細胞骨架的 的英文怎麼說

中文拼音 [bāojiàde]
細胞骨架的 英文
cytoskeletal
  • : 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...
  • : 骨名詞1 (骨頭) bone2 (物體內部的支架) framework; skeleton 3 (品質; 氣概) character; spirit ...
  • : Ⅰ名詞1 (用來放置東西或支撐物體等的東西; 架子) frame; rack; shelf; stand 2 (毆打; 爭吵) fight;...
  • : 4次方是 The fourth power of 2 is direction
  • 細胞 : cell; sytes; bioplast; cella; [口語] gene; [生物學] cellule; cellule cellulli cellulo ; cello ; k...
  • 骨架 : 1. (骨頭架子) skeleton2. (在物體內部支撐的架子) framework; frame; carcase; carcass; armature; bone; scaffolding
  1. The expression of viral antigens on the cell surface and disruption of the cytoskeleton can cause the cell - to - cell interactions and cellular appearance to change, making the cell a target for immune cytolysis

    病毒抗原在表面表達,以及細胞骨架的破壞能引起相互作用,外形會改變,導致成為免疫殺傷靶位。
  2. A complex cytoskeleton of f - actin filaments and microtubules is often present, and appears to control the structure of the cytoplasm, cell movements, and movements of the cytoplasm and conformation of the membranes

    微絲和微管構成復雜存在於質中,維持著結構,運動,質流動以及構象。
  3. Recently, a great number of biochemical analyses and immunoctochemical experiments have proved that actin presents in nuclei and chromosomes in plants and animals, showing that actin is involved in the nuclear processes such as chromosome condensation, rna transcription and so on

    肌動蛋白主要存在於質中,是微絲重要組成成分,受多種肌動蛋白結合蛋白調控,參與與形態和結構相關多種生理過程。
  4. Development in the research on the relationship between mitochondrial shape, function and cytoskeleton

    線粒體形態和功能與間關系研究進展
  5. Effects of electric field on cell lamellipodia and actin cytoskeleton organization of vascular smooth muscle cell

    電場干預對血管平滑肌形態和細胞骨架的影響
  6. Actin is a high - conserved protein with a wb of 43kd, aniversally exists in eucaryotic cell. f - actin is polymerized by g - actin which participates the formation of the netlike protein system of the complex skeleton in the eucaryotic cell

    微絲( f - actin )是由肌動蛋白單體( g - actin )聚合形成,它參與了真核中復雜網狀蛋白體系形成。
  7. While actm gene is well known to code a - actinin 1 protein which involes in cell skeleten and cell signals

    Actn1編碼輔肌動蛋白1 ,則是公認通訊有關基因。
  8. Protein nitration will induce the changes of protein catalytic activities, cell signaling and cell skeletal structure, and lead to relevant pathological events

    蛋白質硝化將會直接影響蛋白質催化活性、信號傳遞和結構,導致相關病癥發生發展。
  9. Cortical granule ( cg ) is an unique type organelle of mammalian oocyte. during the maturation of oocyte, cgs shows a specific change in distribution. the generally accepted indicator of final cytoplasmic maturation is the line underneath oocyte membrane constituted by cgs

    卵母在成熟和受精過程中,發生一系列明顯變化,微管是一種重要成分,對于哺乳動物卵母減數分裂完成、精子運動、雌雄原核結合是必不可少
  10. The identified proteins are involved in a variety of cellular process including several zinc finger proteins relevant to transcription regulation, such as zinc finger 198, 263, 14, 224, zf6, novel protein similar to transcriptional represser ctcf, and kruppel - like zinc finger protein ; two members of the adams ( a disintegrin and metalloprotease domain ) family ; two members of integrin family ; several proteins involved in the signal transduction, cell - cycle control, chromatin remodeling and transcription repression ; and also some proteins of cell skeleton and some with unknown functions

