Summary
A unique spindle apparatus develops during mitosis in the micronucleus ofParamecium bursaria. During interphase the micronucleus contains short microtubule profiles and clumps of condensed chromatin. Throughout mitosis the nuclear envelope remains intact. During prophase, cup-shaped structures termed microlamellae develop in close association with regions of condensed chromatin. Each micromella consists of an outer sublamella, an inner sublamellae, and ring-shaped structures termed microsepta that join the two sublamellae. Microtubules elongate parallel to the division axis. During metaphase, the microlamellae appear to act as kinetochorelike structures that aid in the alignment of the chromosomes. The microlamellae appear conical and join to a meshwork of microfilaments at their apices. Further toward the polar regions the microfilaments join with microtubules that converge and terminate near the nuclear envelope. During metaphase-anaphase and anaphase the chromosomes are apparently moved by the microfilaments pulling on the kinetochorelike microlamellae. Also during metaphase-anaphase, extranuclear microtubules join the nuclear envelope of the micronucleus to microtubule elements of the cell cortex. By anaphasetelophase, microlamellae and the microfilament meshwork degenerate and microtubules represent the only spindle elements. The evidence of this report supports the hypothesis that microfilaments can participate with microtubules in the movement of chromosomes.
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Lewis, L.M., Witkus, E.R. & Vernon, G.M. The role of microtubules and microfilaments in the micronucleus ofParamecium bursaria during mitosis. Protoplasma 89, 203–219 (1976). https://doi.org/10.1007/BF01275740
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DOI: https://doi.org/10.1007/BF01275740