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Literature DB >> 20951143

A matrix computational approach to kinesin neck linker extension.

John Hughes¹, William O Hancock, John Fricks.

Abstract

Kinesin stepping requires both tethered diffusion of the free head and conformational changes driven by the chemical state of the motor. We present a numerical method using matrix representations of approximating Markov chains and renewal theory to compute important experimental quantities for models that include both tethered diffusion and chemical transitions. Explicitly modeling the tethered diffusion allows for exploration of the model under perturbation of the neck linker; comparisons are made between the computed models and in vitro assays.

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Year: 2010 PMID： 20951143 DOI： 10.1016/j.jtbi.2010.10.005

Source DB: PubMed Journal: J Theor Biol ISSN： 0022-5193 Impact factor: 2.691

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Cited

6 in total

A matrix computational approach to kinesin neck linker extension.

1. Kinesins with extended neck linkers: a chemomechanical model for variable-length stepping.

2. Transport of lysosomes decreases in the perinuclear region: Insights from changepoint analysis.

3. Renewal Reward Perspective on Linear Switching Diffusion Systems in Models of Intracellular Transport.

4. Estimating Velocity for Processive Motor Proteins with Random Detachment.

5. Coupling of lever arm swing and biased Brownian motion in actomyosin.

6. A model of processive walking and slipping of kinesin-8 molecular motors.