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Quantifying Microsecond Solution-Phase Conformational Dynamics of a DNA Hairpin at the Single-Molecule Level

Alexander K. Foote, Kunihiko Ishii, Brendan Cullinane, Tahei Tahara, Randall H. Goldsmith

2024ACS Physical Chemistry Au12 citationsDOIOpen Access PDF

Abstract

Quantifying the rapid conformational dynamics of biological systems is fundamental to understanding the mechanism. However, biomolecules are complex, often containing static and dynamic heterogeneity, thus motivating the use of single-molecule methods, particularly those that can operate in solution. In this study, we measure microsecond conformational dynamics of solution-phase DNA hairpins at the single-molecule level using an anti-Brownian electrokinetic (ABEL) trap. Different conformational states were distinguished by their fluorescence lifetimes, and kinetic parameters describing transitions between these states were determined using two-dimensional fluorescence lifetime correlation (2DFLCS) analysis. Rather than combining fluorescence signals from the entire data set ensemble, long observation times of individual molecules allowed ABEL-2DFLCS to be performed on each molecule independently, yielding the underlying distribution of the system's kinetic parameters. ABEL-2DFLCS on the DNA hairpins resolved an underlying heterogeneity of fluorescence lifetimes and provided signatures of two-state exponential dynamics with rapid (<millisecond) transition times between states without observation of the substantially stretched exponential kinetics that had been observed in previous measurements on diffusing molecules. Numerical simulations were performed to validate the accuracy of this technique and the effects the underlying heterogeneity has on the analysis. Finally, ABEL-2DFLCS was performed on a mixture of hairpins and used to resolve their kinetic data.

Topics & Concepts

MicrosecondMoleculeDNADynamics (music)Chemical physicsPhase (matter)Materials scienceMolecular dynamicsCrystallographyChemistryBiophysicsPhysicsComputational chemistryBiologyOpticsQuantum mechanicsBiochemistryAcousticsDNA and Nucleic Acid ChemistryNanopore and Nanochannel Transport StudiesAdvanced biosensing and bioanalysis techniques
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