, Centromeres of mammalian chromosomes, Trends Genet, vol.6, pp.410-416, 1990.
, Formation of de novo centromeres and construction of first-generation human artificial microchromosomes, Nat. Genet, vol.15, pp.345-355, 1997.
, A 17-kD centromere protein (CENP-A) copurifies with nucleosome core particles and with histones, J. Cell Biol, vol.104, pp.805-815, 1987.
, Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone, Proc. Natl Acad. Sci. USA, vol.88, pp.3734-3738, 1991.
, Three human chromosomal autoantigens are recognized by sera from patients with anticentromere antibodies, J. Clin. Invest, vol.77, pp.426-430, 1986.
, Three related centromere proteins are absent from the inactive centromere of a stable isodicentric chromosome, Chromosoma, vol.92, pp.290-296, 1985.
, Human CENP-A contains a histone H3 related histone fold domain that is required for targeting to the centromere, J. Cell Biol, vol.127, pp.581-592, 1994.
, Human centromere protein A (CENP-A) can replace histone H3 in nucleosome reconstitution in vitro, Proc. Natl Acad. Sci. USA, vol.97, pp.7266-7271, 2000.
, Propagation of centromeric chromatin requires exit from mitosis, J. Cell Biol, vol.176, pp.795-805, 2007.
, Dynamics of inner kinetochore assembly and maintenance in living cells, J. Cell Biol, vol.180, pp.1101-1114, 2008.
, Centromere-Specific Assembly of CENP-A Nucleosomes Is Mediated by HJURP, Cell, vol.137, pp.472-484, 2009.
, HJURP Is a Cell-Cycle-Dependent Maintenance and Deposition Factor of CENP-A at Centromeres, Cell, vol.137, pp.485-497, 2009.
, HJURP binds CENP-A via a highly conserved N-terminal domain and mediates its deposition at centromeres, Proc. Natl Acad. Sci. USA, vol.107, pp.1349-1354, 2010.
, NATURE COMMUNICATIONS |, vol.10, p.4436, 2019.
, Chromatin assembly at kinetochores is uncoupled from DNA replication, J. Cell Biol, vol.151, pp.1113-1118, 2000.
, Chaperoning the histone H3 family, Biochim. Biophys. Acta BBA -Gene Regul. Mech, vol.1819, pp.230-237, 2012.
, Chromatin dynamics during the cell cycle at centromeres, Nat. Rev. Genet, vol.18, pp.192-208, 2017.
, Epigenetic engineering shows H3K4me2 is required for HJURP targeting and CENP-A assembly on a synthetic human kinetochore, EMBO J, vol.30, pp.328-340, 2011.
, Dimerization of the CENP-A assembly factor HJURP is required for centromeric nucleosome deposition, EMBO J, vol.32, pp.2113-2124, 2013.
, Crystal structure of the human centromeric nucleosome containing CENP-A, Nature, vol.476, pp.232-235, 2011.
, Structural transitions of centromeric chromatin regulate the cell cycle-dependent recruitment of CENP-N, Genes Dev, vol.29, pp.1058-1073, 2015.
, Cell-cycle-dependent structural transitions in the human CENP-A nucleosome in vivo, Cell, vol.150, pp.317-326, 2012.
, A super-resolution map of the vertebrate kinetochore, Proc. Natl Acad. Sci. USA, vol.107, pp.10484-10489, 2010.
, Heterogeneous architecture of vertebrate kinetochores revealed by three-dimensional superresolution fluorescence microscopy, Mol. Biol. Cell, vol.27, pp.3395-3404, 2016.
, Three-dimensional localization of CENP-A suggests a complex higher order structure of centromeric chromatin, J. Cell Biol, vol.183, pp.1193-1202, 2008.
, Chromosome segregation is biased by kinetochore size, Curr. Biol, vol.28, pp.1344-1356, 2018.
, Super-resolution fluorescence microscopy, Annu. Rev. Biochem, vol.78, pp.993-1016, 2009.
, Direct stochastic optical reconstruction microscopy with standard fluorescent probes, Nat. Protoc, vol.6, pp.991-1009, 2011.
, Imaging intracellular fluorescent proteins at nanometer resolution, Science, vol.313, pp.1642-1645, 2006.
, Breaking the diffraction resolution limit by stimulated emission: stimulated-emission-depletion fluorescence microscopy, Opt. Lett, vol.19, pp.780-782, 1994.
, Three-dimensional superresolution imaging by stochastic optical reconstruction microscopy, Science, vol.319, pp.810-813, 2008.
, PSF shaping using adaptive optics for three-dimensional single-molecule super-resolution imaging and tracking, Opt. Express, vol.20, p.4957, 2012.
, 3DClusterViSu: 3D clustering analysis of super-resolution microscopy data by 3D Voronoi tessellations, Bioinforma. Oxf. Engl, 2018.
URL : https://hal.archives-ouvertes.fr/inserm-02409748
, The quantitative architecture of centromeric chromatin, vol.3, p.2137, 2014.
, Conserved organization of centromeric chromatin in flies and humans, Dev. Cell, vol.2, pp.319-330, 2002.
, Centromeric chromatin exhibits a histone modification pattern that is distinct from both euchromatin and heterochromatin, Nat. Struct. Mol. Biol, vol.11, pp.1076-1083, 2004.
, Simple buffers for 3D STORM microscopy, Biomed. Opt. Express, vol.4, pp.885-899, 2013.
, ClusterViSu, a method for clustering of protein complexes by Voronoi tessellation in superresolution microscopy, Sci. Rep, vol.6, p.24084, 2016.
, Optimizing Imaging Conditions for Demanding Multi-Color Super Resolution Localization Microscopy, PloS ONE, vol.11, p.158884, 2016.
, Practical aspects of superresolution imaging and segmentation of macromolecular complexes by dSTORM
, SharpViSu: integrated analysis and segmentation of super-resolution microscopy data, Bioinforma. Oxf. Engl, vol.32, pp.2239-2241, 2016.
, Fourier ring correlation as a resolution criterion for super-resolution microscopy, J. Struct. Biol, vol.183, pp.363-367, 2013.
, Measuring image resolution in optical nanoscopy, Nat. Methods, vol.10, pp.557-562, 2013.
, 3DClusterViSu: 3D clustering analysis of super-resolution microscopy data by 3D Voronoi tessellations, Bioinformatics, 2018.
URL : https://hal.archives-ouvertes.fr/inserm-02409748
, SR-Tesseler: a method to segment and quantify localizationbased super-resolution microscopy data, Nat. Methods, vol.12, pp.1065-1071, 2015.
, EMAN2: an extensible image processing suite for electron microscopy, J. Struct. Biol, vol.157, pp.38-46, 2007.
, A new generation of the IMAGIC image processing system, J. Struct. Biol, vol.116, pp.17-24, 1996.
, Nuclear pore scaffold structure analyzed by super-resolution microscopy and particle averaging, Science, vol.341, pp.655-658, 2013.
, Angular reconstitution: a posteriori assignment of projection directions for 3D reconstruction, Ultramicroscopy, vol.21, pp.111-123, 1987.
, Reconstruction from multiple particles for 3D isotropic resolution in fluorescence microscopy, IEEE Trans. Med. Imaging, vol.37, pp.1235-1246, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02393660
, Angular reconstitution-based 3D reconstructions of nanomolecular structures from superresolution light-microscopy images, Proc. Natl Acad. Sci. USA, vol.114, pp.9273-9278, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02075182
, UCSF Chimera-a visualization system for exploratory research and analysis, J. Comput. Chem, vol.25, pp.1605-1612, 2004.