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Efficient use of single molecule time traces to resolve kinetic rates, models and uncertainties.

The Journal of chemical physics (2018-04-02)
Sonja Schmid, Thorsten Hugel
RÉSUMÉ

Single molecule time traces reveal the time evolution of unsynchronized kinetic systems. Especially single molecule Förster resonance energy transfer (smFRET) provides access to enzymatically important time scales, combined with molecular distance resolution and minimal interference with the sample. Yet the kinetic analysis of smFRET time traces is complicated by experimental shortcomings-such as photo-bleaching and noise. Here we recapitulate the fundamental limits of single molecule fluorescence that render the classic, dwell-time based kinetic analysis unsuitable. In contrast, our Single Molecule Analysis of Complex Kinetic Sequences (SMACKS) considers every data point and combines the information of many short traces in one global kinetic rate model. We demonstrate the potential of SMACKS by resolving the small kinetic effects caused by different ionic strengths in the chaperone protein Hsp90. These results show an unexpected interrelation between conformational dynamics and ATPase activity in Hsp90.

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Description du produit

Sigma-Aldrich
Phospho(enol)pyruvic acid trisodium salt hydrate, ≥97% (enzymatic)
Sigma-Aldrich
HEPES, anhydrous, free-flowing, Redi-Dri, ≥99.5%