Stefan Klumpp, Theo M. Nieuwenhuizen, Reinhard Lipowsky
Published 2005-02-22Version 1
Processive molecular motors which drive the traffic of organelles in cells move in a directed way along cytoskeletal filaments. On large time scales, they perform motor walks, i.e., peculiar random walks which arise from the repeated unbinding from and rebinding to filaments. Unbound motors perform Brownian motion in the surrounding fluid. In addition, the traffic of molecular motors exhibits many cooperative phenomena. In particular, it faces similar problems as the traffic on streets such as the occurrence of traffic jams and the coordination of (two-way) traffic. These issues are studied here theoretically using lattice models.
Comments: latex, uses elsart.cls and phyeauth.cls (included), 10 pages, 6 figures, to appear in the proceedings of FQMT'04, Prague
Journal: Physica E 29, 380-389 (2005)
Traffic of Molecular Motors
Phase transitions in systems with two species of molecular motors
Effects of the chemomechanical stepping cycle on the traffic of molecular motors
