossein, hyaluric acid, and red algapolymer, as well as water solvable collagen, to produce the very best crystal collagen raw material, which is also known as “ fountain of skin “

    華茂貿易公司在中國內地是膠原蛋白水晶面膜原材料最大供應商,而且我們也可以?國內化妝品企業提供水晶面膜生?工藝流程,可以指導客戶組織生?出如:金箔元素系列、水果果素系列、花草茶系列、香熏水晶蠟系列、中華草本系列、海洋元素系列、純晶骨膠原系列等十大系列100多個品種的天然水晶蛋白膠原膜貼成品。
  3. Along with the development of the cytobiology and the molecular biology, and thoroughly research of the biophysics, the biochemistry, the genetics and immunology, it has cultivated the modem biological technology, such al genetic engineering, cellular engineering, enzyme engineering, fermentation engineering and so on, to change biology characteristic to carry on the material transformation, has formed the front biological examination technology : the dna probe, the pcr technology, the molecular mark, the bioluminescence technology, genechip technology and so on the widespread application of these advanced biotechnologies in dairy industry baa impelled the dairying technical transformation, and has been having vital significance to dairy production, research and dairy product security

    摘要隨著細胞生物學和分子生物學的發展及對生物物理、生物化學、遺傳學和免疫學研究的深入,培育了基因工程、細胞工程、酶工程、發酵工程等改變生物特性進行物質轉化的現代生物技術,形成了dna探針、 pcr技術、分子標記、生物熒光技術、基因晶元技術等前沿性的生物檢測技術,其在乳品工業中的廣泛應用,推動了乳業的技術變革,對乳品生產、研究和乳品安全意義重大。
  4. Living vaccine and killed vaccine have some formidable drawback, so biological technology vaccine, for example, gene vaccine and genetic engineering vaccine, is under the circumstances

    現在使用的弱毒苗和滅活苗都存在著一些難以克服的缺點,基因免疫和基因工程疫苗等生物技術疫苗的研製已勢在必行。
  5. The first part comprises industrial pta oxidation process modeling, residual fluid catalytic cracking process modeling, complex distillation modeling and analysis, the application of pta oxidation process soft - sensor technology. in the second one, the infeasibility degree based genetic algorithm is proposed to handle constrained optimization problem in engineering cases and the neighborhood and archive based genetic algorithm and its variant are proposed to treat the multi - objective optimization problem. with that, the pta oxidation process is regarded as a benchmark for the application of the proposed multi - objective optimization genetic algorithm

    論文內容分為兩部分,第一部分對包括三個典型的工業過程, pta氧化反應器、渣油催化裂化反應系統和復合式精餾塔進行分析、建模以及pta氧化過程的軟測量工程實施;第二部分分別提出了基於進化演算法解決工業過程中普遍存在的約束優化問題和多目標優化問題的過程優化演算法? ?基於不可行度選擇遺傳演算法和基於鄰域和存檔操作遺傳演算法,並利用該演算法對工業pta氧化過程操作進行多目標優化研究。
  6. The super - maltose is prepared with the cassava tapioca as the main materials, and manufactured by adopting the modern technology of genetic engineering

    產品特點超高麥芽糖是以優質木薯澱粉為原料,採用生物工程技術精製而成。
  7. In the artificial - planting, the strain of cordyceps militaris is easy to degenerate. at present, the study about the fungus in cordyceps genus are just in the identification of fungi 、 the nutrition analysis 、 the using in medicine and artificial - planting. although, it could reduce the lost by the usual breeding way, we could not solve the problem at basic. about the degeneration of strain, people mostly use the gender - cycling 、 the fusing - cytoplasmic technology and the genetic - engineering method to reform the strain. most of people use moleculor method in the study of relationships among the species and between the species

    用常規選育方法雖然能減少一定的損失,但不能從根本上解決菌種退化這一長期困擾企業生產的問題。針對菌種退化問題,主要是利用有性循環、原生質體融合和遺傳工程等途徑進行菌株改良,應用分子生物學手段只是研究種內、種間的系統關系等,而關于菌種退化遺傳機理的研究尚未見報道。菌種退化是菌類栽培過程中普遍存在的,也是生產當中迫切希望得到解決的問題。
  8. This paper expounds the application of the successful clone of the model animal in the gene therapy, finds out the truth of human being ' s senescence on the molecule level, probes into the discovery of the ft gene with theoretical significance and application value, and introduces the researching progresses and application values of the genetic engineering technology, bioengineering breeding and human - organ regeneration

    闡述了模型動物的成功克隆在基因療法上的應用,在分子水平上揭示了人類衰老的秘密,探討了「 ft 」基因的發現具有的理論意義與應用價值,同時介紹了遺傳工程技術、生物工程育種和人體器官再生的研究進展及其應用價值。
  9. Reviewing the usage of the biodegradation of refractory organic pollutants, including the biodegradation activities under co - substrates conditions, the application of anaerobic - aerobic treatment process, the usage of immobilized microbial cells technology, the appliance of membrane biological reactor and the usage of genetic engineering technology, the principles and advances of these technologies were discussed

