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Cortical dynein pulling mechanism is regulated by differentially targeted attachment molecule Num1

Elife.. 2018-08; 
Omer S, Greenberg SR, Lee WL.
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摘要

Cortical dynein generates pulling forces via microtubule (MT) end capture-shrinkage and lateral MT sliding mechanisms. In Saccharomyces cerevisiae, the dynein attachment molecule Num1 interacts with endoplasmic reticulum (ER) and mitochondria to facilitate spindle positioning across the mother-bud neck, but direct evidence for how these cortical contacts regulate dynein-dependent pulling forces is lacking. We show that loss of Scs2/Scs22, ER tethering proteins, resulted in defective Num1 distribution and loss of dynein-dependent MT sliding, the hallmark of dynein function. Cells lacking Scs2/Scs22 performed spindle positioning via MT end capture-shrinkage mechanism, requiring dynein anchorage to an ER- and mito... More

关键词

S. cerevisiae; cell biology; dynactin; dynein; nuclear migration; spindle positioning; yeast
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