The Role of Different Structural Motifs in the Ultrafast Dynamics of Second Generation Protein Stains

Engineering the properties of fluorescent probes through modifications of the fluorophore structure has become a subject of interest in recent times. By doing this, the photophysical and photochemical properties of the modified fluorophore can be understood and this can guide the design and synthesi...

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Veröffentlicht in:	The journal of physical chemistry. B 2013-12, Vol.117 (48), p.14951-14959
Hauptverfasser:	Chatterjee, Soumit, Karuso, Peter, Boulangé, Agathe, Peixoto, Philippe A, Franck, Xavier, Datta, Anindya
Format:	Artikel
Sprache:	eng
Schlagworte:	Benzopyrans - chemical synthesis Benzopyrans - chemistry Biological and medical sciences Biological Products - chemical synthesis Biological Products - chemistry Chains Chemical compounds Chemical Sciences Dynamics Fluorescence Fluorescent Dyes - chemical synthesis Fluorescent Dyes - chemistry Fundamental and applied biological sciences. Psychology Furans - chemical synthesis Furans - chemistry Ketones - chemical synthesis Ketones - chemistry Kinetics Molecular biophysics Molecular Structure Organic chemistry Physical chemistry Physico-chemical properties of biomolecules Polarity Proteins Proteins - chemistry Solvents
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container_end_page	14959
container_issue	48
container_start_page	14951
container_title	The journal of physical chemistry. B
container_volume	117
creator	Chatterjee, Soumit Karuso, Peter Boulangé, Agathe Peixoto, Philippe A Franck, Xavier Datta, Anindya
description	Engineering the properties of fluorescent probes through modifications of the fluorophore structure has become a subject of interest in recent times. By doing this, the photophysical and photochemical properties of the modified fluorophore can be understood and this can guide the design and synthesis of better fluorophores for use in biotechnology. In this work, the electronic spectra and fluorescence decay kinetics of four analogues of the fluorescent natural product epicocconone were investigated. Epicocconone is unique in that the native state is weakly green fluorescent, whereas the enamine formed reversibly with proteins is highly emissive in the red. It was found that the ultrafast dynamics of the analogues depends profoundly on the H-bonding effect of solvents and solvent viscosity though solvent polarity also plays a role. Comparing the steady state and time-resolved data, the weak fluorescence of epicocconone in its native state is most likely due to the photoisomerization of the hydrocarbon side chain, while the keto enol moiety also has a role to play in determining the fluorescence quantum yield. This understanding is expected to aid the design of better protein stains from the same family.
doi_str_mv	10.1021/jp4092927
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subjects	Benzopyrans - chemical synthesis Benzopyrans - chemistry Biological and medical sciences Biological Products - chemical synthesis Biological Products - chemistry Chains Chemical compounds Chemical Sciences Dynamics Fluorescence Fluorescent Dyes - chemical synthesis Fluorescent Dyes - chemistry Fundamental and applied biological sciences. Psychology Furans - chemical synthesis Furans - chemistry Ketones - chemical synthesis Ketones - chemistry Kinetics Molecular biophysics Molecular Structure Organic chemistry Physical chemistry Physico-chemical properties of biomolecules Polarity Proteins Proteins - chemistry Solvents
title	The Role of Different Structural Motifs in the Ultrafast Dynamics of Second Generation Protein Stains
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