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SMAUG: Analyzing single-molecule tracks with nonparametric Bayesian statistics.

Authors :
Karslake, Joshua D.
Donarski, Eric D.
Shelby, Sarah A.
Demey, Lucas M.
DiRita, Victor J.
Veatch, Sarah L.
Biteen, Julie S.
Source :
Methods. Sep2021, Vol. 193, p16-26. 11p.
Publication Year :
2021

Abstract

[Display omitted] Single-molecule fluorescence microscopy probes nanoscale, subcellular biology in real time. Existing methods for analyzing single-particle tracking data provide dynamical information, but can suffer from supervisory biases and high uncertainties. Here, we develop a method for the case of multiple interconverting species undergoing free diffusion and introduce a new approach to analyzing single-molecule trajectories: the Single-Molecule Analysis by Unsupervised Gibbs sampling (SMAUG) algorithm, which uses nonparametric Bayesian statistics to uncover the whole range of information contained within a single-particle trajectory dataset. Even in complex systems where multiple biological states lead to a number of observed mobility states, SMAUG provides the number of mobility states, the average diffusion coefficient of single molecules in that state, the fraction of single molecules in that state, the localization noise, and the probability of transitioning between two different states. In this paper, we provide the theoretical background for the SMAUG analysis and then we validate the method using realistic simulations of single-particle trajectory datasets as well as experiments on a controlled in vitro system. Finally, we demonstrate SMAUG on real experimental systems in both prokaryotes and eukaryotes to measure the motions of the regulatory protein TcpP in Vibrio cholerae and the dynamics of the B-cell receptor antigen response pathway in lymphocytes. Overall, SMAUG provides a mathematically rigorous approach to measuring the real-time dynamics of molecular interactions in living cells. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10462023
Volume :
193
Database :
Academic Search Index
Journal :
Methods
Publication Type :
Academic Journal
Accession number :
151593360
Full Text :
https://doi.org/10.1016/j.ymeth.2020.03.008