2006
DOI: 10.1039/b601754a
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Simulating molecular shuttle movements: Towards computer-aided design of nanoscale transport systems

Abstract: Molecular shuttles based on the motor protein kinesin and microtubule filaments have the potential to extend the lab-on-a-chip paradigm to nanofluidics by enabling the active, directed and selective transport of molecules and nanoparticles. Based on experimentally determined parameters, in particular the trajectory persistence length of a microtubule gliding on surface-adhered kinesin motors, we developed a Monte-Carlo simulation, which models the transport properties of guiding structures, such as channels, r… Show more

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Cited by 68 publications
(71 citation statements)
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“…In [12], these values were given as v avg = 0.85 µm/s, D = 2.0 · 10 −3 µm 2 /s, and L p = 111 µm. Following [12], in case of a collision with a boundary, we assume that the microtubule sets θ i so as to follow the boundary.…”
Section: Simulation Environment and Modelsmentioning
confidence: 99%
See 1 more Smart Citation
“…In [12], these values were given as v avg = 0.85 µm/s, D = 2.0 · 10 −3 µm 2 /s, and L p = 111 µm. Following [12], in case of a collision with a boundary, we assume that the microtubule sets θ i so as to follow the boundary.…”
Section: Simulation Environment and Modelsmentioning
confidence: 99%
“…The motion of the microtubule is largely regular, although the effects of Brownian motion cause random fluctuations. We use a simulation scheme from [12], noting that microtubules stick to the motor-lined surface, so a two-dimensional discrete-time simulation is sufficient. In this case,…”
Section: Simulation Environment and Modelsmentioning
confidence: 99%
“…Following [20], in case of a collision with a boundary, we assume that the microtubule does not reflect off the boundary, as in an elastic collision, but instead sets θ i so as to follow the boundary. The starting location of the microtubule is assumed to be random and uniformly distributed across the entire propagation area.…”
Section: Simulating Active Transportmentioning
confidence: 99%
“…Therefore, previous works have relied on computer simulations to study these systems. In [20,19] the motion of microtubule filaments over stationary kinesin molecular motors was simulated and in [9,10] a complete simulation of the communication system was presented. In this work, for our simulation based results, we use the same simulation techniques proposed in [10].…”
Section: Simulating Active Transportmentioning
confidence: 99%
“…In fact, progress in this area has reached the extent that simulations, or in silico design tools, are being developed that reduce the need for expensive e-beam lithographed prototypes. [42] Essentially, planar devices address the problem of continuous operation of nanodevices based on protein molecular motors. Indeed, most of the 'single dimension' devices described above (bar the natural or hypothetical bi-directional devices) cannot continuously operate as the unidirectional movement has to stop when the motile element (e.g., microtubule or bead) reaches the end of the micro/nano-fabricated pathway.…”
Section: Nanomechanical Devicesmentioning
confidence: 99%