Literature DB >> 22828327

Label-free imaging of membrane potential using membrane electromotility.

Seungeun Oh1, Christopher Fang-Yen, Wonshik Choi, Zahid Yaqoob, Dan Fu, YongKeun Park, Ramachandra R Dassari, Michael S Feld.   

Abstract

Electrical activity may cause observable changes in a cell's structure in the absence of exogenous reporter molecules. In this work, we report a low-coherence interferometric microscopy technique that can detect an optical signal correlated with the membrane potential changes in individual mammalian cells without exogenous labels. By measuring milliradian-scale phase shifts in the transmitted light, we can detect changes in the cells' membrane potential. We find that the observed optical signals are due to membrane electromotility, which causes the cells to deform in response to the membrane potential changes. We demonstrate wide-field imaging of the propagation of electrical stimuli in gap-junction-coupled cell networks. Membrane electromotility-induced cell deformation may be useful as a reporter of electrical activity.
Copyright © 2012 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22828327      PMCID: PMC3388206          DOI: 10.1016/j.bpj.2012.05.020

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  47 in total

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  20 in total

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4.  Label-free optical detection of action potential in mammalian neurons.

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5.  Imaging Action Potential in Single Mammalian Neurons by Tracking the Accompanying Sub-Nanometer Mechanical Motion.

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Journal:  ACS Nano       Date:  2018-03-28       Impact factor: 15.881

6.  High-speed interferometric imaging reveals dynamics of neuronal deformation during the action potential.

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7.  Ultra-parallel label-free optophysiology of neural activity.

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Journal:  iScience       Date:  2022-04-27

8.  All-Optical Interrogation of Neural Circuits.

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9.  Optical Electrophysiology: Toward the Goal of Label-Free Voltage Imaging.

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10.  Quantitative phase imaging techniques for the study of cell pathophysiology: from principles to applications.

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Journal:  Sensors (Basel)       Date:  2013-03-28       Impact factor: 3.576
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