Dynamics of CENP-N kinetochore binding during the cell cycle.

Accurate chromosome segregation requires the assembly of kinetochores, multiprotein complexes that assemble on the centromere of each sister chromatid. A key step in this process involves binding of the constitutive centromere-associated network (CCAN) to CENP-A, the histone H3 variant that constitutes centromeric nucleosomes. This network is proposed to operate as a persistent structural scaffold for assembly of the outer kinetochore during mitosis. Here, we show by fluorescence resonance energy transfer (FRET) that the N-terminus of CENP-N lies in close proximity to the N-terminus of CENP-A in vivo, consistent with in vitro data showing direct binding of CENP-N to CENP-A. Furthermore, we demonstrate in living cells that CENP-N is bound to kinetochores during S phase and G2, but is largely absent from kinetochores during mitosis and G1. By measuring the dynamics of kinetochore binding, we reveal that CENP-N undergoes rapid exchange in G1 until the middle of S phase when it becomes stably associated with kinetochores. The majority of CENP-N is loaded during S phase and dissociates again during G2. We propose a model in which CENP-N functions as a fidelity factor during centromeric replication and reveal that the CCAN network is considerably more dynamic than previously appreciated.

Citation

Daniela Hellwig, Stephan Emmerth, Tobias Ulbricht, Volker Döring, Christian Hoischen, Ronny Martin, Catarina P Samora, Andrew D McAinsh, Christopher W Carroll, Aaron F Straight, Patrick Meraldi, Stephan Diekmann. Dynamics of CENP-N kinetochore binding during the cell cycle. Journal of cell science. 2011 Nov 15;124(Pt 22):3871-83

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PMID: 22100916

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