English

Quantifying protein diffusion and capture on filaments

Biological Physics 2015-03-04 v1 Statistical Mechanics Subcellular Processes

Abstract

The functional relevance of regulating proteins is often limited to specific binding sites such as the ends of microtubules or actin-filaments. A localization of proteins on these functional sites is of great importance. We present a quantitative theory for a diffusion and capture process, where proteins diffuse on a filament and stop diffusing when reaching the filament's end. It is found that end-association after one-dimensional diffusion is the main source for tip-localization of such proteins. As a consequence, diffusion and capture is highly efficient in enhancing the reaction velocity of enzymatic reactions, where proteins and filament ends are to each other as enzyme and substrate. We show that the reaction velocity can effectively be described within a Michaelis-Menten framework. Together one-dimensional diffusion and capture beats the (three-dimensional) Smoluchowski diffusion limit for the rate of protein association to filament ends.

Keywords

Cite

@article{arxiv.1503.00878,
  title  = {Quantifying protein diffusion and capture on filaments},
  author = {Emanuel Reithmann and Louis Reese and Erwin Frey},
  journal= {arXiv preprint arXiv:1503.00878},
  year   = {2015}
}

Comments

13 pages, 7 figures

R2 v1 2026-06-22T08:42:55.853Z