Publication Date:
2013-10-01
Description:
The chromosome alignment is mediated by polar ejection and poleward forces acting on the chromosome arm and kinetochores, respectively. Although components of the motile machinery such as chromokinesin have been characterized, their dynamics within the spindle is poorly understood. Here we show that a quantum dot (Qdot) binding up to four Xenopus chromokinesin (Xkid) molecules behaved like a nanosize chromosome arm in the meiotic spindle, which is self-organized in cytoplasmic egg extracts. Xkid-Qdots travelled long distances along microtubules by changing several tracks, resulting in their accumulation toward and distribution around the metaphase plate. The analysis indicated that the direction of motion and velocity depend on the distribution of microtubule polarity within the spindle. Thus, this mechanism is governed by chromokinesin motors, which is dependent on symmetrical microtubule orientation that may allow chromosomes to maintain their position around the spindle equator until correct microtubule–kinetochore attachment is established. Scientific Reports 3 doi: 10.1038/srep02808
Electronic ISSN:
2045-2322
Topics:
Natural Sciences in General
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