Affichage des résultats 7021 à 7040 sur 7049 au total
William Ripple, Christopher Wolf, Thomas Newsome, Phoebe Barnard, William Moomaw, Jérôme Hamelin, Marion Valeix
Christian Biémont, Christiane Nardon, Grégory Deceliere, David Lepetit, Catherine Lœvenbruck, Cristina Vieira
C. Biémont, C. Nardon, G. Deceliere, D. Lepetit, C. Loevenbruck, Cristina Vieira
A. Lacovone, P. Girod, N. Ris, C. Weydert, Patricia Gibert, M. Poiré, Jl. Gatti
Alessia Iacovone, Pierre Girod, Nicolas Ris, Claire Weydert, Patricia Gibert, Marylène Poirie, Jean-Luc Gatti
G. Perrière, Manolo Gouy
Céline Vallot, Christophe Huret, Yann Lesecque, Alissa Resch, Noufϊssa Oudrhiri, Annelise Bennaceur, Laurent Duret, Claire Rougeulle
Gabriel Marais, Jean-François Lemaitre, Cristina Vieira
Brigitte Pakendorf, Bharti Morar, Larissa A Tarskaia, Manfred Kayser, Himla Soodyall, Alexander Rodewald, Mark Stoneking
C. de Filippo, C. Barbieri, M. Whitten, S. Mpoloka, E. Gunnarsdottir, K. Bostoen, T. Nyambe, K. Beyer, H. Schreiber, P. de Knijff, D. Luiselli, M. Stoneking, Brigitte Pakendorf
Eric Tannier
Cedric Chauve, Haris Gavranovic, Aida Ouangraoua, Eric Tannier
G. David, K. Blondeau, M. Schiltz, Simon Penel, A. Lewit-Bentley
S. Ruuskanen, Blandine Doligez, B. Tschirren, N. Pitala, L. Gustafsson, G.G. Groothuis, T. Laaksonen
E.A. Hornett, A.M. Duplouy, N. Davies, G.K. Roderick, N. Wedell, G.D. Hurst, S. Charlat
G. Bourgoin, Alice Laurent, Pascal Marchand, Jeanne Duhayer, Marie-Thérèse Poirel, Patricia Michel, Christian Itty, Mathieu Garel
Nicolas Courbin, Andrew Loveridge, Hervé Fritz, David Macdonald, Rémi Patin, Marion Valeix, Simon Chamaillé-Jammes
Age is the highest important risk factor for the most prevalent human diseases, including cancer. Telomere shortening is thought to play a central role in the aging process in humans. The link between telomeres and aging is highlighted by the fact that genetic diseases causing telomerase deficiency are associated with premature aging and increased risk of cancer. For the last two decades, this link has been investigated using long telomere mouse models. However, zebrafish has recently emerged as a powerful and complementary model system to study telomere biology. Zebrafish possess human-like telomeres that progressively decline with age. The extensive characterisation of its well-conserved molecular and cellular physiology makes this vertebrate an excellent model to unravel the underlying relationship between telomere shortening, tissue regeneration, aging and disease. In our work, we explore how telomere attrition contributes to cellular senescence, organ dysfunction, aging and disease.