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W4200526611 abstract "A microtubule-based machine called the mitotic spindle segregates chromosomes when eukaryotic cells divide. In the fission yeast Schizosaccharomyces pombe, which undergoes closed mitosis, the spindle forms a single bundle of microtubules inside the nucleus. During elongation, the spindle extends via antiparallel microtubule sliding by molecular motors. These extensile forces from the spindle are thought to resist compressive forces from the nucleus. We probe the mechanism and maintenance of this force balance via laser ablation of spindles at various stages of mitosis. We find that spindle pole bodies collapse toward each other after ablation, but spindle geometry is often rescued, allowing spindles to resume elongation. Although this basic behavior has been previously observed, many questions remain about the phenomenon's dynamics, mechanics, and molecular requirements. In this work, we find that previously hypothesized viscoelastic relaxation of the nucleus cannot explain spindle shortening in response to laser ablation. Instead, spindle collapse requires microtubule dynamics and is powered by the minus-end-directed motor proteins dynein Dhc1 and kinesin-14 Klp2, but it does not require the minus-end-directed kinesin Pkl1." @default.
W4200526611 created "2021-12-31" @default.
W4200526611 creator A5002287842 @default.
W4200526611 creator A5082849240 @default.
W4200526611 date "2022-01-01" @default.
W4200526611 modified "2023-10-18" @default.
W4200526611 title "Force by minus-end motors Dhc1 and Klp2 collapses the S. pombe spindle after laser ablation" @default.
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W4200526611 cites W1821860296 @default.
W4200526611 cites W1967507327 @default.
W4200526611 cites W1971909950 @default.
W4200526611 cites W1972898402 @default.
W4200526611 cites W1974372763 @default.
W4200526611 cites W1988517985 @default.
W4200526611 cites W1993821256 @default.
W4200526611 cites W1995190241 @default.
W4200526611 cites W1995749082 @default.
W4200526611 cites W2009639839 @default.
W4200526611 cites W2010554051 @default.
W4200526611 cites W2022701539 @default.
W4200526611 cites W2028239476 @default.
W4200526611 cites W2030430077 @default.
W4200526611 cites W2030668854 @default.
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W4200526611 cites W2057332188 @default.
W4200526611 cites W2059074907 @default.
W4200526611 cites W2061348251 @default.
W4200526611 cites W2061535202 @default.
W4200526611 cites W2061629617 @default.
W4200526611 cites W2068625350 @default.
W4200526611 cites W2070122527 @default.
W4200526611 cites W2071941030 @default.
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W4200526611 cites W2074639752 @default.
W4200526611 cites W2090841905 @default.
W4200526611 cites W2093478203 @default.
W4200526611 cites W2095639780 @default.
W4200526611 cites W2097740706 @default.
W4200526611 cites W2099337089 @default.
W4200526611 cites W2107107543 @default.
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W4200526611 cites W2112770273 @default.
W4200526611 cites W2132705366 @default.
W4200526611 cites W2143708956 @default.
W4200526611 cites W2143987043 @default.
W4200526611 cites W2149097299 @default.
W4200526611 cites W2154235253 @default.
W4200526611 cites W2154705653 @default.
W4200526611 cites W2162996117 @default.
W4200526611 cites W2166731646 @default.
W4200526611 cites W2167257739 @default.
W4200526611 cites W2200094643 @default.
W4200526611 cites W2263321396 @default.
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W4200526611 cites W2411128394 @default.
W4200526611 cites W2577847218 @default.
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W4200526611 cites W2675059502 @default.
W4200526611 cites W2765773244 @default.
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W4200526611 cites W3021197101 @default.
W4200526611 cites W3173504119 @default.
W4200526611 cites W3200894130 @default.
W4200526611 cites W4226190366 @default.
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W4200526611 doi "https://doi.org/10.1016/j.bpj.2021.12.019" @default.
W4200526611 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34951983" @default.
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