纤毛系统的同时性:描述异时性波特性对纤毛本征参数依赖性的模型。

L Gheber, Z Priel
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引用次数: 29

摘要

提出了一个数学模型来解释变向波的方向和长度与表征纤毛跳动的参数、纤毛的尺寸以及它们在纤毛表面上排列的几何形状的关系。变向波被分解成两个相互垂直的分量,其中一个分量的方向与有效冲程的方向一致。这两个分量的大小是通过使用相邻纤毛之间延迟时间的概念来确定的。然后以纤毛参数的函数来计算超向波的性质。用该模型得到的结果预测,波的传播方向强烈依赖于有效脉冲方向的异时性类型和纤毛拍在时间和空间上的极化。发现元向波长取决于四个参数:纤毛长度,纤毛尖端在恢复行程期间在细胞表面上投射的弧的角度,纤毛跳动的不对称程度,以及暂停占用的周期部分。我们还发现,偏时波长对纤毛频率的依赖性很弱。在这个阶段,存在相对较少的实验信息,以充分表征纤毛系统的超时性。即使只有部分信息存在,该模型也可以在一定范围内预测波的传播方向。本文还提出了环境条件变化对波浪方向和波长影响的可能机制。在一些确实存在充分信息的情况下,发现实验结果与模型预测之间有很好的一致性。根据该模型,对纤毛跳动的时间和空间极化以及纤毛之间的延迟时间进行测量是值得投入更多精力的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On metachronism in ciliary systems: a model describing the dependence of the metachronal wave properties on the intrinsic ciliary parameters.

A mathematical model is proposed to explain the dependence of the direction and the length of the metachronal wave on parameters that characterize the ciliary beat, the dimensions of the cilia, and the geometry of their arrangement on the ciliated surface. The metachronal wave is decomposed into two mutually perpendicular components, which are chosen in such a way that the direction of one of them is in the direction of the effective stroke. The magnitudes of the two components are determined by using the concept of the time of delay between adjacent cilia. The properties of the metachronal wave are then calculated as a function of the ciliary parameters. The results obtained with the present model predict that the direction of the wave propagation is strongly dependent on the type of metachronism in the direction of the effective stoke and the polarization in time and in space of the ciliary beat. The metachronal wavelength is found to depend on four parameters: the ciliary length, the angle of the arc projected on the cell surface by the ciliary tip during the recovery stroke, the degree of asymmetry of ciliary beat, and the portion of the cycle occupied by the pause. The metachronal wavelength is also found to be only weakly dependent on the ciliary frequency. At this stage there exists relatively little experimental information with which to characterize fully the metachronal properties of ciliary systems. Even when only partial information exists, the model allows prediction, to within a certain range, of the direction of the wave propagation. It also suggests a possible mechanism for the influence of changes in environmental conditions on wave direction and wavelength. In several cases in which full information does exist, good agreement between the experimental findings and the predictions of the model is found. According to this model it will be worthwhile to invest more effort in measuring the time and space polarization of ciliary beating and times of delay between cilia.

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