Issue 13, 2013

Electrostatic spectral tuning mechanism of the green fluorescent protein

Abstract

Understanding the mechanism of spectral tuning of biological chromophores is a major challenge in photobiology. We show here using large-scale full quantum chemical calculations of the green fluorescent protein that state-of-the-art coupled-cluster calculations provide accurate excitation energies and detailed insight about specific environmental effects. We obtain vertical excitation energies of 3.13 eV (396 nm) and 2.68 eV (463 nm), which are in quantitative agreement with the experimental absorption energies of 3.12 eV (397 nm) and 2.61 eV (475 nm) for the A- and B-forms of the protein. We find that the protein environment redshifts the absorption spectra by ∼0.56 eV and ∼0.22 eV for the two states, which can be attributed to ∼80% electrostatic effects and ∼20% steric effects.

Graphical abstract: Electrostatic spectral tuning mechanism of the green fluorescent protein

Supplementary files

Article information

Article type
Communication
Submitted
07 Jan 2013
Accepted
04 Feb 2013
First published
11 Feb 2013

Phys. Chem. Chem. Phys., 2013,15, 4491-4495

Electrostatic spectral tuning mechanism of the green fluorescent protein

V. R. I. Kaila, R. Send and D. Sundholm, Phys. Chem. Chem. Phys., 2013, 15, 4491 DOI: 10.1039/C3CP00058C

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