Browsing by Author "Pedone, Elisa, 1985-"

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  • Pedone, Elisa, 1985-; Postiglione, Lorena; Aulicino, Francesco, 1987-; Rocca, Dan L.; Montes Olivas, Sandra; Khazim, Mahmoud; di Bernardo, Diego; Cosma, Maria Pia; Marucci, Lucia (Nature Research, 2019)
    Cellular systems have evolved numerous mechanisms to adapt to environmental stimuli, underpinned by dynamic patterns of gene expression. In addition to gene transcription regulation, modulation of protein levels, dynamics ...
  • Aulicino, Francesco, 1987-; Pedone, Elisa, 1985-; Sottile, Francesco, 1988-; Lluis Viñas, Frederic; Marucci, Lucia; Cosma, Maria Pia (Elsevier, 2020)
    The Wnt/β-catenin signaling pathway is a key regulator of embryonic stem cell (ESC) self-renewal and differentiation. Constitutive activation of this pathway has been shown to increase mouse ESC (mESC) self-renewal and ...
  • Pedone, Elisa, 1985-; Olteanu, Vlad Aris; Marucci, Lucia; Muñoz-Martin, Maria Isabel; Youssef, Sameh A.; de Bruin, Alain; Cosma, Maria Pia, 1970- (Elsevier, 2017)
    In rodents and humans, the liver can efficiently restore its mass after hepatectomy. This is largely attributed to the proliferation and cell cycle re-entry of hepatocytes. On the other hand, bone marrow cells (BMCs) migrate ...
  • Ritschka, Birgit,1985-; Knauer-Meyer, Tania; Sampaio Gonçalves, Daniel; Mas, Alba; Plassat, Jean-Luc; Durik, Matej; Jacobs, Hugues; Pedone, Elisa, 1985-; Di Vicino, Umberto; Cosma, Maria Pia, 1970-; Keyes, William M., 1973- (Cold Spring Harbor Laboratory Press (CSHL Press), 2020)
    Young mammals possess a limited regenerative capacity in some tissues, which is lost upon maturation. We investigated whether cellular senescence might play a role in such loss during liver regeneration. We found that ...
  • Marucci, Lucia; Pedone, Elisa, 1985-; Vicino, Umberto di; Sanuy-Escribano, Blanca; Isalan, Mark; Cosma, Maria Pia, 1970- (Elsevier, 2014)
    The Wnt/β-catenin pathway and Nanog are key regulators of embryonic stem cell (ESC) pluripotency and the reprogramming of somatic cells. Here, we demonstrate that the repression of Dkk1 by Nanog, which leads indirectly to ...

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