Sensitivity of Second Harmonic Generation from Styryl Dyes to Transmembrane Potential

Andrew C. Millard; Lei Jin; Mei De Wei; Joseph P. Wuskell; Aaron Lewis; Leslie M. Loew

doi:10.1016/S0006-3495(04)74191-0

Sensitivity of Second Harmonic Generation from Styryl Dyes to Transmembrane Potential

Andrew C. Millard, Lei Jin, Mei De Wei, Joseph P. Wuskell, Aaron Lewis, Leslie M. Loew^*

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Contribution to journal › Article › peer-review

69 Scopus citations

Abstract

In this article we present results from the simultaneous nonlinear (second harmonic generation and two-photon excitation fluorescence) imaging and voltage clamping of living cells. Specifically, we determine the sensitivity to transmembrane potential of second harmonic generation by ANEP-chromophore styryl dyes as a function of excitation wavelength and dye structure. We have measured second harmonic sensitivities of up to 43% per 100 mV, more than a factor of four better than the nominal voltage sensitivity of the dyes under "one-photon" fluorescence. We find a dependence of voltage sensitivity on excitation wavelength that is consistent with a two-photon resonance, and there is a significant dependence of voltage sensitivity on the structure of the nonchromophore portion of the dyes.

Original language	English
Pages (from-to)	1169-1176
Number of pages	8
Journal	Biophysical Journal
Volume	86
Issue number	2
DOIs	https://doi.org/10.1016/S0006-3495(04)74191-0
State	Published - Feb 2004

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AU - Lewis, Aaron

AU - Loew, Leslie M.

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AB - In this article we present results from the simultaneous nonlinear (second harmonic generation and two-photon excitation fluorescence) imaging and voltage clamping of living cells. Specifically, we determine the sensitivity to transmembrane potential of second harmonic generation by ANEP-chromophore styryl dyes as a function of excitation wavelength and dye structure. We have measured second harmonic sensitivities of up to 43% per 100 mV, more than a factor of four better than the nominal voltage sensitivity of the dyes under "one-photon" fluorescence. We find a dependence of voltage sensitivity on excitation wavelength that is consistent with a two-photon resonance, and there is a significant dependence of voltage sensitivity on the structure of the nonchromophore portion of the dyes.

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Sensitivity of Second Harmonic Generation from Styryl Dyes to Transmembrane Potential

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