1999
DOI: 10.1088/0305-4470/32/44/303
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General technique of calculating the drift velocity and diffusion coefficient in arbitrary periodic systems

Abstract: We develop a practical method of computing the stationary drift velocity V and the diffusion coefficient D of a particle (or a few particles) in a periodic system with arbitrary transition rates. We solve this problem both in a physically relevant continuous-time approach as well as for models with discrete-time kinetics, which are often used in computer simulations. We show that both approaches yield the same value of the drift, but the difference between the diffusion coefficients obtained in each of them eq… Show more

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Cited by 69 publications
(101 citation statements)
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“…where we used the fact that C ′ 1 = 0 for a unicyclic network [35]. We now show that C 2 Γ − /C 2 1 reaches its maximum when k…”
Section: Calculations For Unicyclic Networkmentioning
confidence: 56%
“…where we used the fact that C ′ 1 = 0 for a unicyclic network [35]. We now show that C 2 Γ − /C 2 1 reaches its maximum when k…”
Section: Calculations For Unicyclic Networkmentioning
confidence: 56%
“…The chemomechanical dynamics of a molecular motor can be mapped on an appropriate kinetic network, which allows us to express the transport properties of the motor, V and D, in terms of a set of rate constants {k ij }, where k ij is associated with the transition from the i-th to j-th state [5,13,14] (see SI text). The formal expressions of V and D in terms of {k ij (f, [ATP])} are used to fit simultaneously the experimental data of V and D obtained under varying conditions of ATP and f [12].…”
Section: Resultsmentioning
confidence: 99%
“…To obtain the expression of V and D for multicyclic kinetic network model in terms of a set of rate constants {k ij }, we have generalized the technique by Koza [13] (Alternatively, technique based on the large deviation theory can be used. See Ref.…”
Section: Calculation Of V and D Of Kinesin-1 In 6-state Multi-cyclic mentioning
confidence: 99%
“…2B), no purely kinetic two-state model can fit the data (2,11,19,22). Four transitions are expected biochemically: (0 3 1) ATP binding; (1 3 2) hydrolysis; (2 3 3) release of P i or, from the forward head (20,23), ADP; (3 3 4 ϵ 0) release of ADP, or P i from the original rear head.…”
Section: Randomnessmentioning
confidence: 99%