細胞工程 的英文怎麼說

中文拼音 [bāogōngchéng]
細胞工程 英文
cell engineering
  • : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
  • : Ⅰ名詞1 (胞衣) afterbirth2 (同一個國家或民族的人) fellow countryman; compatriot Ⅱ形容詞(同胞...
  • : Ⅰ名詞1 (工人和工人階級) worker; workman; the working class 2 (工作; 生產勞動) work; labour 3 ...
  • : 名詞1 (規章; 法式) rule; regulation 2 (進度; 程序) order; procedure 3 (路途; 一段路) journe...
  • 細胞 : cell; sytes; bioplast; cella; [口語] gene; [生物學] cellule; cellule cellulli cellulo ; cello ; k...
  1. Evaluation of bladder acellular matrix graft used as cell carrier for tissue engineering in rabbits

    兔膀胱無基質作為組織載體的評價
  2. Different from mammals, the early embryos of fish can not be preserved for the long period at the very low temperature ( - 196 ). therefore, three methods were usually applied to cryogenic preservation of the fine and rare species of fish : 1 ) perserving fish spermatozoon in cryogenic condition. researchers have had systematically studied on this technique for many years, and this technique has been utilized in application and made a lot of effects ; 2 ) combining with the techniques of cell engineering ( nuclear transplantation and electric fusion etc. ), and through the process of culturing histiocyte of fish, cryopreservation and re - culture after thawing, carrying out somatic cell breeding of fish. the past studies showed that the nucleolus of somatic cells of fish have totipotency

    多年來,國內外學者對各種魚類精液的冷凍保存進行了大量的系統研究,目前這項技術已達到實用水平,並日益發揮作用;二是對魚類培養的組織冷凍保存,通過魚類的培養、超低溫凍存、解凍后再培養過,結合細胞工程技術(如核移植、電融合等)進行體育種;大量的研究結果表明魚類體核具有發育的全能性,隨著培養技術、細胞工程技術日益發展成熟,完全具備實現魚類物種種質長期保存的理論基礎和技術條件。
  3. The reasults are summed up as following : 1 the study on chromosomes and mitoses of bmn cells the cell line, bmn, is a silkworm cell line widely used in silkworm molecular genetics, cell engineering, gene engineering and baculovirus expression system but whose genetics and cytobiology studies are nearly untouched. the chromosomes and mitoses of the bmn cells are researched by the air - drying method and culturing cells on cover glasses

    同時,還通過原代培養實驗對新的家蠶胚胎系的建立進行了探索和嘗試,並對家蠶胚胎原代培養過中出現的和組織類型進行了觀察、探討與研究。 1bmn有絲分裂及染色體研究bmn是家蠶分子遺傳學,細胞工程、基因和桿狀病毒表達系統中廣泛應用的家蠶,但其遺傳學和生物學背景知之甚少。
  4. We have an advantage in vine - cell engineering and artificial cultivation of chinese caterpillar fungus

    細胞工程和人培養全蟲草是我們的優勢。
  5. 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,培育了基因細胞工程、酶、發酵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。
  6. In this paper, the whole process of it microsporogenesis and male gametophytes development was observed with microscope to sure weather stamen development is normal. at the same time, in order to provide techniques on biotechnology conservation and the foundation of its resources gene pool in cell engineering, its techniques on culture in vitro was studied

    本論文通過對蝟實小孢子發生和雄配子體發育全過進行觀察,探尋蝟實的雄性器官的發育是否是蝟實有性生殖的薄弱環節,並對蝟實的離體培養進行了初步的研究,為蝟實生物技術保存、建立蝟實種質資源基因庫提供細胞工程方面的途徑和技術。
  7. In terms with the principle of fusarium oxysporiun caused plant disease : bundles were blocked and fusarid acid killing cells was formed by hyphae so that caused water metabolism abnormal and plant wilting. in order to find out effective method of anti - fiisarium oxysporuin, long ya lillium was taken as material with plant tissue culture and genetic transformation techniques in this paper

    針對尖孢鐮刀菌的致病機理:菌絲阻塞維管束引起水分代謝失常和菌絲在植物體內產生毒素(鐮刀菌酸)損害膜結構造成代謝失常,從而導致植物萎焉。本實驗以龍牙百合為研究對象,應用細胞工程中的離體培養方法並結合轉基因技術,以期找到抗尖孢鐮刀菌的有效途徑。
  8. The invention of the technique of efficient rapid non - test tube plant clone ternpc has been put in the 50 memorabilia of science and technology development of china. li changxiao is now the executive director of china hi - new technology industrialization research association, member of the standing committee of hi - new technical expertise committee of china agricultural technology spreading association, executive director of china quality inspection association

