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粘性环境中精子运动的一种新机制:螺旋形精子通过旋转游动。

A novel mechanism of sperm motility in a viscous environment: corkscrew-shaped spermatozoa cruise by spinning.

作者信息

Muto Kohei, Kubota Hiroshi Y

机构信息

Department of Zoology, Graduate School of Science, Kyoto University, Kyoto, Japan.

出版信息

Cell Motil Cytoskeleton. 2009 May;66(5):281-91. doi: 10.1002/cm.20358.

Abstract

Fertilization of the green tree frog, Rhacophorus arboreus, occurs in the viscous environment of a foam nest, which is laid on vegetation. Their spermatozoa have a characteristic corkscrew-shaped head and a thick tail that extends perpendicularly to its longitudinal axis. However, it is unclear how these corkscrew-shaped spermatozoa move in this highly viscous environment. Here, we found that the spinning of the corkscrew-shaped head, caused by winding and unwinding of the tail, enables the spermatozoa to move through the highly viscous environment of a foam nest, like a corkscrew rotating into a cork. We suggested that dislocations observed in the matrix of satellite microtubules surrounding two axonemes, reflected the planes of sliding of the axonemes, and dyneins on doublets two and six of each axoneme were active during winding and unwinding, respectively. These results provide a novel mechanism for sperm movement that is adapted specifically to a viscous fertilization environment.

摘要

绿树蛙(Rhacophorus arboreus)的受精过程发生在置于植被上的泡沫巢这种粘性环境中。它们的精子具有独特的螺旋状头部和一条与其纵轴垂直延伸的粗尾巴。然而,尚不清楚这些螺旋状精子如何在这种高粘性环境中移动。在此,我们发现由尾巴的缠绕和解绕引起的螺旋状头部的旋转,使精子能够像螺旋钻旋入软木塞一样在泡沫巢的高粘性环境中移动。我们推测,围绕两条轴丝的卫星微管基质中观察到的错位反映了轴丝的滑动平面,并且每条轴丝的双联体2和6上的动力蛋白分别在缠绕和解绕过程中发挥作用。这些结果为精子运动提供了一种专门适应粘性受精环境的新机制。

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