Literature DB >> 31896714

Electrostatic control of photoisomerization pathways in proteins.

Matthew G Romei1, Chi-Yun Lin1, Irimpan I Mathews2, Steven G Boxer3.   

Abstract

Rotation around a specific bond after photoexcitation is central to vision and emerging opportunities in optogenetics, super-resolution microscopy, and photoactive molecular devices. Competing roles for steric and electrostatic effects that govern bond-specific photoisomerization have been widely discussed, the latter originating from chromophore charge transfer upon excitation. We systematically altered the electrostatic properties of the green fluorescent protein chromophore in a photoswitchable variant, Dronpa2, using amber suppression to introduce electron-donating and electron-withdrawing groups to the phenolate ring. Through analysis of the absorption (color), fluorescence quantum yield, and energy barriers to ground- and excited-state isomerization, we evaluate the contributions of sterics and electrostatics quantitatively and demonstrate how electrostatic effects bias the pathway of chromophore photoisomerization, leading to a generalized framework to guide protein design.
Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2020        PMID: 31896714      PMCID: PMC7035911          DOI: 10.1126/science.aax1898

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  22 in total

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2.  A diabatic three-state representation of photoisomerization in the green fluorescent protein chromophore.

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Review 3.  Fluorescence imaging using synthetic GFP chromophores.

Authors:  Christopher L Walker; Konstantin A Lukyanov; Ilia V Yampolsky; Alexander S Mishin; Andreas S Bommarius; Anna M Duraj-Thatte; Bahareh Azizi; Laren M Tolbert; Kyril M Solntsev
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Review 4.  Photoinduced Chemistry in Fluorescent Proteins: Curse or Blessing?

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Journal:  Chem Rev       Date:  2016-10-18       Impact factor: 60.622

5.  Electric Field Keeps Chromophore Planar and Produces High Yield Fluorescence in Green Fluorescent Protein.

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Journal:  J Am Chem Soc       Date:  2016-10-06       Impact factor: 15.419

Review 6.  Theory and Simulation of the Ultrafast Double-Bond Isomerization of Biological Chromophores.

Authors:  Samer Gozem; Hoi Ling Luk; Igor Schapiro; Massimo Olivucci
Journal:  Chem Rev       Date:  2017-10-30       Impact factor: 60.622

7.  Unified Model for Photophysical and Electro-Optical Properties of Green Fluorescent Proteins.

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9.  Synthetic control of retinal photochemistry and photophysics in solution.

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7.  A General Strategy to Control Viscosity Sensitivity of Molecular Rotor-Based Fluorophores.

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10.  Synthesis of pH Dependent Pyrazole, Imidazole, and Isoindolone Dipyrrinone Fluorophores using a Claisen-Schmidt Condensation Approach.

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