1) right-side out vesicles
原位膜微囊
2) microcapsule membrane
微囊膜
1.
Preparation and characterization of magnetic and thermo-responsive microcapsule membranes;
磁性温度感应微囊膜的制备与表征
2.
Progress of research and application of pH-responsive microcapsule membranes;
pH响应型微囊膜的研究与应用进展
3.
Experimental investigations were carried out systematically to prepare small-sized, monodispersed and porous microcapsule membranes by using SPG (Shirasu-Porous-Glass) membrane emulsification and interfacial polymerization.
小粒径单分散中空储库结构微囊膜的制备具有重要学术意义和实用价值。
3) caveolae
质膜微囊
1.
Separation of Caveolae and Atomic Force Microscopy Study of Them;
质膜微囊的分离及原子力显微镜研究
2.
Previously, we have found that lipid rafts/caveolae were essential for IGF-1 receptor signaling during 3T3-L1 preadipocytes differentiation induction.
已有的大量文献表明,脂质筏和质膜微囊(统称为脂质微区)在不同的跨膜信号通路中都起到十分重要的作用。
3.
Lipid rafts and caveolae are found to be essential for insulin-like growth factor (IGF)-1 receptor signaling during 3T3-L1 preadipocyte differentiation induction.
目前的研究表明膜上受体在介导跨膜信号转导时,通常是在细胞质膜上的脂质筏和质膜微囊结构中进行的。
4) Lipid-coated microbubbles
脂膜微囊
1.
The affinity of lipid-coated microbubbles for the rat brain after radiofrequency lesion;
脂膜微囊对大鼠脑射频损伤区亲和性的研究
5) plasma membrane vesicles
质膜微囊
1.
The relationship between Ca 2+ dependent ATPase(Ca 2+ ATPase)and ATP dependent Ca 2+ transport in plasma membrane vesicles isolated from pulp cell of Malus pumila fruits and the influence of hormones on this enzyme were investigated by using 45 Ca 2+ tracing.
应用45Ca2 + 示踪法研究了苹果果肉质膜微囊依赖于Ca2+ 的ATP 酶(Ca2+ATP酶)活性与Ca2+ 运输之间的关系及激素对该酶活性的影响。
6) membrane vesicles
膜微囊
1.
The results showed that the plasma membrane vesicles prepared by two kinds of density gradients had high purity and were not polluted by mitochondria and tonoplast, the tonoplast vesicles, although with no mitochondria, were adulterated by a little plasma membrane vesicles.
分别以不连续蔗糖[220/360/450(g/L)]和葡聚糖(dextranT70)[60/120(g/L)]两种介质密度梯度,制备并比较了大麦幼根细胞质膜和液泡膜微囊。
补充资料:Kerber带孔球囊微导管技术
Kerber带孔球囊微导管技术
介入放射学技术。颅内栓塞治疗用的特殊导管技术。颅内AVM用IBCA栓塞时,既要求导管软而细,又要求导向性能好,要求到位后导管顺利射出IBCA。Kerber 等在Serbinenk可脱性球囊的技术上改良制成带孔球囊导管系统。其目的是:带孔球囊套在柔软的Pursil导管上,注射时球囊有瞬间充盈,可借助血液冲击导向到病变部位,同时对比剂还可以从球囊端的端孔处射出,可行超选择性造影和注射IBCA。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条