Lucie Y. Guo scite author profile

Summary During mitosis, the macromolecular kinetochore complex assembles on the centromere to orchestrate chromosome segregation. The properties and architecture of the 16-subunit Constitutive Centromere-Associated Network (CCAN) that allow it to build a robust platform for kinetochore assembly are poorly understood. Here, we use inducible CRISPR knockouts and biochemical reconstitutions to define the interactions between the human CCAN proteins. We find that the CCAN does not assemble as a linear hierarchy, and instead, each sub-complex requires multiple non-redundant interactions for its localization to centromeres and the structural integrity of the overall assembly. We demonstrate that the CENP-L-N complex plays a crucial role at the core of this assembly through interactions with CENP-C and CENP-H-I-K-M. Finally, we show that the CCAN is remodeled over the cell cycle such that sub-complexes depend on their interactions differentially. Thus, an interdependent meshwork within the CCAN underlies the centromere specificity and stability of the kinetochore.

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CENP-C reshapes and stabilizes CENP-A nucleosomes at the centromere

Falk

Guo

Sekulić

et al. 2015

Science

194

236

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Inheritance of each chromosome depends upon its centromere. A histone H3 variant, CENP-A, is essential for epigenetically marking centromere location. We find that CENP-A is quantitatively retained at the centromere upon which it is initially assembled. CENP-C binds to CENP-A nucleosomes and is a prime candidate to stabilize centromeric chromatin. Using purified components, we find that CENP-C reshapes the octameric histone core of CENP-A nucleosomes, rigidifies both surface and internal nucleosome structure, and modulates terminal DNA to match the loose wrap that is found on native CENP-A nucleosomes at functional human centromeres. Thus, CENP-C affects nucleosome shape and dynamics in a manner analogous to allosteric regulation of enzymes. CENP-C depletion leads to rapid removal of CENP-A from centromeres, indicating their collaboration in maintaining centromere identity.

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Centromeres are maintained by fastening CENP-A to DNA and directing an arginine anchor-dependent nucleosome transition

et al. 2017

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Maintaining centromere identity relies upon the persistence of the epigenetic mark provided by the histone H3 variant, centromere protein A (CENP-A), but the molecular mechanisms that underlie its remarkable stability remain unclear. Here, we define the contributions of each of the three candidate CENP-A nucleosome-binding domains (two on CENP-C and one on CENP-N) to CENP-A stability using gene replacement and rapid protein degradation. Surprisingly, the most conserved domain, the CENP-C motif, is dispensable. Instead, the stability is conferred by the unfolded central domain of CENP-C and the folded N-terminal domain of CENP-N that becomes rigidified 1,000-fold upon crossbridging CENP-A and its adjacent nucleosomal DNA. Disrupting the ‘arginine anchor' on CENP-C for the nucleosomal acidic patch disrupts the CENP-A nucleosome structural transition and removes CENP-A nucleosomes from centromeres. CENP-A nucleosome retention at centromeres requires a core centromeric nucleosome complex where CENP-C clamps down a stable nucleosome conformation and CENP-N fastens CENP-A to the DNA.

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Both tails and the centromere targeting domain of CENP-A are required for centromere establishment

et al. 2015

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Lucie Y. Guo

The CENP-L-N Complex Forms a Critical Node in an Integrated Meshwork of Interactions at the Centromere-Kinetochore Interface

CENP-C reshapes and stabilizes CENP-A nucleosomes at the centromere

Centromeres are maintained by fastening CENP-A to DNA and directing an arginine anchor-dependent nucleosome transition

Both tails and the centromere targeting domain of CENP-A are required for centromere establishment

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