Single-molecule dynamics of surface lipoproteins in bacteroides indicate similarities and cooperativity.

The gut microbiota comprises hundreds of species with a composition shaped by the available glycans. The well-studied starch utilization system (Sus) is a prototype for glycan uptake in the human gut bacterium Bacteroides thetaiotaomicron (Bt). Each Sus-like system includes outer-membrane proteins, which translocate glycan into the periplasm, and one or more cell-surface glycoside hydrolases, which break down a specific (cognate) polymer substrate.

NOBIAS: Analyzing anomalous diffusion in single-molecule tracks with nonparametric Bayesian inference.

Single particle tracking (SPT) enables the investigation of biomolecular dynamics at a high temporal and spatial resolution in living cells, and the analysis of these SPT datasets can reveal biochemical interactions and mechanisms. Still, how to make the best use of these tracking data for a broad set of experimental conditions remains an analysis challenge in the field. Here, we develop a new SPT analysis framework: NOBIAS (NOnparametric Bayesian Inference for Anomalous Diffusion in Single-Molecule Tracking), which applies nonparametric Bayesian statistics and deep learning approaches to thoroughly analyze SPT datasets.

RNA Folding and Unfolding Under Force: Single-Molecule Experiments and Their Analysis.

We have previously described (Geffroy et al. Methods Mol Biol 1665:25-40, 2018) how to unfold (or fold) a single RNA molecule under force using a dual-beam optical trap setup. In this chapter, we complementarily describe how to analyze the corresponding data and how to interpret it in terms of RNA three-dimensional structure.

Force measurements show that uL4 and uL24 mechanically stabilize a fragment of 23S rRNA essential for ribosome assembly.

In vitro reconstitution studies have shown that ribosome assembly is highly cooperative and starts with the binding of a few ribosomal (r-) proteins to rRNA. It is unknown how these early binders act. Focusing on the initial stage of the assembly of the large subunit of the ribosome, we prepared a 79-nucleotide-long region of 23S rRNA encompassing the binding sites of the early binders uL4 and uL24.

RNA Unzipping and Force Measurements with a Dual Optical Trap.

In order to mechanically unfold a single RNA molecule, an RNA/DNA hybrid construction is prepared which allows specific attachment to two micrometer-sized beads. A dual-beam optical trap thus holding the construct in solution captures the beads separately. Unfolding of a molecule is obtained by increasing the distance between the traps, one trap being slowly moved while the other is held fixed.