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Evidence for anaphase pulling forces during<i>C. elegans</i>meiosis

Brennan M. Danlasky, Michelle T. Panzica, Karen Perry McNally, Elizabeth Vargas, Cynthia Bailey, Wenzhe Li, Ting Gong, Elizabeth S. Fishman, Xueer Jiang, Francis J. McNally

2020The Journal of Cell Biology39 citationsDOIOpen Access PDF

Abstract

Anaphase chromosome movement is thought to be mediated by pulling forces generated by end-on attachment of microtubules to the outer face of kinetochores. However, it has been suggested that during C. elegans female meiosis, anaphase is mediated by a kinetochore-independent pushing mechanism with microtubules only attached to the inner face of segregating chromosomes. We found that the kinetochore proteins KNL-1 and KNL-3 are required for preanaphase chromosome stretching, suggesting a role in pulling forces. In the absence of KNL-1,3, pairs of homologous chromosomes did not separate and did not move toward a spindle pole. Instead, each homolog pair moved together with the same spindle pole during anaphase B spindle elongation. Two masses of chromatin thus ended up at opposite spindle poles, giving the appearance of successful anaphase.

Topics & Concepts

AnaphaseKinetochoreCell biologyChromosome segregationMeiosisSpindle checkpointBiologySpindle apparatusMicrotubuleSpindle pole bodyChromosomeGeneticsCell divisionCellGeneMicrotubule and mitosis dynamicsDNA Repair MechanismsPhotosynthetic Processes and Mechanisms
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