Single-image diffusion coefficient measurements of proteins in free solution

TL;DR

This paper introduces a rapid, sub-millisecond imaging method for measuring protein diffusion coefficients in free solution, enhancing temporal resolution for single-particle tracking applications.

Contribution

It presents a novel imaging technique that directly measures diffusion coefficients of fluorescent proteins with sub-millisecond temporal resolution, surpassing previous SPT limitations.

Findings

Achieved sub-millisecond temporal resolution in diffusion measurements.

Applicable to various particle sizes in biological investigations.

Enables more precise studies of reaction kinetics and particle dynamics.

Abstract

Diffusion coefficient measurements are important for many biological and material investigations, such as particle dynamics, kinetics, and size determinations. Amongst current measurement methods, single particle tracking (SPT) offers the unique capability of providing location and diffusion information of a molecule simultaneously while using only femptomoles of sample. However, the temporal resolution of SPT is limited to seconds for single-color labeled samples. By directly imaging three dimensional (3D) diffusing fluorescent proteins and studying the widths of their intensity profiles, we determine the proteins' diffusion coefficients using single protein images of sub-millisecond exposure times. This simple method improves the temporal resolution of diffusion coefficient measurements to sub-millisecond, and can be readily applied to a range of particle sizes in SPT investigations and applications where diffusion coefficient measurements are needed, such as reaction kinetics and particle size determinations.