Closing the cohesin ring: Structure and function of its Smc3-kleisin interface

Gligoris, Thomas G.; Scheinost, Johanna C.; Bürmann, Frank; Petela, Naomi; Chan, Kok-Lung; Uluocak, Pelin; Beckouet, Frederic; Gruber, Stephan; Nasmyth, Kim; Löwe, Jan

doi:10.1126/science.1256917

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Closing the cohesin ring: Structure and function of its Smc3-kleisin interface

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Bürmann, Frank
Gruber, Stephan / Chromosome Organization and Dynamics, Max Planck Institute of Biochemistry, Max Planck Society;

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Gruber, Stephan
Gruber, Stephan / Chromosome Organization and Dynamics, Max Planck Institute of Biochemistry, Max Planck Society;

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Gligoris, T. G., Scheinost, J. C., Bürmann, F., Petela, N., Chan, K.-L., Uluocak, P., et al. (2014). Closing the cohesin ring: Structure and function of its Smc3-kleisin interface. SCIENCE, 346(6212), 963-967. doi:10.1126/science.1256917.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0024-90A3-9

Abstract

Through their association with a kleisin subunit (Scc1), cohesin's Smc1 and Smc3 subunits are thought to form tripartite rings that mediate sister chromatid cohesion. Unlike the structure of Smc1/Smc3 and Smc1/Scc1 interfaces, that of Smc3/Scc1 is not known. Disconnection of this interface is thought to release cohesin from chromosomes in a process regulated by acetylation. We show here that the N-terminal domain of yeast Sccl contains two alpha helices, forming a four-helix bundle with the coiled coil emerging from Smc3's adenosine triphosphatase head. Mutations affecting this interaction compromise cohesin's association with chromosomes. The interface is far from Smc3 residues, whose acetylation prevents cohesin's dissociation from chromosomes. Cohesin complexes holding chromatids together in vivo do indeed have the configuration of hetero-trimeric rings, and sister DNAs are entrapped within these.