2 resultados para Xenocrates, of Chalcedon, ca. 396-ca. 314 B.C.

em Nottingham eTheses


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The dynamics of intracellular Ca⁺ is driven by random events called Ca⁺ puffs, in which Ca⁺ is liberated from intracellular stores. We show that the emergence of Ca⁺ puffs can be mapped to an escape process. The mean first passage times that correspond to the stochastic fraction of puff periods are computed from a novel master equation and two Fokker-Planck equations. Our results demonstrate that the mathematical modeling of Ca⁺ puffs has to account for the discrete character of the Ca⁺ release sites and does not permit a continuous description of the number of open channels.

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We present a bidomain threshold model of intracellular calcium (Ca⁺) dynamics in which, as suggested by recent experiments, the cytosolic threshold for Ca⁺ liberation is modulated by the Ca⁺ concentration in the releasing compartment. We explicitly construct stationary fronts and determine their stability using an Evans function approach. Our results show that a biologically motivated choice of a dynamic threshold, as opposed to a constant threshold, can pin stationary fronts that would otherwise be unstable. This illustrates a novel mechanism to stabilise pinned interfaces in continuous excitable systems. Our framework also allows us to compute travelling pulse solutions in closed form and systematically probe the wave speed as a function of physiologically important parameters. We find that the existence of travelling wave solutions depends on the time scale of the threshold dynamics, and that facilitating release by lowering the cytosolic threshold increases the wave speed. The construction of the Evans function for a travelling pulse shows that of the co-existing fast and slow solutions the slow one is always unstable.