Chl1p, a DNA Helicase-Like Protein in Budding Yeast, Functions in Sister-Chromatid Cohesion

doi:10.1534/genetics.166.1.33

Chl1p, a DNA Helicase-Like Protein in Budding Yeast, Functions in Sister-Chromatid Cohesion

Robert V. Skibbens^a
^a Department of Biological Sciences, Lehigh University, Bethlehem, Pennsylvania 18015

Corresponding author: Robert V. Skibbens, Lehigh University, 111 Research Dr., Bethlehem, PA 18015., rvs3{at}lehigh.edu (E-mail)

Communicating editor: B. J. ANDREWS

From the time of DNA replication until anaphase onset, sisterchromatids remain tightly paired along their length. Ctf7p/Eco1pis essential to establish sister-chromatid pairing during S-phaseand associates with DNA replication components. DNA helicasesprecede the DNA replication fork and thus will first encounterchromatin sites destined for cohesion. In this study, I providethe first evidence that a DNA helicase is required for propersister-chromatid cohesion. Characterizations of chl1 mutantcells reveal that CHL1 interacts genetically with both CTF7/ECO1and CTF18/CHL12, two genes that function in sister-chromatidcohesion. Consistent with genetic interactions, Chl1p physicallyassociates with Ctf7p/Eco1p both in vivo and in vitro. Finally,a functional assay reveals that Chl1p is critical for sister-chromatidcohesion. Within the budding yeast genome, Chl1p exhibits thehighest degree of sequence similarity to human CHL1 isoformsand BACH1. Previous studies revealed that human CHLR1 exhibitsDNA helicase-like activities and that BACH1 is a helicase-likeprotein that associates with the tumor suppressor BRCA1 to maintaingenome integrity. Our findings document a novel role for Chl1pin sister-chromatid cohesion and provide new insights into thepossible mechanisms through which DNA helicases may contributeto cancer progression when mutated.

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