The Flexible Ends of CENP-A Nucleosome Are Required for Mitotic Fidelity

Yohan Roulland; Khalid Ouararhni; Mladen Naidenov; Lorrie Ramos; Muhammad Shuaib; Sajad Hussain Syed; Imtiaz Nizar Lone; Ramachandran Boopathi; Emeline Fontaine; Gabor Papai; Hiroaki Tachiwana; Thierry Gautier; Dimitrios Skoufias; Kiran Padmanabhan; Jan Bednar; Hitoshi Kurumizaka; Patrick Schultz; Dimitar Angelov; Ali Hamiche; Stefan Dimitrov

doi:10.1016/j.molcel.2016.06.023

The Flexible Ends of CENP-A Nucleosome Are Required for Mitotic Fidelity

Yohan Roulland, Khalid Ouararhni, Mladen Naidenov, Lorrie Ramos, Muhammad Shuaib, Sajad Hussain Syed, Imtiaz Nizar Lone, Ramachandran Boopathi, Emeline Fontaine, Gabor Papai, Hiroaki Tachiwana, Thierry Gautier, Dimitrios Skoufias, Kiran Padmanabhan, Jan Bednar, Hitoshi Kurumizaka, Patrick Schultz, Dimitar Angelov^*, Ali Hamiche, Stefan Dimitrov

^*この研究の対応する著者

研究成果: Article › 査読

58 被引用数 (Scopus)

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CENP-A is a histone variant, which replaces histone H3 at centromeres and confers unique properties to centromeric chromatin. The crystal structure of CENP-A nucleosome suggests flexible nucleosomal DNA ends, but their dynamics in solution remains elusive and their implication in centromere function is unknown. Using electron cryo-microscopy, we determined the dynamic solution properties of the CENP-A nucleosome. Our biochemical, proteomic, and genetic data reveal that higher flexibility of DNA ends impairs histone H1 binding to the CENP-A nucleosome. Substituting the 2-turn αN-helix of CENP-A with the 3-turn αN-helix of H3 results in compact particles with rigidified DNA ends, able to bind histone H1. In vivo replacement of CENP-A with H3-CENP-A hybrid nucleosomes leads to H1 recruitment, delocalization of kinetochore proteins, and significant mitotic and cytokinesis defects. Our data reveal that the evolutionarily conserved flexible ends of the CENP-A nucleosomes are essential to ensure the fidelity of the mitotic pathway.

本文言語	English
ページ（範囲）	674-685
ページ数	12
ジャーナル	Molecular Cell
巻	63
号	4
DOI	https://doi.org/10.1016/j.molcel.2016.06.023
出版ステータス	Published - 2016 8月 18

ASJC Scopus subject areas

分子生物学
細胞生物学

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Roulland, Y., Ouararhni, K., Naidenov, M., Ramos, L., Shuaib, M., Syed, S. H., Lone, I. N., Boopathi, R., Fontaine, E., Papai, G., Tachiwana, H., Gautier, T., Skoufias, D., Padmanabhan, K., Bednar, J., Kurumizaka, H., Schultz, P., Angelov, D., Hamiche, A., & Dimitrov, S. (2016). The Flexible Ends of CENP-A Nucleosome Are Required for Mitotic Fidelity. Molecular Cell, 63(4), 674-685. https://doi.org/10.1016/j.molcel.2016.06.023

Roulland, Y, Ouararhni, K, Naidenov, M, Ramos, L, Shuaib, M, Syed, SH, Lone, IN, Boopathi, R, Fontaine, E, Papai, G, Tachiwana, H, Gautier, T, Skoufias, D, Padmanabhan, K, Bednar, J, Kurumizaka, H, Schultz, P, Angelov, D, Hamiche, A & Dimitrov, S 2016, 'The Flexible Ends of CENP-A Nucleosome Are Required for Mitotic Fidelity', Molecular Cell, vol. 63, no. 4, pp. 674-685. https://doi.org/10.1016/j.molcel.2016.06.023

