Abstract
Microtubules are hollow cylindrical protein polymers composed of tubulin dimers and act as executives in cellular dynamics. The solvent effect on the microtubules dynamics of U-model is investigated. The focus of study is the effect of time-dependent damping coefficient on the system dynamics. The model of γ (t) is γ1(t) = γ0 + e−βt2 and γ2(t) = γ0 – e−βt2. The system dynamics is described by kink and anti-kink solutions obtained by using modified extended tanh-function methode (METHF). The decrease of the damping coefficient will increase the kink and anti-kink velocities. The result obtained also shows that the solvent affects the process of disassembly and kinesin motion.
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