2018 — The Targeted Sequencing of Alpha Satellite DNA in Cercopithecus pogonias Provides New Insight Into the Diversity and Dynamics of Centromeric Repeats in Old World Monkeys. Genome Biology and Evolution vol. 10, n° 7, dir. {Society for Molecular Biology and Evolution} p. 1837-1851
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October 2017 — P-Body Purification Reveals the Condensation of Repressed mRNA Regulons. Molecular Cell vol. 68, n° 1, dir. {Elsevier} 144-157.e5
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September 2017 — Cohesins and condensins orchestrate the 4D dynamics of yeast chromosomes during the cell cycle. EMBO Journal vol. 36, n° 18, dir. {EMBO Press} p. 2684-2697
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March 2017 — 3D organization of synthetic and scrambled chromosomes. Science vol. 355, n° 6329, dir. {American Association for the Advancement of Science} eaaf4597
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December 2016 — Network concepts for analyzing 3D genome structure from chromosomal contact maps. EPJ Nonlinear Biomedical Physics vol. 4, n° 1, dir. {EDP Sciences}
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2016 — An integrated omic analysis of hepatic alteration in medaka fish chronically exposed to cyanotoxins with possible mechanisms of reproductive toxicity. Environmental Pollution vol. 219, , dir. {Elsevier} p. 119-131
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2016 — Deep sexual dimorphism in adult medaka fish liver highlighted by multi-omic approach. Scientific Reports vol. 6, , dir. {Nature Publishing Group} p. 32459
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2016 — Generation and Analysis of Chromosomal Contact Maps of Yeast Species.. Methods in Molecular Biology vol. 1361, , dir. {Humana Press/Springer Imprint} p. 227-45
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January 2016 — The 3D folding of metazoan genomes correlates with the association of similar repetitive elements. Nucleic Acids Research vol. 44, n° 1, dir. {Oxford University Press} p. 245-255
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2016 — Diversity and distribution of alpha satellite DNA in the genome of an Old World monkey: Cercopithecus solatus. BMC Genomics vol. 17, , dir. {BioMed Central} p. 916
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September 2015 — Spatial reorganization of telomeres in long-lived quiescent cells. Genome Biology vol. 16, n° 1, dir. {BioMed Central} p. 206
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August 2015 — Condensin- and Replication-Mediated Bacterial Chromosome Folding and Origin Condensation Revealed by Hi-C and Super-resolution Imaging.. Molecular Cell vol. 59, n° 4, dir. {Elsevier} p. 588-602
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August 2015 — Filling the gap: Micro-C accesses the nucleosomal fiber at 100-1000 bp resolution.. Genome Biology vol. 16, n° 1, dir. {BioMed Central} p. 169
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June 2015 — Principles of chromatin organization in yeast: relevance of polymer models to describe nuclear organization and dynamics. Current Opinion in Cell Biology vol. 34, , dir. {Elsevier} p. 54-60
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January 2015 — The Polymorphisms of the Chromatin Fiber. Journal of Physics: Condensed Matter vol. 27, n° 3, dir. {IOP Publishing}
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December 2014 — Metagenomic chromosome conformation capture (meta3C) unveils the diversity of chromosome organization in microorganisms. eLife vol. 3, , dir. {eLife Sciences Publication} e03318
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2014 — CDK11p58 kinase activity is required to protect sister chromatid cohesion at centromeres in mitosis. Chromosome Research vol. 22, n° 3, dir. {Springer Verlag} p. 267-276
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2014 — 3D genome reconstruction from chromosomal contacts. Nature Methods vol. 11, , dir. {Nature Publishing Group} p. 1141-1143
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November 2013 — High-throughput chromatin motion tracking in living yeast reveals the flexibility of the fiber throughout the genome. Genome Research vol. 23, n° 11, dir. {Cold Spring Harbor Laboratory Press} p. 1829-1838
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2013 — Systematic characterization of the conformation and dynamics of budding yeast chromosome XII. Journal of Cell Biology vol. 202, n° 2, dir. {Rockefeller University Press} p. 201-210
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