Fidalgo Pérez, Miguel ÁngelPombo Ramos, Celia MaríaSouto Becerra, Yara2022-06-012022-06-012022http://hdl.handle.net/10347/28763Mutations of the zinc finger MYM-type containing 2 (ZMYM2) protein alter cellular and tissue homeostasis, but its functional roles in pluripotency are largely unexplored. Here, I show that ZMYM2 is a key component of the core regulatory network that governs pluripotency. My data reveal that ZMYM2 is a roadblock to efficient somatic cell reprogramming and is required to fine-tune the self-renewal of ESCs and the early differentiation process. Mechanistically, I found that ZMYM2 and LSD1 associate for the transcriptional control of pluripotency and differentiation genes. This study therefore establishes a novel transcriptional regulatory mode dedicated to reprogramming and pluripotency, and open new avenues for exploring the involvement of ZMYM2- LSD1 partnership in development and disease.engAttribution-NonCommercial-NoDerivatives 4.0 Internacionalhttp://creativecommons.org/licenses/by-nc-nd/4.0/PluripotencydifferentiationeprogrammingepigeneticsZmym2Materias::Investigación::24 Ciencias de la vida::2407 Biología celular::240701 Cultivo celulardoctoral thesisopen access