Movement of turritella spermatozoa: direction of propagation and chirality of flagellar bends.

S Ishijima, S A Ishijima, B A Afzelius
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引用次数: 21

Abstract

The marine snail, Turritella communis, produces two types of spermatozoa, named apyrene and eupyrene. Eupyrene spermatozoa are usually paired, but unpaired ones are involved in fertilization. Movements of these spermatozoa were analyzed using a video camera with a high-speed shutter. The eupyrene spermatozoa usually swim with the head foremost but are able to swim flagellum foremost. A reversal of the direction of their swimming was found to be the result of a change in the direction of flagellar bend propagation, which changed with calcium concentration. Reversal of the direction of bend propagation was accompanied by a reversal of direction of the rotational movement of the spermatozoa around their long axis, suggesting that the bending waves keep the sense of their three-dimensional form. The swimming speed of apyrene spermatozoa in natural seawater was about one-eighth of that of the eupyrene ones and remained almost constant in highly viscous medium. The swimming speed of conjugated eupyrene spermatozoa was the same as that of unpaired spermatozoa over a wide viscosity range (<3,000 cP). No advantage of swimming by two spermatozoa could be detected in Turritella spermatozoa.

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菱形精子的运动:繁殖方向和鞭毛弯曲的手性。
海蜗牛Turritella communis能产生两种精子,分别是apyrene和eupyrene。真丝精子通常是成对的,但未成对的精子参与受精。使用高速快门的摄像机分析这些精子的运动。真核精子通常头在前游动,但鞭毛在前游动。研究发现,它们游动方向的逆转是鞭毛弯曲繁殖方向发生变化的结果,而鞭毛弯曲繁殖方向随着钙浓度的变化而变化。弯曲传播方向的逆转伴随着精子绕其长轴旋转运动方向的逆转,这表明弯曲波保持了其三维形式的感觉。无炔精子在自然海水中的游动速度约为真炔精子的八分之一,在高粘性介质中几乎保持不变。在较宽的黏度范围内,共轭真核精子的游动速度与未配对精子的游动速度相同(
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