    鑒定出蛋白包括多個與轉錄調控相關鋅指蛋白,如鋅指蛋白198 、 263 、 14 、 224 、 zf6 、轉錄抑制因子ctcf樣蛋白、幻肚pple樣鋅指蛋白等:兩個含金屬蛋白酶結構域和整合素結合結構域家族成員adam28和adam17 ;兩個整合素家族成員pz整合素和含十個egf樣結構域整合素( tied ) ;與信號轉導通路有關蛋白;與周期調控有關蛋白;與染色體重塑和基因轉錄抑制有關蛋白;蛋白以及其他功能未明蛋白等。
  11. Moreover, the article discusses the mechanism by which promotes plant growth in detail by analysing the cell morpho genesis, expansion of cell wall and the cole of cytokeloton in cell elongation

    另外從形態發生、壁擴展機制和伸長中作用等幾個方面對油菜素內酯促進植物生長及分子生物學機制進行了詳盡論述。
  12. The cytoskeleton is also involved in transduction of the extracellular signals into the nucleaus, and nucleus - mediated regulation of cell functions

    哺乳動物卵母和早期胚胎具有其獨特分佈和功能,使卵母和胚胎呈現出精確時空性變化特點。
  13. Zo - 2 is localized in the cytoplasmic plaque domain of tight junction. zo - 2 interacts with the integral membrane proteins via its first pdz domain or guk. domain

    Zo 2位於緊密連接處質膜內表面,一方面與構成緊密連接跨膜蛋白相互作用,另一方面與發生聯系。
  14. In this review, we summarize the distribution in oocyte and functions of the cytoskeleton in oocyte maturation, fertilization and development of normal and nucleus transferred embryos

    本文綜述了在卵母成熟、受精、早期胚胎發育和核移植發育過程中分佈和作用。
  15. Therefore zo - 2 established a linker between tight junction and cytoskeleton. zo - 2 may regulate the formation or function of tight junction and contact between tight junction and cytoskeleton

    因此zo 2生物學作用可能參與緊密連接形成和功能調節,經而影響形態和運動。
  16. In this review, the present status of the molecular and physiological mechanism of the differentiation and development of cotton fiber is discussed, in which the molecular and physiological mechanism of the producing of the cell turgor, loosening of the cell wall, synthesis of the composition molecules and their incorporation into cell wall, signal of the starting of secondary wall thickening, cellulose biosynthesis, and layout of cellulose microfibril regulated by cytoskeleton are introduced in detail

    摘要本文綜述了棉纖維分化、發育分子生理機制研究現狀,著重討論了棉纖維膨壓產生、鬆弛、結構分子合成和加入、次生壁增厚啟始信號、纖維素生物合成和系統控制纖維素沉積等機制。
  17. Cortactin, a novel member of filament actin binding protein family and the main substrate of non - receptor src protein kinase, plays an important role in the dynamic organization of cell cortex cytoskeleton

    皮層蛋白( cortactin )是一種微絲肌動蛋白結合蛋白,它與肌動蛋白纖絲側面相結合,並直接參與皮層細胞骨架的組建。
  18. One set of proposals theorizes that small platforms made up of a few protein molecules each may be clustered in cell membranes and capable of moving around the cell surface together, most likely with help from the cytoskeleton

    其中一套理論認為,少許蛋白分子組成了小平臺,每一個小平臺都可能聚集在膜上,而它們也可以一起在表面移動(極可能是透過細胞骨架的協助) 。
  19. . . nearly all aspects of cell life are regulated by reversible protein phosphorylation. some examples include metabolic processes, gene regulation, cell cycle control, transport and secretory processes, the organization of the cytoskeleton, and cell adhesion

    蛋白可逆磷酸化幾乎可以調節所有活動,包括代謝過程、基因表達調控、周期調控、運輸和分泌過程、細胞骨架的形成和粘連。
  20. Experiments showed that when a cell ' s cytoskeleton was incapacitated by toxins, some proteins were no longer able to move toward the immune synapse, suggesting that movements of cytoskeletal filaments allow cells to control when and where the proteins accumulate at the synapse

    實驗顯示,當受到毒素破壞而無法運動時,有些蛋白質就再也無法朝免疫突觸移動,這意謂著,藉由纖維運動,來控制蛋白質在突觸聚集時機與位置。
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