AASPE is a laboratory under the dual supervision of the CNRS (INEE) and the National Museum of Natural History.
List of publications
, October 2017 — P-Body Purification Reveals the Condensation of Repressed mRNA Regulons. Molecular Cell. Vol. 68, n° 1, dir. Elsevier, 144-157.e5.
, 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.
, March 2017 — 3D organization of synthetic and scrambled chromosomes. Science. Vol. 355, n° 6329, dir. American Association for the Advancement of Science, eaaf4597.
, 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.
, 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.
, 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.
, December 2016 — Network concepts for analyzing 3D genome structure from chromosomal contact maps. EPJ Nonlinear Biomedical Physics. Vol. 4, n° 1, dir. EDP Sciences.
, 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.
, 2016 — Deep sexual dimorphism in adult medaka fish liver highlighted by multi-omic approach. Scientific Reports. Vol. 6, dir. Nature Publishing Group, p. 32459.
, January 2015 — The Polymorphisms of the Chromatin Fiber. Journal of Physics: Condensed Matter. Vol. 27, n° 3, dir. IOP Publishing.
, September 2015 — Spatial reorganization of telomeres in long-lived quiescent cells. Genome Biology. Vol. 16, n° 1, dir. BioMed Central, p. 206.
, 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.
, 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.
, 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.
, 2014 — 3D genome reconstruction from chromosomal contacts. Nature Methods. Vol. 11, dir. Nature Publishing Group, p. 1141-1143.
, December 2014 — Metagenomic chromosome conformation capture (meta3C) unveils the diversity of chromosome organization in microorganisms. eLife. Vol. 3, dir. eLife Sciences Publication, e03318.
, 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.
, 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.
, 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.
, 2012 — Normalization of a chromosomal contact map. BMC Genomics. Vol. 13, n° 1, dir. BioMed Central, p. 436.