Assembly of microtubules and actomyosin rings in the absence of nuclei and spindle pole bodies revealed by a novel genetic method

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Abstract

Background. The nucleus and the centrosomes (spindle pole bodies; SPBs in yeast) are believed to play key roles. In the organization of various cellular structures, such as the actomyosin ring and microtubules. The ability to generate cells lacking nuclei and centrosomes (SPBs) is key to the elucidation of the role, of these, structures in various cellular processes. Methodology/Principal Findings. Here we describe a genetic method, using the Schizosaccharomyces pombe cdc16-116 mutant, to reliably and efficiently generate fission yeast cells lacking nuclei and SPBs. We use this approach to show that the assembly of microtubules does not require nuclear associated microtubule organizing centers and SPBs. We also show that actomyosin rings can assemble albeit inefficiently in the absence of nuclei and SPBs. Conclusion. We conclude that key cytoskeletal elements can be assembled in the absence of nuclei and SPBS. In addition, the approach we describe, taken together with physical approachet such as centrifugation, should facilitate the investigation of the role of the nucleus and SPBs in the assembly and inheritance of various cellular structures and organelles. © 2007 Huang et al.

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Huang, Y., Tran, P. T., Oliferenko, S., & Balasubramanian, M. K. (2007). Assembly of microtubules and actomyosin rings in the absence of nuclei and spindle pole bodies revealed by a novel genetic method. PLoS ONE, 2(7). https://doi.org/10.1371/journal.pone.0000618

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