細胞效應器 的英文怎麼說

中文拼音 [bāoxiàoyīng]
細胞效應器 英文
cell effector
  • : 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(效果; 功用) effect; efficiency; result Ⅱ動詞1 (仿效) imitate; follow the example of 2 ...
  • : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 細胞 : cell; sytes; bioplast; cella; [口語] gene; [生物學] cellule; cellule cellulli cellulo ; cello ; k...
  • 效應 : [物理學] effect; action; influence
  1. The theoretical analysis shows that any human activities, responsible for the changes of rock, air, water, soil and biology inside or outside the caves, will influence inevitably cave animals in terms of such levels as molecule, cell organelle, cell, tissue, organ, system, individual, population, society and ecosystem. these effects can be observed on cave animal ' s shape - building, activity, tissue structure, metabolism, space - time distribution, biothythm, structure of population and society, food chain, bio - relation, diversity of population and society, and function of the above - mentioned levels

    理論分析表明,凡是能夠引起地表和洞穴巖石、空氣、水、土壤、生物等變化的一切人類活動都不可避免地使洞穴動物在分子、、組織、官、系統、個體、種群、群落和生態系統各級層次上產生,這些具體表現在影響洞穴動物形態建成、行為、組織結構、新陳代謝、時空分佈、生物節律、種群和群落結構、食物鏈結構、生物關系、種群和群落多樣性以及各層次所表現的功能的多少、快慢、強弱等方面。
  2. In this paper, we selected a widely used organophosphorous pesticide - - monocrotophos, used goldfish as model animal, and chose the vitellogenin induction of male fish as the main indicator, - gtp of sertoli cell in testes, the changes of microstructures of testis and ultrastructures of pituitary and testis as assistant indicators, we finally built up a screening system to effectively detect the environmental estrogen effect of organophosphorous pesticides, and reported that the monocrotophos had the activity of environmental estrogen for the first time in the world

    因此,本文選擇國內廣泛使用的有機磷農藥? ?久磷,以金魚為模型生物,以雄性金魚卵黃原蛋白產生、精巢支持- gtp酶活性,並輔以生殖軸線官? ?垂體和精巢超微結構的變化,在國內首先建立了有機磷農藥環境雌激素的篩選體系,並首次確認久磷具有環境雌激素活性。
  3. The activated - sludge bioreactor was adopted to degrade the restaurant wastewater. the effects of the dissolved oxygen ( do ), the mean cell residence time ( c ) , the aeration time and the load of sludge on bioreactor were studied

    採用活性污泥生物反對餐飲廢水進行處理,考察了溶氧濃度、平均停留時間、曝氣時間以及污泥負荷對反處理果的影響。
  4. Recent developments in basic and translational immunology open new exciting perspectives for clinical cell and organ transplantation, including the development of novel immunosuppressive agents, new diagnostic tools and validation of biomarkers for the prediction of rejection as well as the induction of tolerance

    最近基礎和移植免疫學的發展為臨床官移植提供了全新的遠景,包括全新免疫抑制藥物的發展、全新的排斥反的診斷手段、有的排斥反預測生物因子、免疫耐受誘導等等。
  5. Housed inside each cell are a number of structures called “ organelles ” that effectively localize specific biochemical reactions, keeping the reactions separate from each other

    內有大量的,它們能有地定位特定的生化反,使之相互隔離。
  6. The results of the application of kii model on the classification of one - dimensional binary series are presented. the cell - based biosensor using fet array provides a non - invasive way for recording the active potential real time, and it can be reach to a single cell

    基於場管陣列的傳感是一種無損測量動作電位的件,可以定位到單個的,實現實時檢測外界電刺激作用下的膜電位的改變。
  7. In this thesis a vision model consist of cellular neural network as feature detector and bp network as classifier is proposed, and experiments are described where genetic algorithm is used to evolve an optimal feature detector in order to aid a classifier to generalize across different conditions. application of cellular neural network to image filtering is also studied

    論文研究了虛擬生物的視覺建模問題,用神經網路cnn來進行視網膜圖象特徵提取,通過遺傳演算法進化cnn模板,實現特徵提取的優化,從而提高了分類的泛化能力和識別果,為生成基於視覺的自適行為提出了一個新的方法。
  8. Insulin integrated with insulin receptor, after the functioning of signaling molecule in cells, which results in signaling transmission within cells, effectors created physiological effect

    摘要胰島素與其受體結合,通過一系列內信號分子的作用,引起內信號轉導,最終到達產生各種生理
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