衣藻通过两个“齿轮”在真核生物版的趋避运动中游泳。

Chlamydomonas swims with two "gears" in a eukaryotic version of run-and-tumble locomotion.

作者信息

Polin Marco, Tuval Idan, Drescher Knut, Gollub J P, Goldstein Raymond E

机构信息

Department of Applied Mathematics and Theoretical Physics, University of Cambridge, Wilberforce Road, Cambridge CB3 0WA, UK.

出版信息

Science. 2009 Jul 24;325(5939):487-90. doi: 10.1126/science.1172667.

DOI:10.1126/science.1172667

PMID:19628868

Abstract

The coordination of eukaryotic flagella is essential for many of the most basic processes of life (motility, sensing, and development), yet its emergence and regulation and its connection to locomotion are poorly understood. Previous studies show that the unicellular alga Chlamydomonas, widely regarded as an ideal system in which to study flagellar biology, swims forward by the synchronous action of its two flagella. Using high-speed imaging over long intervals, we found a richer behavior: A cell swimming in the dark stochastically switches between synchronous and asynchronous flagellar beating. Three-dimensional tracking shows that these regimes lead, respectively, to nearly straight swimming and to abrupt large reorientations, which yield a eukaryotic version of the "run-and-tumble" motion of peritrichously flagellated bacteria.

摘要

真核生物鞭毛的协调对于许多最基本的生命过程（运动、感知和发育）至关重要，但其出现、调控以及与运动的联系却鲜为人知。先前的研究表明，单细胞藻类衣藻被广泛认为是研究鞭毛生物学的理想系统，它通过两条鞭毛的同步作用向前游动。通过长时间的高速成像，我们发现了一种更丰富的行为：在黑暗中游泳的细胞会在鞭毛同步和异步摆动之间随机切换。三维跟踪显示，这些状态分别导致几乎直线的游动和突然的大幅重新定向，从而产生了一种真核生物版的周身鞭毛细菌的“游动-翻滚”运动模式。

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衣藻通过两个“齿轮”在真核生物版的趋避运动中游泳。

Chlamydomonas swims with two "gears" in a eukaryotic version of run-and-tumble locomotion.

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