    年至年又在省級生物技術專業研究機構轉向細胞工程中植物組織培養應用研究,連續十年從事大規模植物組培試管快繁技術作,曾擔任西北生物技術協作委員會委員寧夏組織培養協作組組長,生物學會副理事長,成為生物技術植物組織培養方面的專家。
  9. Then he changed his direction to plant tissue culture in a biotech research institute in 1984 and went on with it in the next ten years. during those times he specialized in tissue culture and published more than 30 scientific research theses. he was the member of biotech committee of northwest five province, leader of tissue culture cooperative group, deputy director of ningxia biology society

    1 9 8 4年至1 9 9 3年又在省級生物技術專業研究機構轉向細胞工程中植物組織培養應用研究,連續十年從事大規模植物組培試管快繁技術作,曾擔任西北生物技術協作委員會委員、寧夏組織培養協作組組長,生物學會副理事長,成為生物技術植物組織培養方面的專家。
  10. Some experience of improving quality of experiment teaching in plant cell engineering

    提高植物細胞工程實驗教學質量的一些體會
  11. Breeding of maize inbred lines and hybrids with the trait of salt - tolerance via cellular engineering

    利用細胞工程技術培育玉米耐鹽自交系及單交種
  12. The plant cell engineering technology will be a important supplementary means in rapeseed breeding in the future

    通過分析提出了在今後的油菜育種中,植物細胞工程技術將是一種重要的輔助育種手段。
  13. The paper summarized the achievements of rapeseed by plant cell engineering technology at home and abroad in lately 20 years

    摘要綜述了近20年來國內外利用植物細胞工程技術進行油菜育種所取得的成就。
  14. Our researches focus on plant developmental biology and probe to use the techniques of gene and cell engineering to improve plants

    植物發育生物學研究和用植物轉基因技術和細胞工程技術探索對植物的改良
  15. Zerhouni had established a privately funded institute for cell engineering at johns hopkins to allow scientists there to study human embryonic stem cells

    因為他在約翰霍普金斯大學設立一個私人的細胞工程研究所,好讓科學家可以研究人類胚胎幹
  16. The technique of insect cell culture, one of the bases of cell engineering, is a valuable method of modern experiment biology

    昆蟲培養技術作為細胞工程基礎之一,是現代實驗生物學上極有價值的手段之一,廣泛應用於生物學、醫學及農業的各個領域。
  17. This paper reviewed and discussed the application and advances of fermentation engineering, enzyme engineering, cell engineering and gene engineering in flavor and fragrance industry

    本文闡述了發酵、酶細胞工程和基因在香料中的應用,並控討了生物技術在香料中的應用前景。
  18. Aiming at the present situation in experimental teaching of plant cell engineering, this paper had proposed some suggestions and methods for the improvement of experimental teaching in plant cell engineering

    摘要針對植物細胞工程實驗教學中的實際情況,提出了提高植物細胞工程實驗教學質量的一些做法和建議。
  19. Modern biotechnology, represented by gene engineering, cell engineering, enzyme engineering, fermentation engineering and protein engineering, is the forefront for scientific innovation in the 21st century. developing ? iological technique and its relevant industry vigorously has become the core of investment and keystone in economic strategy of many countries around the world. a series of preferential policies and regulations have been set down in order to foster and encourage its development

    以基因細胞工程、酶、發酵和蛋白質技術為代表的現代生物技術是21世紀世界科技創新的前沿,大力發展生物技術及其產業已成為各國投資發展的核心產業及經濟戰略重點,並制定了一系列優惠的政策和法規,扶植和鼓勵其發展。
  20. For example, in 20 centuries 70 time, as the progress of molecular biology, be united in wedlock with project technology photograph, open up biology technology new field : gene recombines technology of cross of technology, pcr technology, dna and technology of protein alignment analysis, element to wait, the birth that promoted gene project, protein project, cell project, enzymatic project to wait and development

    例如,在20世紀70年代,隨著分子生物學的進步,與技術相結合,開辟了生物技術新領域:基因重組技術、 pcr技術、 dna和蛋白質序列分析技術、分子雜交技術等,促進了基因、蛋白質細胞工程、酶等的誕生和發展。
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