Cooperative action of KIF1A Brownian motors with finite dwell time
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Document typeArticle
Defense date2014-03-31
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Abstract
We study in detail the cooperative action of small groups of KIF1A motors in its monomeric (single-headed) form within an arrangement relevant to vesicle traffic or membrane tube extraction. It has been recently shown that under these circumstances, the presence of a finite dwell time in the motor cycle contributes to remarkably enhance collective force generation [D. Oriola and J. Casademunt, Phys. Rev. Lett. 111, 048103 (2013)]. We analyze this mechanism in detail by means of a two-state noise-driven ratchet model with hard-core repulsive interactions. We obtain staircase-shaped velocity-force curves and show that motors self-organize in clusters with a nontrivial force distribution that conveys a large part of the load to the central motors. Under heavy loads, large clusters adopt a synchronic mode of totally asymmetric steps. We also find a dramatic increase of the collective efficiency with the number of motors. Finally, we complete the study by addressing different interactions that impose spatial constraints such as rigid coupling and raft-induced confinement. Our results reinforce the hypothesis that the specificity of KIF1A to axonal vesicular transport may be deeply related to its high cooperativity.
CitationOriola, D.; Casademunt, J. Cooperative action of KIF1A Brownian motors with finite dwell time. "Physical review E: statistical, nonlinear, and soft matter physics", 31 Març 2014, vol. 89, núm. 3, article 032722, p. 1-9.
ISSN1539-3755
Publisher versionhttps://journals.aps.org/pre/abstract/10.1103/PhysRevE.89.032722
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