Electronic structure and absorption spectra of fluorescent nucleoside analogues

This work presents a systematic investigation of the electronic and conformational properties of five new fluorescent nucleobases belonging to the alphabet based on the isothiazole[4,3- d ]pyrimidine molecule, very recently synthesized. This is of particular importance in the characterization of the...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2017-11, Vol.19 (43), p.29354-29363
Hauptverfasser:	Valverde, Danillo, Vasconcelos Sanches de Araujo, Adalberto, Carlos Borin, Antonio, Canuto, Sylvio
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption spectra Chemical bonds Chemical synthesis Dipole moments Electronic structure Energy gradient Fluorescence Free energy Hydrogen bonds Hydrogen storage Mathematical analysis Monte Carlo simulation Nucleosides Solvents Statistical analysis Uracil
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creator	Valverde, Danillo Vasconcelos Sanches de Araujo, Adalberto Carlos Borin, Antonio Canuto, Sylvio
description	This work presents a systematic investigation of the electronic and conformational properties of five new fluorescent nucleobases belonging to the alphabet based on the isothiazole[4,3- d ]pyrimidine molecule, very recently synthesized. This is of particular importance in the characterization of the main electronic aspects of these fluorescent nucleosides. The solvent effects of 1,4-dioxane and water were included combining the Sequential Monte Carlo/CASPT2 and the Free Energy Gradient (FEG) methods. For comparison, the Polarizable Continuum method was also used. The geometries of all compounds were optimized in solvent with the largest effects observed in water using the average solvent electrostatic configuration (ASEC) and the FEG approaches. Statistical analysis of the solute-solvent hydrogen bonds is performed and their effect on the absorption spectra analyzed. The dipole moments were calculated and the value obtained from the ASEC-FEG method in water follows the same trend as the natural canonical bases (adenine → uracil → guanine → cytosine). The theoretical results for the absorption spectra obtained from CASPT2(18,13) calculations using the geometries obtained with the ASEC-FEG procedure are in very good agreement with the experimental data. A detailed elucidation of the main aspects of the absorption spectra of the five new fluorescent nucleoside analogues is successfully attempted. tz A surrounded by water molecules. Snapshot of a sequential QM/MM simulation.
doi_str_mv	10.1039/c7cp04885h
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The theoretical results for the absorption spectra obtained from CASPT2(18,13) calculations using the geometries obtained with the ASEC-FEG procedure are in very good agreement with the experimental data. A detailed elucidation of the main aspects of the absorption spectra of the five new fluorescent nucleoside analogues is successfully attempted. tz A surrounded by water molecules. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Absorption spectra Chemical bonds Chemical synthesis Dipole moments Electronic structure Energy gradient Fluorescence Free energy Hydrogen bonds Hydrogen storage Mathematical analysis Monte Carlo simulation Nucleosides Solvents Statistical analysis Uracil
title	Electronic structure and absorption spectra of fluorescent nucleoside analogues
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