If there is only one lipid bilayer, they are called unilamellar vesicles.
如果只有一层磷脂双分子层,则它们称为单层脂质体。
If there is only one lipid bilayer, they are called unilamellar vesicles;
只有一个脂双分子层的叫单膜小泡;
Objective: To image the structure of the lipid bilayer at the nanometer level with AFM.
前言:目的:通过原子力显微镜从纳米水平成像人工磷脂双分子层的结构细节。
Other proteins do penetrate into and, in me cases, all the way through the lipid bilayer.
其他蛋白质则渗透到脂质双层中,而且在某些情况下一直透过脂质双层。
Other proteins do penetrate into and, in some cases, all the way through the lipid bilayer.
其他蛋白质则渗透到脂质双层中,而且在某些情况下一直透过脂质双层。
The recognition of the lipid bilayer as a model for biomembranes dates back only about 75 years or so.
人们公认类脂双层为生物膜的模型仅有75年左右的时间。
FMN is tightly bound to proteins while coenzyme Q has a hydrophobic tail that makes it soluble in the inner mitochondrial membrane's lipid bilayer.
FMN是紧密结合的蛋白质,辅酶Q具有疏水性尾部,使得它在线粒体膜的脂质双分子层的可溶性。
This convinced us that the toxic effect of Hg, Pb, and Cd on living beings involves the direct influence on the lipid bilayer of biological membrane.
可以认为重金属毒物对生命的毒害作用中包括了对膜脂双层的直接影响。
Recent important program in this field is reviewed in this paper, including self-assembled systems of glucose oxidase, lipid bilayer and nucleic acid sensor.
本文着重介绍了一些相关的生物分子自组装体系,包括葡萄糖氧化酶、类脂、核酸传感器等在金基底表面的自组装。
In a lipid bilayer, lipids arrange themselves, so that their polar head groups are exposed to water and their hydrophobic tails are sandwiched in the middle.
双分子层中,脂质可以自行排布,形成极性头部暴露在水中,疏水尾部夹在中间的结构。
The polar head group is still extending parallel to the bilayer surface. Ginsenoside Rbl and Rh2 have significantly increased the fluidity of lipid bilayers.
各皂苷分子对不同结构的磷脂双层膜极性头部和疏水性尾部的作用也有差异。
The results of experiments showed how the surface structure of lipid bilayer membrane could be created by the interaction between the AFM tip and lipid membrane.
实验结果表明,原子力显微镜的探针与脂双层膜的相互作用导致脂双层膜表面产生一个永久的损伤。
Functionalized lipid bilayer vesicles on which molecular recognition by an artificial receptor synchronized with catalytic reaction by an enzyme were prepared in aqueous media.
在人工双层膜囊泡表面,构建了一个通过人工受体的分子识别行为控制酶反应活性的超分子体系。
The kinetic study of the incorporation of exogenous ganglioside GM3 into the lipid bilayer of rabbit sarcoplasmic reticulum (SR) was carried out by trace extraction of Gls and high performance TLC.
用微量提取和高效薄板层析方法研究了外源性神经节苷脂GM3掺入兔肌质网膜的动力学过程。
In outdoor environment monitoring by using bilayer lipid membrane (BLM) biosensor, it is required to transmit the acquired data to control center conveniently, timely and reliably.
利用双分子层膜生物传感器在监测户外环境质量时,需要将采集的数据方便、及时、可靠地传输到监控中心。
The plasmalemma was incorporated into planar bilayer lipid membrane and ion channels were measured by electrical methods.
将质膜嵌入预先涂制好的平面脂双层,然后用电学方法测定该脂双层的离子选择通透性。
The artificial pigmented bilayer lipid membranes (PBLM) is a new and interesting research topic.
人工色素双分子层类脂膜(PBLM)是一项新颖的研究课题。
The classification, characteristic and principle of bilayer lipid membrane biosensor (BLM) are reviewed. Their application in food inspection also is discussed.
详细评述了双层类脂膜(BLM)生物传感器的种类、特性和工作原理及其在食品检测中的应用前景。
The impetus of research about BLM is come from animality. The BLM (bilayer lipid membrane) self-assembly of organism has been reported for the first time at 1961.
类脂双层研究的动力来自动物世界,1961年首次报道了生物体的双层类脂膜(BLM)自组装。
The present work reports the electrochemical behavior of noradrenaline at a bilayer lipid membrane modified glassy carbon electrode.
报道了去甲肾上腺素在双层类脂膜修饰玻碳电极上的电化学行为。
The applications of bilayer lipid membranes in electrochemical biosensors are reviewed and the future development of electrochemical biosensor based on bilayer lipid membranes is discussed.
介绍了双层类脂膜在电化学生物传感器中的应用,并展望了发展前景。
The cytotoxic effect of LL-37 may be reduced by including a bilayer-forming polar lipid, especially a digalactosyldiacylglycerol, in pharmaceutical compositions and growth media comprising LL-37.
通过在药物组合物及包含LL - 37的生长培养基中包括成双层性极性脂质,具体为双半乳糖基甘油二酯,可降低LL - 37的细胞毒性作用。
The cytotoxic effect of LL-37 may be reduced by including a bilayer-forming polar lipid, especially a digalactosyldiacylglycerol, in pharmaceutical compositions and growth media comprising LL-37.
通过在药物组合物及包含LL - 37的生长培养基中包括成双层性极性脂质,具体为双半乳糖基甘油二酯,可降低LL - 37的细胞毒性作用。
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