Size-Dependent Mechanical Property Measurement of 1,2-dioleoyl-SN-3-phosphocholine Liposome Using Atomic Force Microscopy

IF 0.1 4区医学 Journal of Biomaterials and Tissue Engineering Pub Date : 2023-06-01 DOI:10.1166/jbt.2023.3315

J. Kwak, J. Kwak, G. Kim

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Abstract

Most studies have reported on the effects of bending rigidity using giant unilamellar liposomes. However, few studies have been conducted on nanosized liposomes. We studied the properties of DOPC liposomes of various sizes using atomic force microscopy (AFM). Two different topographies (convex and planar) of DOPC liposomes on a mica surface were observed in the tapping mode in the fluid. The topographic change of the liposomes could be attributed to the interaction force between the AFM tip and the liposome. Small DOPC liposomes (below 1 μm) showed a bending modulus (kbend) ranging between 10−18 and 10−20 J. The bending modulus was found to be size-dependent; it decreased as DOPC liposome size increased. In this study, images of unilamellar DOPC liposomes were obtained in the contact mode. The bending moduli of lipid vesicles from 100 to 1300 nm were measured using an AFM force curve. The bending modulus tended to increase as liposome size decreased. From experimental and theoretical perspectives, we showed that the value of the bending modulus is proportional to 1.5 power of the radius of the liposome.

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利用原子力显微镜测量 1,2-二油酰-SN-3-磷脂酰胆碱脂质体的尺寸依赖性机械性能

大多数研究都报道了巨型单拉美拉尔脂质体弯曲刚度的影响。然而，关于纳米级脂质体的研究却很少。我们使用原子力显微镜（AFM）研究了不同大小的 DOPC 脂质体的特性。在流体中以敲击模式观察了云母表面上 DOPC 脂质体的两种不同形貌（凸面和平面）。脂质体的形貌变化可归因于原子力显微镜针尖与脂质体之间的相互作用力。小 DOPC 脂质体（低于 1 μm）的弯曲模量（kbend）介于 10-18 和 10-20 J 之间。本研究在接触模式下获得了单淀粉 DOPC 脂质体的图像。使用原子力显微镜力曲线测量了 100 到 1300 nm 的脂质囊泡的弯曲模量。随着脂质体尺寸的减小，弯曲模量呈上升趋势。从实验和理论角度来看，我们发现弯曲模量的值与脂质体半径的 1.5 次方成正比。

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