Dynamics of Fluorescent Dyes Attached to G-Quadruplex DNA and their Effect on FRET Experiments

Siri Søndergaard; Mikayel Aznauryan; Emil K. Haustrup; Birgit Schiøtt; Victoria Birkedal; Ben Corry

doi:10.1002/cphc.201500271

Dynamics of Fluorescent Dyes Attached to G-Quadruplex DNA and their Effect on FRET Experiments

Siri Søndergaard, Mikayel Aznauryan, Emil K. Haustrup, Birgit Schiøtt, Victoria Birkedal^*, Ben Corry

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

FRET spectroscopy is a promising approach for investigating the dynamics of G-quadruplex DNA folds and improving the targeting of G-quadruplexes by potential anticancer compounds. To better interpret such experiments, classical and replica-exchange molecular dynamics simulations and fluorescence-lifetime measurements are used to understand the behavior of a range of Cy3-based dyes attached to the 3′ end of G-quadruplex DNA. The simulations revealed that the dyes interact extensively with the G-quadruplex. Identification of preferred dye positions relative to the G-quadruplex in the simulations allows the impact of dye-DNA interactions on FRET results to be determined. All the dyes show significant deviations from the common approximation of being freely rotating and not interacting with the host, but one of the Cy3 dye analogues is slightly closer to this case.

Original language	English
Pages (from-to)	2562-2570
Number of pages	9
Journal	ChemPhysChem
Volume	16
Issue number	12
DOIs	https://doi.org/10.1002/cphc.201500271
Publication status	Published - 1 Aug 2015

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abstract = "FRET spectroscopy is a promising approach for investigating the dynamics of G-quadruplex DNA folds and improving the targeting of G-quadruplexes by potential anticancer compounds. To better interpret such experiments, classical and replica-exchange molecular dynamics simulations and fluorescence-lifetime measurements are used to understand the behavior of a range of Cy3-based dyes attached to the 3′ end of G-quadruplex DNA. The simulations revealed that the dyes interact extensively with the G-quadruplex. Identification of preferred dye positions relative to the G-quadruplex in the simulations allows the impact of dye-DNA interactions on FRET results to be determined. All the dyes show significant deviations from the common approximation of being freely rotating and not interacting with the host, but one of the Cy3 dye analogues is slightly closer to this case.",

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AU - Schiøtt, Birgit

AU - Birkedal, Victoria

AU - Corry, Ben

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AB - FRET spectroscopy is a promising approach for investigating the dynamics of G-quadruplex DNA folds and improving the targeting of G-quadruplexes by potential anticancer compounds. To better interpret such experiments, classical and replica-exchange molecular dynamics simulations and fluorescence-lifetime measurements are used to understand the behavior of a range of Cy3-based dyes attached to the 3′ end of G-quadruplex DNA. The simulations revealed that the dyes interact extensively with the G-quadruplex. Identification of preferred dye positions relative to the G-quadruplex in the simulations allows the impact of dye-DNA interactions on FRET results to be determined. All the dyes show significant deviations from the common approximation of being freely rotating and not interacting with the host, but one of the Cy3 dye analogues is slightly closer to this case.

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Dynamics of Fluorescent Dyes Attached to G-Quadruplex DNA and their Effect on FRET Experiments

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