PLoS Genetics (Apr 2016)

A Cohesin-Based Partitioning Mechanism Revealed upon Transcriptional Inactivation of Centromere.

  • Michael Tsabar,
  • Julian Haase,
  • Benjamin Harrison,
  • Chloe E Snider,
  • Brittany Eldridge,
  • Lila Kaminsky,
  • Rebecca M Hine,
  • James E Haber,
  • Kerry Bloom

DOI
https://doi.org/10.1371/journal.pgen.1006021
Journal volume & issue
Vol. 12, no. 4
p. e1006021

Abstract

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Transcriptional inactivation of the budding yeast centromere has been a widely used tool in studies of chromosome segregation and aneuploidy. In haploid cells when an essential chromosome contains a single conditionally inactivated centromere (GAL-CEN), cell growth rate is slowed and segregation fidelity is reduced; but colony formation is nearly 100%. Pedigree analysis revealed that only 30% of the time both mother and daughter cell inherit the GAL-CEN chromosome. The reduced segregation capacity of the GAL-CEN chromosome is further compromised upon reduction of pericentric cohesin (mcm21∆), as reflected in a further diminishment of the Mif2 kinetochore protein at GAL-CEN. By redistributing cohesin from the nucleolus to the pericentromere (by deleting SIR2), there is increased presence of the kinetochore protein Mif2 at GAL-CEN and restoration of cell viability. These studies identify the ability of cohesin to promote chromosome segregation via kinetochore assembly, in a situation where the centromere has been severely compromised.