Abstract
Using Xenopus egg extracts arrested in interphase or mitosis, we directly observed differences in microtubule dynamics at different stages of the cell cycle. Interphase extracts were prepared from eggs in the first interphase after meiosis. Mitotic extracts were prepared by addition of purified cyclin to interphase extracts. Microtubules were nucleated by the addition of centrosomes and visualized by fluorescence videomicroscopy in extracts to which rhodamine-labeled tubulin had been added. We found a striking difference in microtubule dynamics in mitotic versus interphase extracts. Quantitative analysis revealed that the rates of polymerization and depolymerization are similar in interphase and mitosis and that within the spatial and temporal resolution of our experiments the difference in dynamics is due almost entirely to an increase in the frequency of transition from growing to shrinking (catastrophe frequency) in the mitotic extracts.
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