一种包含轴丝扭转并与三维纤毛弯曲兼容的滑动微管模型。
A sliding microtubule model incorporating axonemal twist and compatible with three-dimensional ciliary bending.
作者信息
Holwill M E, Cohen H J, Satir P
出版信息
J Exp Biol. 1979 Feb;78:265-80. doi: 10.1242/jeb.78.1.265.
PMID:438720
Abstract
- Equations are developed to calculate the relative displacements of the doublet microtubules at the tip of a cilium when the microtubules twist about the axis of the organelle. 2. Displacements measured from electron micrographs show asymmetry (or skew) which can be matched quantitatively by the theoretical model with the appropriate selection of twist angle and orientation of the axoneme with respect to the plane of beat. 3. For Elliptio cilia the experimental results are consistent with a planar effective stroke and a recovery stroke involving a three-dimensional bend. The plane of the effective stroke is not normal to a surface containing the central pair of microtubules but contains microtubule 2 to produce the observed skew. 4. This model for the beat also explains the range of orientations of axoneme observed in sections through the metachronal wave.
摘要
- 当微管围绕细胞器轴扭转时,推导出方程以计算纤毛尖端双联体微管的相对位移。2. 从电子显微镜照片测量的位移显示出不对称性(或偏斜),通过适当选择扭转角度和轴丝相对于摆动平面的方向,理论模型可以对其进行定量匹配。3. 对于椭圆贝螅的纤毛,实验结果与平面有效冲程和涉及三维弯曲的恢复冲程一致。有效冲程平面不垂直于包含中央微管对的表面,而是包含微管2以产生观察到的偏斜。4. 这种摆动模型还解释了在通过顺向波的切片中观察到的轴丝取向范围。
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