使用光镊和单探针颗粒直接检测加入拉曲库林B后细胞膜斜率波动

S. Roy, Snigdhadev Chakraborty, Lokesh Muruga, Rahul Vaippuly, Vandana Yadav, S. Bajpai, Privitha Edwina, Basudev Roy
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引用次数: 0

摘要

细胞膜由于热源和非热源而有波动。这就导致细胞膜闪烁。通常,只研究法向(垂直于膜)波动,然后用于确定膜的弯曲刚度等特性。在这里,我们引入了一个不同的概念,即细胞膜的斜率波动,它可以被建模为正常波动的梯度。这可以用一种新的技术来研究,在这种技术中,放置在膜上的双折射粒子以平面外的方式转动,称为音高感。介绍了一种基于双折射粒子在交叉偏振镜下的不对称散射的光镊基音检测技术。然后,我们继续使用这种基音检测技术来确定膜斜率波动的功率谱密度,并发现它是(频率)−1,而正常波动产生(频率)−5/3。我们还探索了一种不同的方法,在这种方法中,细胞应用了抑制肌动蛋白聚合的药物Latrunculin-B,并发现了对膜波动的影响。我们发现,即使正常波动现在变成(频率)−4/3,斜率波动谱仍然保持(频率)−1,其系数与未施用药物的情况完全相同。因此,这提供了一个方便的机会来研究膜参数,如抗弯刚度作为时间的函数后,应用药物。这将是第一次可以在不使用AFM的情况下,研究应用latb后膜的弯曲刚度作为时间的函数。
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Direct detection of cell membrane slope fluctuations upon adding Latrunculin B using optical tweezers and single probe particle
The cell membrane has fluctuations due to thermal and athermal sources. That causes the membrane to flicker. Conventionally, only the normal (perpendicular to the membrane) fluctuations are studied and then used to ascertain the membrane properties like the bending rigidity. It is here that we introduce a different concept, namely the slope fluctuations of the cell membrane which can be modelled as a gradient of the normal fluctuations. This can be studied using a new technique where a birefringent particle placed on the membrane turns in the out of plane sense, called the pitch sense. We introduce the pitch detection technique in optical tweezers relying upon asymmetric scattering from a birefringent particle under crossed polarizers. We then go on to use this pitch detection technique to ascertain the power spectral density of membrane slope fluctuations and find it to be (frequency)−1 while the normal fluctuations yields (frequency)−5/3. We also explore a different regime where the cell is applied with the drug Latrunculin-B which inhibits actin polymerization and find the effect on membrane fluctuations. We find that even as the normal fluctuations now become (frequency)−4/3, the slope fluctuations spectrum still remains (frequency)−1, with exactly the same coefficient as the case when the drug was not applied. Thus, this presents a convenient opportunity to study the membrane parameters like bending rigidity as a function of time after applying the drug. This would be the first time the membrane bending rigidity could be studied as a function of time upon the application of Lat-B without reverting to AFM.
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