利用二次谐波产生显微镜进行膜电位传感的机制。

Mechanisms of membrane potential sensing with second-harmonic generation microscopy.

作者信息

Pons Thomas, Moreaux Laurent, Mongin Oliver, Blanchard-Desce Mireille, Mertz Jerome

机构信息

ESPCI, INSERM EPI 0002, CNRS FRE 2500, Neurophysiologie et Nouvelles Microscopies, Paris, France.

出版信息

J Biomed Opt. 2003 Jul;8(3):428-31. doi: 10.1117/1.1581871.

DOI:10.1117/1.1581871

PMID:12880348

Abstract

We characterize the transmembrane voltage response of a novel second-harmonic generation (SHG) marker using a screening protocol with giant unilamellar vesicles. Two mechanisms are found to contribute to the voltage response: (1) an electro-optic-induced alteration of the molecular hyperpolarizability and (2) an electric-field-induced alteration of the degree of molecular alignment. We quantify the relative weights and of these contributions and provide an upper limit to their response time, which is found to be submillisecond. The identification of two voltage response mechanisms leads to new strategies for the molecular design of membrane potential markers.

摘要

我们使用一种针对巨型单层囊泡的筛选方案，对一种新型二次谐波产生（SHG）标记物的跨膜电压响应进行了表征。发现有两种机制对电压响应有贡献：（1）分子超极化率的电光诱导改变，以及（2）分子排列程度的电场诱导改变。我们对这些贡献的相对权重进行了量化，并给出了它们响应时间的上限，发现其为亚毫秒级。两种电压响应机制的确定为膜电位标记物的分子设计带来了新策略。

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利用二次谐波产生显微镜进行膜电位传感的机制。

Mechanisms of membrane potential sensing with second-harmonic generation microscopy.

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