A Dark Excited State of Fluorescent Protein Chromophores, Considered as
  Brooker Dyes

Adam; Albota; Altoe; Andresen; Andresen; Asselberghs; Berneth; Bhasikuttan; Bizzarri; Brooker; Celani; Chattoraj; Dewar; Dong; Dunning; El Azhary; Epifanovsky; Epifanovsky; Forbes; Foster; Griffiths; Grinter; Habuchi; Henderson; Hopkinson; Hosoi; Kondo; Lewis; Luin; Marder; McAnaney; McHedlov-Petrosyan; Moerner; Moffitt; Mulliken; Olsen; Olsen; Olsen; Olsen; Olsen; Platt; Ross H. McKenzie; Seth Olsen; Shaik; Shi; Tonge; Vogt; Werner; Yang; Zimmer

slides

A Dark Excited State of Fluorescent Protein Chromophores, Considered as Brooker Dyes

Authors: Adam
Albota
Altoe
Andresen
Andresen
Asselberghs
Berneth
Bhasikuttan
Bizzarri
Brooker
Celani
Chattoraj
Dewar
Dong
Dunning
El Azhary
Epifanovsky
Epifanovsky
Forbes
Foster
Griffiths
Grinter
Habuchi
Henderson
Hopkinson
Hosoi
Kondo
Lewis
Luin
Marder
McAnaney
McHedlov-Petrosyan
Moerner
Moffitt
Mulliken
Olsen
Olsen
Olsen
Olsen
Olsen
Platt
Ross H. McKenzie
Seth Olsen
Shaik
Shi
Tonge
Vogt
Werner
Yang
Zimmer
Publication date: 14 January 2010
Publisher: 'Elsevier BV'
Doi

Abstract

The green fluorescent protein (GFP) chromophore is an asymmetric monomethine dye system. In the resonance color theory of dyes, a strong optical excitation arises from interactions of two valence-bond structures with a third, higher structure. We use correlated quantum chemistry to show that the anionic chromophore is a resonant Brooker dye, and that the third structure corresponds to a higher stationary electronic state of this species. The excitation energy of this state should be just below the first excitation energy of the neutral form. This has implications for excited state mechanism in GFPs, which we discuss.Comment: This paper has been submitted for publication in Chemical Physics Letter

Similar works

Full text

Available Versions

University of Queensland eSpace

oai:espace.library.uq.edu.au:U...

Last time updated on 30/08/2013

Crossref

Last time updated on 05/06/2019