Kinesin is a two-headed motor protein that powers organelle transport along microtubules. Many ATP molecules are hydrolysed by kinesin for each diffusional encounter with the microtubule,. Here we report the development of a new assay in which the processive movement of individual fluorescently labelled kinesin molecules along a microtubule can be visualized directly; this observation is achieved by low-background total internal reflection fluorescence microscopy in the absence of attachment of the motor to a cargo (for example, an organelle or bead). The average distance travelled after a binding encounter with a microtubule is 600 nm, which reflects a ~ 1% probability of detachment per mechanical cycle. Surprisingly, processive movement could still be observed at salt concentrations as high as 0.3 M NaCl. Truncated kinesin molecules having only a single motor domain do not show detectable processive movement, which is consistent with a model in which kinesin’s two force-generating heads operate by a hand-over-hand mechanism.
展开▼
机译:Kinesin是一种双向运动蛋白,可促进细胞器沿着微管的运输 。每次扩散与微管, 接触时,驱动蛋白会水解许多ATP分子。在这里,我们报告了一种新的检测方法的开发,其中单个荧光标记的驱动蛋白分子沿微管的进行性运动可以直接观察到;此观察是通过在没有将马达连接到货物(例如,细胞器或珠子)的情况下通过低背景全内反射荧光显微镜 实现的。与微管结合后经过的平均距离为600 nm,这表示每个机械循环有约1%的分离可能性。出乎意料的是,在高达0.3 M NaCl的盐浓度下仍可以观察到进行性运动。仅具有单个运动域的截短的驱动蛋白分子未显示可检测的进行性运动,这与驱动蛋白的两个力产生头通过移交机制进行操作的模型相一致。
展开▼
