Barascu, Aurélia et Teixeira, Maria Teresa. Saccharomyces cerevisiae, un modèle à l’avant-garde de la biologie des télomères. In «Telomeres: sentinels of chromosomes », 2022, ISTE Editions, Londres. In press
H. Martin, M. Doumic, M. T. Teixeira and Z. Xu Cell Biosci (2021). Telomere shortening causes distinct cell division regimes during replicative senescence in Saccharomyces cerevisiae
Coutelier, H., and Xu, Z. (2019). Adaptation in replicative senescence: a risky business. Curr Genet https://doi.org/10.1007/s00294-019-00933-7
Coutelier H*, Xu Z*#, Morisse MC, Lhuillier-Akakpo M, Pelet S, Charvin G, Dubrana K and TeixeiraMT#. (2018). Adaptation to DNA damage checkpoint in senescent telomerase-negative cells promotes genome instability. Genes & Dev. 32:1–15. [Supp]
#Corresponding authors, *These authors contributed equally to this work.
Graf M, Bonetti D, Lockhart A, Serhal K, Kellner V, Maicher A, Jolivet P, Teixeira MT and Luke B. (2017). Telomere length determines TERRA and R-loop regulation through the cell cycle. Cell. Volume 170, Issue 1, p72–85.e14, 29 June 2017
Bourgeron, T., Xu, Z.§* , Doumic, M. §, and Teixeira, M.T. (2015). The asymmetry of telomere replication contributes to replicative senescence heterogeneity. Sci Rep 5, 15326. [Supp1 , Supp2]
Xu, Z., Fallet, E., Paoletti, C., Fehrmann, S., Charvin, G., and Teixeira, M.T. § (2015). Two routes to senescence revealed by real-time analysis of telomerase-negative single lineages. Nat Commun 6, 7680. [Sup Data]
Teixeira, M.T., and Gilson, E. § (2006). When CDK1 rides the telomere cycle. Mol Cell 24, 491-492.
§: corresponding author
*: co-first author