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A Contractile Nuclear Actin Network Drives Chromosome Congression in Oocytes

Overview
Journal Nature
Specialty Science
Date 2005 Jul 15
PMID 16015286
Citations 99
Authors
Peter Lenart
Christian P Bacher
Nathalie Daigle
Arthur R Hand
Roland Eils
Mark Terasaki
Jan Ellenberg
Affiliations
Soon will be listed here.
Abstract

Chromosome capture by microtubules is widely accepted as the universal mechanism of spindle assembly in dividing cells. However, the observed length of spindle microtubules and computer simulations of spindle assembly predict that chromosome capture is efficient in small cells, but may fail in cells with large nuclear volumes such as animal oocytes. Here we investigate chromosome congression during the first meiotic division in starfish oocytes. We show that microtubules are not sufficient for capturing chromosomes. Instead, chromosome congression requires actin polymerization. After nuclear envelope breakdown, we observe the formation of a filamentous actin mesh in the nuclear region, and find that contraction of this network delivers chromosomes to the microtubule spindle. We show that this mechanism is essential for preventing chromosome loss and aneuploidy of the egg--a leading cause of pregnancy loss and birth defects in humans.

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