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Structure of the human inner kinetochore bound to a centromeric CENP-A nucleosome

Stanislau Yatskevich, Kyle Muir, Dom Bellini, Ziguo Zhang, Jing Yang, Thomas Tischer, Masa Predin, Tom Dendooven, Stephen H. McLaughlin, David Barford

2022Science120 citationsDOIOpen Access PDF

Abstract

Kinetochores assemble onto specialized centromeric CENP-A (centromere protein A) nucleosomes (CENP-A Nuc ) to mediate attachments between chromosomes and the mitotic spindle. We describe cryo–electron microscopy structures of the human inner kinetochore constitutive centromere associated network (CCAN) complex bound to CENP-A Nuc reconstituted onto α-satellite DNA. CCAN forms edge-on contacts with CENP-A Nuc , and a linker DNA segment of the α-satellite repeat emerges from the fully wrapped end of the nucleosome to thread through the central CENP-LN channel that tightly grips the DNA. The CENP-TWSX histone-fold module further augments DNA binding and partially wraps the linker DNA in a manner reminiscent of canonical nucleosomes. Our study suggests that the topological entrapment of the linker DNA by CCAN provides a robust mechanism by which kinetochores withstand both pushing and pulling forces exerted by the mitotic spindle.

Topics & Concepts

KinetochoreCentromereNucleosomeCell biologyBiophysicsBiologyGeneticsChemistryDNAChromatinChromosomeGeneMicrotubule and mitosis dynamicsMitochondrial Function and PathologyGenetics and Neurodevelopmental Disorders
Structure of the human inner kinetochore bound to a centromeric CENP-A nucleosome | Litcius