High speed sliding of axonemal microtubules produced by outer arm dynein.

Raviraja N Seetharam, Peter Satir
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引用次数: 13

Abstract

To study dynein arm activity at high temporal resolution, axonemal sliding was measured field by field for wild type and dynein arm mutants of Tetrahymena thermophila. For wt SB255 cells, when the rate of data acquisition was 60 fps, about 5x greater than previously published observations, sliding was observed to be discontinuous with very high velocity sliding (average 196 microm/sec) for a few msec (1 or 2 fields) followed by a pause of several fields. The sliding velocities measured were an order of magnitude greater than rates previously measured by video analysis. However, when the data were analyzed at 12 fps for the same axonemes, consistent with previous observations, sliding was linear as the axonemes extended several times their original length with an average velocity of approximately 10 microm/sec. The pauses or stops occurred at approximately 200 and 300% of the initial length, suggesting that dynein arms on one axonemal doublet were initially active to the limit of extension, and then the arms on the next doublet became activated. In contrast, in a mutant where OADs are missing, sliding observed at 60 fps was continuous and slow (5 microm/sec), as opposed to the discontinuous high-velocity sliding of SB255 and of the mutant at the permissive temperature where OADs are present. High-velocity step-wise sliding was also present in axonemes from an inner arm dynein mutant (KO6). These results indicate that the high-speed discontinuous pattern of sliding is produced by the mechanochemical activity of outer arm dynein. The rate of sliding is consistent with a low duty ratio of the outer arm dynein and with the operation of each arm along a doublet once per beat.

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外臂动力蛋白产生的轴突微管高速滑动。
为了在高时间分辨率下研究动力蛋白臂的活性,我们逐场测量了嗜热四膜虫野生型和动力蛋白臂突变体的轴突滑动。对于wt SB255细胞,当数据采集速率为60fps时,比先前发表的观察结果高约5倍,观察到滑动是不连续的,具有非常高的速度滑动(平均196微米/秒),持续几毫秒(1或2场),然后是几个场的暂停。测量到的滑动速度比以前通过视频分析测量到的速度大一个数量级。然而,当以12 fps的速度分析相同轴突组的数据时,与之前的观察结果一致,滑动是线性的,轴突组以大约10微米/秒的平均速度扩展了几倍于原始长度。暂停或停止发生在大约初始长度的200%和300%,这表明一个轴突双峰上的动力蛋白臂最初活跃到伸展的极限,然后下一个轴突上的动力蛋白臂被激活。相比之下,在缺乏oad的突变体中,在60 fps下观察到的滑动是连续且缓慢的(5微米/秒),而在存在oad的允许温度下,SB255和突变体的滑动是不连续的高速滑动。高速的逐步滑动也存在于内臂动力蛋白突变体(KO6)的轴突体中。这些结果表明,高速不连续滑动模式是由外臂动力蛋白的机械化学活性产生的。滑动率与外臂动力的低占空比和每条手臂沿双线每拍一次的操作一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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