6533b832fe1ef96bd129a454

RESEARCH PRODUCT

Stability of a Split Streptomycin Binding Aptamer

Paulo A. NetzRüdiger BergerDominik W. PilatMark HelmTiago E. De OliveiraThomas A. NickFelix SpenkuchHans-jürgen Butt

subject

0301 basic medicineBinding SitesAqueous solutionChemistryHydrogen bondAptamerForce spectroscopyWaterHydrogen BondingAptamers NucleotideMolecular Dynamics SimulationSurfaces Coatings and FilmsGibbs free energy03 medical and health sciencessymbols.namesakeMolecular dynamicsCrystallography030104 developmental biologyStreptomycinMaterials ChemistrysymbolsThermodynamicsPhysical and Theoretical ChemistryUmbrella samplingBinding site

description

Here we investigated the stability of an aptamer, which is formed by two RNA strands and binds the antibiotic streptomycin. Molecular dynamics simulations in aqueous solution confirmed the geometry and the pattern of hydrogen bond interactions that was derived from the crystal structure (1NTB). The result of umbrella sampling simulations indicated a favored streptomycin binding with a free energy of ΔGbind° = −101.7 kJ mol–1. Experimentally, the increase in oligonucleotide stability upon binding of streptomycin was probed by single-molecule force spectroscopy. Rate dependent force spectroscopy measurements revealed a decrease in the natural off-rate (koff-COMPLEX = 0.22 ± 0.16 s–1) for the aptamer–streptomycin complex compared to the aptamer having an empty binding pocket (koff-APTAMER = 0.49 ± 0.11 s–1). This decrease in the natural off-rate corresponds to a decrease in the Gibbs free energy of ΔΔGsheer ≈ −3.4 kJ mol–1. The simulated binding pattern and the experimental results led to the conclusion that...

yearjournalcountryeditionlanguage
2016-06-24The Journal of Physical Chemistry B
https://doi.org/10.1021/acs.jpcb.6b02440