    摘要從共基質條件下的微生物降解處理、厭氧好氧發酵工藝、固定化生物催化劑技術、膜生物反應器以及基因工程技術等方面綜述處理難降解有機污染物的降解原理及研究進展。
  10. This subject uses the genetic engineering technology and the newest modern biotechnology to study the genetic engineering lower reaches stage, in order to research and establish the optimum, high density fermentation technology pattern and high efficient isolation and purification model of recombinant proteins from inclusion bodies

    本課題利用基因工程技術,重點從基因工程下游階段著手研究,利用最新現代生物技術研究並建立經優化的高密度發酵工藝模式及高效分離純化包涵體重組蛋白模式。一
  11. Conclusion : we have established a kind of high density fermentation technology pattern and established a kind of high efficient purification model of recombinant proteins produced in escherichia coli as inclusion bodies. at present, producing recombinant proteins with genetic engineering technology have gotten extensive development in our country, this program explored out a practical feasible procedure for the lower reaches of genetic engineering fermentation and purification technology

    目前,利用基因工程技術生產目的蛋白已在我國得到廣泛發展,對于重組產物而言其下游工藝尤其重要,本課題為基因工程下游發酵、純化工藝路線探索出一個切實可行的程序,同時也為基因工程產品產業化放大提供了一個有益的借鑒。
  12. Hisityl - trna synthetase catalyzes the aminoacylation of trnahis in the initial step of protein biosynthesis. the involumen of histidyl - trna synthetase in autoimmune diseases is another feature of the enzyme. in studies, it is reported that purified jo - 1 antigen can increase the detection rate of anti - jo - 1 antibody. but it is difficult to obtain a single component by biochemical extraction. genetic engineering can help us to desolve this problem. after looking up mrna sequence encoding histidyl - trna synthetase in genebank, we used rt - pcr technology to gain its full length dna sequence. the vestor ptybllwas used in the construction of expressing vestor. we transformed the jo - 1 gene into er2566 and used this system to express fusion jo - 1 antigen

    本實驗從人胎盤中提取總rna ,利用rt - pcr技術獲得了編碼jo - 1的基因整長序列,選用impact - cn系統中的ptyb11載體,構建了jo - 1基因的克隆與表達載體,並轉化大腸桿菌er2566 ,經過抗性篩選、分子量大小比較、雙酶切鑒定、和pcr鑒定等多種方法驗證,篩選出了5個陽性克隆。
  13. In this study, we have constructed a new cea dna vaccine and a plasmid of il - 2 by using genetic - engineering technology, and designed the immunostimulatory dna sequence ( iss ). we hope enhance the quantity of cea and the anti ~ cea by using the various vector, cytokine and iss

    本文運用基因工程技術構建了cea的dna疫苗pc工cn ,白細胞介素七的真核表達質粒pci可l 《 ,設計合成了硫代修飾的免疫刺激序列門ss ) ,希望從載體、細胞因子和es方面提高cea的表達和抗ea的產生,從而達到對優a陽性腫瘤免疫防治的目的。
  14. Recombinant dna technology is very important in genetic engineering. in this paper, we have constructed two recombinant vectors by it

    重組dna技術是基因工程中的一項十分重要的技術,本研究即利用這一技術,構建出了兩個重組載體。
  15. The project employs state - of - the - art genetic engineering and related technology to improve the quantity and quality of food and health products. anson biotechnology enterprise, inc. was founded by dr k c cho and mr ricky chan

    這項研究利用先進的基因工程及相關技術以提高糧食及保健食品的產量和素質,協助香港成為國際的生物科技中心。
  16. Chloroplast genetic engineering, a new technology that could overcome many problems associated with nuclear genetic engineering, is of growing interest for bioproduction of valuable materials. it has several advantages including the extraordinarily high level of transgene expression and environmental safety, the favorable environment for prokaryote gene expression, the absence of " position effect " and gene silencing

    葉綠體基因工程是隨著植物遺傳轉化技術發展剛剛興起的生物技術,具有超量表達外源基因,為原核基因提供適宜表達環境,消除「位置效應」和基因沉默,環境安全性好等優點,較更適合用於植物生物反應器方面的研究。
  17. Technology combining genetic engineering of cells with chemical engineering to create artificial organs and tissues such as skin, bone, heart valves, and cartilage for joints

    結合細胞遺傳工程和化學工程以創造器官和組織如:皮膚、骨頭、心臟瓣膜和軟骨關節的技術。
  18. For instance, advance in telecommunication, nano - technology, genetic engineering and biotechnology, and the issue of sustainable environment in the past few decades are just a few notable examples. the development of science and technology not only furnishes us with opportunities to get a deeper understanding and introspect of the universe, but more importantly, it brings unprecedented changes to our daily lives. to celebrate the 15th anniversaries of the hong kong science museum and the hong kong university of science and technology, the two institutions jointly organize a leading scholars lecture series

    現今的科技發展一躍千里,而部份科學技術在過去十多年更有非常顯著的躍進,例如通訊科技納米技術基因遺傳和生物技術以及環境保護等。這些科技發展不但提高我們對這個宇宙的認識和反思,更重要的是它們為我們的生活帶來了重大的變化。適逢今年香港科學館和香港科技大學均慶祝成立十五周年這大日子,因此,兩間機構特別聯合主辦了一系列講座,並邀請了多位出色的科學家分享他們在這15年裡的科研成果,以及這些技術的未來發展對我們生活的影響。
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