Nathalie Bastié quotMechanisms controlling the translocase activity that establishes cohesinquot INC

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High Definition video (HD) • Nathalie Bastié is a PhD student in the laboratory of Frederic Beckouet and Olivier Gadal (CBI, CNRS, Toulouse, France). At the Nuclear architecture Function symposium in Toulouse, she presented her work Mechanisms controlling the translocase activity that establishes cohesin dependent chromatin loops . Scientific references of her talk below ↓ • To know more about Nathalie Bastié: https://www.linkedin.com/in/nathalie-... • Twitter: @nathalie_bastie • To know more about the work of Frederic Beckouet and Olivier Gadal: https://cbi-toulouse.fr/fr/equipe-gadal • This event was organised by: • The Centre de Biologie Intégrative, Toulouse, France (and supported by the CNRS and The Université de Toulouse III) The International Nucleome Consortium (funded by COST Action CA18127 and the EU framework programme for research and innovation | Horizon 2020). • ©INC-2022 • Plagiarism is strictly forbidden (this includes all contents of this video, scientific contents and ideas, images, inc logo, graphic design, 2D animation, soundtrack, etc). In case you would like to acknowledge this video, please contact the leader of the communication team, Vladimir Teif: https://generegulation.org/contacts/​​​​ • Music | graphic environment | soundtrack | search and addition of references | video editing by scisters.editions (https://sci-sters-editions.com/​​​​) • --- • References: • 1 | Wutz G, Várnai C, Nagasaka K, et al. Topologically associating domains and chromatin loops depend on cohesin and are regulated by CTCF, WAPL, and PDS5 proteins. EMBO J. 2017. doi:10.15252/embj.201798004 • 2 | Davidson IF, Bauer B, Goetz D, Tang W, Wutz G, Peters JM. DNA loop extrusion by human cohesin. Science. 2019. doi:10.1126/science.aaz3418 • 3 | Kim Y, Shi Z, Zhang H, Finkelstein IJ, Yu H. Human cohesin compacts DNA by loop extrusion. Science. 2019;366(6471):1345-1349. doi:10.1126/science.aaz4475 • 4 | Dauban L, Montagne R, Thierry A, et al. Regulation of Cohesin-Mediated Chromosome Folding by Eco1 and Other Partners. Mol Cell. 2020. doi:10.1016/j.molcel.2020.01.019 • 5 | Petela NJ, Gligoris TG, Metson J, et al. Scc2 Is a Potent Activator of Cohesin's ATPase that Promotes Loading by Binding Scc1 without Pds5. Mol Cell. 2018. doi:10.1016/j.molcel.2018.05.022 • 6 | Petela NJ, Gonzalez Llamazares A, Dixon S, et al. Folding of cohesin's coiled coil is important for Scc2/4-induced association with chromosomes. Elife. 2021;10:e67268. Published 2021 Jul 14. doi:10.7554/eLife.67268 • 7 | Shi Z, Gao H, Bai XC, Yu H. Cryo-EM structure of the human cohesin-NIPBL-DNA complex. Science. 2020;368(6498):1454-1459. doi:10.1126/science.abb0981 • 8 | Higashi TL, Eickhoff P, Sousa JS, et al. A Structure-Based Mechanism for DNA Entry into the Cohesin Ring. Mol Cell. 2020. doi:10.1016/j.molcel.2020.07.013 • 9 | Chapard C, Jones R, van Oepen T, Scheinost JC, Nasmyth K. Sister DNA Entrapment between Juxtaposed Smc Heads and Kleisin of the Cohesin Complex. Mol Cell. 2019;75(2):224-237.e5. doi:10.1016/j.molcel.2019.05.023

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