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abstract = "CENP-A is a histone variant, which replaces histone H3 at centromeres and confers unique properties to centromeric chromatin. The crystal structure of CENP-A nucleosome suggests flexible nucleosomal DNA ends, but their dynamics in solution remains elusive and their implication in centromere function is unknown. Using electron cryo-microscopy, we determined the dynamic solution properties of the CENP-A nucleosome. Our biochemical, proteomic, and genetic data reveal that higher flexibility of DNA ends impairs histone H1 binding to the CENP-A nucleosome. Substituting the 2-turn αN-helix of CENP-A with the 3-turn αN-helix of H3 results in compact particles with rigidified DNA ends, able to bind histone H1. In vivo replacement of CENP-A with H3-CENP-A hybrid nucleosomes leads to H1 recruitment, delocalization of kinetochore proteins, and significant mitotic and cytokinesis defects. Our data reveal that the evolutionarily conserved flexible ends of the CENP-A nucleosomes are essential to ensure the fidelity of the mitotic pathway.",

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AU - Ouararhni, Khalid

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AU - Ramos, Lorrie

AU - Shuaib, Muhammad

AU - Syed, Sajad Hussain

AU - Lone, Imtiaz Nizar

AU - Boopathi, Ramachandran

AU - Fontaine, Emeline

AU - Papai, Gabor

AU - Tachiwana, Hiroaki

AU - Gautier, Thierry

AU - Skoufias, Dimitrios

AU - Padmanabhan, Kiran

AU - Bednar, Jan

AU - Kurumizaka, Hitoshi

AU - Schultz, Patrick

AU - Angelov, Dimitar

AU - Hamiche, Ali

AU - Dimitrov, Stefan

PY - 2016/8/18

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N2 - CENP-A is a histone variant, which replaces histone H3 at centromeres and confers unique properties to centromeric chromatin. The crystal structure of CENP-A nucleosome suggests flexible nucleosomal DNA ends, but their dynamics in solution remains elusive and their implication in centromere function is unknown. Using electron cryo-microscopy, we determined the dynamic solution properties of the CENP-A nucleosome. Our biochemical, proteomic, and genetic data reveal that higher flexibility of DNA ends impairs histone H1 binding to the CENP-A nucleosome. Substituting the 2-turn αN-helix of CENP-A with the 3-turn αN-helix of H3 results in compact particles with rigidified DNA ends, able to bind histone H1. In vivo replacement of CENP-A with H3-CENP-A hybrid nucleosomes leads to H1 recruitment, delocalization of kinetochore proteins, and significant mitotic and cytokinesis defects. Our data reveal that the evolutionarily conserved flexible ends of the CENP-A nucleosomes are essential to ensure the fidelity of the mitotic pathway.

AB - CENP-A is a histone variant, which replaces histone H3 at centromeres and confers unique properties to centromeric chromatin. The crystal structure of CENP-A nucleosome suggests flexible nucleosomal DNA ends, but their dynamics in solution remains elusive and their implication in centromere function is unknown. Using electron cryo-microscopy, we determined the dynamic solution properties of the CENP-A nucleosome. Our biochemical, proteomic, and genetic data reveal that higher flexibility of DNA ends impairs histone H1 binding to the CENP-A nucleosome. Substituting the 2-turn αN-helix of CENP-A with the 3-turn αN-helix of H3 results in compact particles with rigidified DNA ends, able to bind histone H1. In vivo replacement of CENP-A with H3-CENP-A hybrid nucleosomes leads to H1 recruitment, delocalization of kinetochore proteins, and significant mitotic and cytokinesis defects. Our data reveal that the evolutionarily conserved flexible ends of the CENP-A nucleosomes are essential to ensure the fidelity of the mitotic pathway.

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The Flexible Ends of CENP-A Nucleosome Are Required for Mitotic Fidelity

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