Vesicle fusion studied by surface plasmon resonance and surface plasmon fluorescence spectroscopy.

Morigaki K; Tawa K

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Vesicle fusion studied by surface plasmon resonance and surface plasmon fluorescence spectroscopy.

机译：通过表面等离子体共振和表面等离子体荧光光谱研究了囊泡融合。

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Substrate-supported planar lipid bilayers are generated most commonly by the adsorption and transformation of phospholipid vesicles (vesicle fusion). We have recently demonstrated that simultaneous measurements of surface plasmon resonance (SPR) and surface plasmon fluorescence spectroscopy (SPFS) are highly informative for monitoring lipid membranes on solid substrates. SPR and SPFS provide information on the amount and topography of adsorbed lipid membranes, respectively. In this study, the vesicle fusion process was studied in detail by measuring SPR-SPFS at a higher rate and plotting the obtained fluorescence intensity versus film thickness. We could track the initial adsorption of vesicles, the onset of vesicle rupture occurring at certain vesicle coverage of the surface, and the autocatalytic transformation into planar bilayers. We also monitored vesicle fusion of the same vesicle suspensions by quartz crystal microbalance with dissipation monitoring (QCM-D). We compared the results obtained fromSPR-SPFS and QCM-D to highlight the unique information provided by SPR-SPFS.

机译：基质支持的平面脂质双层最常见地通过磷脂囊泡的吸附和转化（囊泡融合）产生。我们最近证明，同时测量表面等离子体共振（SPR）和表面等离子体荧光光谱（SPFS）对于监测固体基质上的脂质膜非常有用。 SPR和SPFS分别提供了有关脂质膜吸附量和形貌的信息。在这项研究中，通过以较高的速率测量SPR-SPFS并绘制获得的荧光强度与膜厚的关系图，详细研究了囊泡融合过程。我们可以追踪囊泡的初始吸附，在一定的囊泡表面覆盖范围内发生的囊泡破裂的发生以及自催化转变为平面双层的过程。我们还通过耗散监测（QCM-D）通过石英晶体微量天平监测了相同囊泡悬浮液的囊泡融合。我们比较了从SPR-SPFS和QCM-D获得的结果，以突出显示SPR-SPFS提供的独特信息。

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《Biophysical Journal》 |2006年第4期|共8页
作者
Morigaki K; Tawa K;
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正文语种 eng
中图分类生物物理学;
关键词
Lipid Bilayers; Liposomes; Membrane Fluidity; Membrane Fusion; Phospholipids; 脂双层; 脂质体; 膜流动性; 膜融合; 磷脂类; 光谱法; 荧光; 表面等离激元;

机译：Lipid Bilayers;Liposomes;Membrane Fluidity;Membrane Fusion;Phospholipids;脂双层;脂质体;膜流动性;膜融合;磷脂类;光谱法;荧光;表面等离激元;

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1. Vesicle fusion studied by surface plasmon resonance and surface plasmon fluorescence spectroscopy. [J] . Morigaki K, Tawa K Biophysical Journal . 2006,第4期

机译：通过表面等离子体共振和表面等离子体荧光光谱研究了囊泡融合。
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5. Surface enzyme kinetics and enzymatically amplified biosensing of nucleic acid arrays studied by surface plasmon resonance imaging and surface plasmon fluorescence spectroscopy. [D] . Fang, Shiping. 2006

机译：通过表面等离子体共振成像和表面等离子体荧光光谱研究了核酸阵列的表面酶动力学和酶促放大生物传感。
6. Vesicle Fusion Studied by Surface Plasmon Resonance and Surface Plasmon Fluorescence Spectroscopy [O] . Kenichi Morigaki, Keiko Tawa 2006

机译：表面等离子体共振和表面等离子体荧光光谱研究囊泡融合
7. Vesicle Fusion Studied by Surface Plasmon Resonance and Surface Plasmon Fluorescence Spectroscopy [O] . Morigaki, Kenichi, Tawa, Keiko 2006

机译：表面等离子体共振和表面等离子体荧光光谱研究囊泡融合

Vesicle fusion studied by surface plasmon resonance and surface plasmon fluorescence spectroscopy.

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