All-Optical Sensing of the Components of the Internal Local Electric Field in Proteins

Overview

Journal IEEE Photonics J

Date 2014 Nov 25

PMID 25419440

Citations 3

Authors

M Drobizhev

J N Scott

P R Callis

A Rebane

Affiliations

Soon will be listed here.

Abstract

Here, we present a new all-optical method of interrogation of the internal electric field vector inside proteins. The method is based on experimental evaluation of the permanent dipole moment change upon excitation and the pure electronic transition frequency of a fluorophore embedded in a protein matrix. The permanent dipole moment change can be obtained from two-photon absorption measurements. In addition, permanent dipole moment change, tensor of polarizability change, and transition frequency for the free chromophore should be calculated quantum-mechanically. This allows obtaining the components of the electric field by considering the second-order Stark shift. We use the fluorescent protein mCherry as an example to demonstrate the applicability of the method.

Citing Articles

Local Electric Field Controls Fluorescence Quantum Yield of Red and Far-Red Fluorescent Proteins.

Drobizhev M, Molina R, Callis P, Scott J, Lambert G, Salih A Front Mol Biosci. 2021; 8:633217.

PMID: 33763453 PMC: 7983054. DOI: 10.3389/fmolb.2021.633217.

X-Ray Crystal Structure and Properties of Phanta, a Weakly Fluorescent Photochromic GFP-Like Protein.

Don Paul C, Traore D, Olsen S, Devenish R, Close D, Bell T PLoS One. 2015; 10(4):e0123338.

PMID: 25923520 PMC: 4414407. DOI: 10.1371/journal.pone.0123338.

Two-photon fluorescence spectroscopy and imaging of 4-dimethylaminonaphthalimide peptide and protein conjugates.

McLean A, Socher E, Varnavski O, Clark T, Imperiali B, Goodson 3rd T J Phys Chem B. 2013; 117(50):15935-42.

PMID: 24245815 PMC: 3938489. DOI: 10.1021/jp407321g.

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