Back to Search Start Over

Inferring kinetic rate constants from single-molecule FRET trajectories – a blind benchmark of kinetic analysis tools

Authors :
M. C. A. S. Hadzic
C. de Lannoy
Don C. Lamb
D. Dunukara
R. K. O. Sigel
George L. Hamilton
Sonja Schmid
Hugo Sanabria
D. A. Erie
Pengning Xu
L. Kisley
J. Schimpf
Johannes Thomsen
Thorsten Hugel
Nikos S. Hatzakis
C. A. M. Seidel
M. Götz
Simon Wanninger
Thorben Cordes
Keith Weninger
C. Mahn
J. Chen
Christian Gebhardt
Anders Barth
Soeren S-R Bohr
L. Vollmar
R. Börner
Magnus Berg Sletfjerding
Dick de Ridder
Source :
bioRxiv
Publication Year :
2021
Publisher :
Cold Spring Harbor Laboratory, 2021.

Abstract

Single-molecule FRET (smFRET) is a versatile technique to study the dynamics and function of biomolecules since it makes nanoscale movements detectable as fluorescence signals. The powerful ability to infer quantitative kinetic information from smFRET data is, however, complicated by experimental limitations. Diverse analysis tools have been developed to overcome these hurdles but a systematic comparison is lacking. Here, we report the results of a blind benchmark study assessing eleven analysis tools used to infer kinetic rate constants from smFRET trajectories. We tested them against simulated and experimental data containing the most prominent difficulties encountered in analyzing smFRET experiments: different noise levels, varied model complexity, non-equilibrium dynamics, and kinetic heterogeneity. Our results highlight the current strengths and limitations in inferring kinetic information from smFRET trajectories. In addition, we formulate concrete recommendations and identify key targets for future developments, aimed to advance our understanding of biomolecular dynamics through quantitative experiment-derived models.

Details

Database :
OpenAIRE
Journal :
bioRxiv
Accession number :
edsair.doi.dedup.....358d90bf47089b2d927807076bcb8915
Full Text :
https://doi.org/10.1101/2021.11.23.469671