A. Rat, M. Doumic, M. T. Teixeira and Z. Xu. Individual cell fate and population dynamics revealed by a mathematical model linking telomere length and replicative senescence. bioRxiv 2023 Pages 2023.11.22.568287 DOI: 10.1101/2023.11.22.568287

B. Zeinoun, M. T. Teixeira and A. Barascu. Hog1 acts in a Mec1-independent manner to counteract oxidative stress following telomerase inactivation. bioRxiv 2023 Pages 2023.10.04.560866 DOI: 10.1101/2023.10.04.560866

Zeinoun B, Teixeira, M.T and Barascu A. Genes (2023). TERRA and Telomere Maintenance in the Yeast Saccharomyces cerevisiae

Barascu, Aurélia et Teixeira, Maria Teresa.Saccharomyces cerevisiae, un modèle à l’avant-garde de la biologie des télomèresIn «Telomeres: sentinels of chromosomes », 2022, ISTE Editions, Londres. In press

Coutelier, H., Ilioaia, O., Le Peillet, J., Hamon, M., D’Amours, D., Teixeira, M.T., and Xu, Z. Genetics (2022). The Polo kinase Cdc5 is regulated at multiple levels in the adaptation response to telomere dysfunction.

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

Henninger EE, Jolivet P, Fallet E, Benmounah M, Xu Z, Mattarocci S, Teixeira MT (2020) Maturation of telomere 3’-overhangs is linked to the replication stress response. bioRxiv: 2020.2008.2027.269621

Henninger E, Teixeira MT (2020) Telomere-driven mutational processes in yeast. Curr Opin Genet Dev 60: 99-106

Xu Z. and Teixeira M.T. (2019). The many types of heterogeneity in replicative senescence. Yeast. Jul 15. doi: 10.1002/yea.3433. [Epub ahead of print]

Eberhard S, Valuchova S, Ravat J, Fulneček J, Jolivet P, Bujaldon S, Lemaire SD, Wollman FA, Teixeira MT, Riha K, Xu Z. (2019). Molecular characterization of Chlamydomonas reinhardtii telomeres and telomerase mutants. Life Sci Alliance. Jun 3;2(3). pii: e201900315. doi: 10.26508/lsa.201900315

Jolivet, P., Serhal, K., Graf, A., Eberhard, S., Xu, Z., Luke, B., and Teixeira, M.T. (2019). A subtelomeric region affects telomerase-negative replicative senescence in Saccharomyces cerevisiae. Scientific Reports 9(1): 1845

Coutelier, H., and Xu, Z. (2019). Adaptation in replicative senescence: a risky business. Curr Genet

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

Eugène S, Bourgeron T, Xu Z. (2016). Effects of initial telomere length distribution on senescence onset and heterogeneity. J Theor Biol. pii: S0022-5193(16)30360-5. doi: 10.1016

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]

Soudet, J., Jolivet, P., and Teixeira, M.T. § (2014). Elucidation of the DNA end-replication problem in Saccharomyces cerevisiae. Mol Cell 53, 954-964.

Fallet, E., Jolivet, P., Soudet, J., Lisby, M., Gilson, E., and Teixeira, M.T. § (2014). Length-dependent processing of telomeres in the absence of telomerase. Nucleic Acids Res 42, 3648-3665.

Xu Z., Dao Duc K., Holcman D., and Teixeira M.T. (corr), (2013) The Length of the Shortest Telomere as the Major. Determinant of the Onset of Replicative Senescence. Genetics, Vol. 194, 847–857

Giraud-Panis, M.J., Teixeira, M.T.*, Geli, V., and Gilson, E. § (2010). CST meets shelterin to keep telomeres in check. Mol Cell 39, 665-676.

Gilson, E. §, and Teixeira, M.T. (2010). Telomerase and chromosome end protection in vivo: the TPP1 connection. Dev Cell 18, 691-692.

Lisby, M. §, Teixeira, M. T., Gilson, E. and Géli, V. § (2010) The fate of irreparable DNA double-strand breaks and eroded telomeres at the nuclear periphery – Nucleus 1(2), 1-4.

Kachouri-Lafond, R., Fairhead, C., Dujon, B., Gilson, E., Westhof, E. and Teixeira, M. T. § (2009) Large telomerase RNA, telomere length heterogeneity and escape from senescence in Candida glabrata. FEBS letters 583, 3605-3610.

Abdallah, P., Luciano, P., Hector, R. E., Ray, A., Runge, K. W., Lisby, M., Géli, V., Gilson, E. § and Teixeira, M. T. (2009). A two-step model for senescence triggered by a single critically short telomere. Nature Cell Biology 11, 988-93.

Khadaroo, B., Teixeira, M. T.*, Luciano, P., Eckert-Boulet, N., Germann, S. M., Simon, M. N., Abdallah, P., Gilson, E. , Géli§, V. and Lisby, M. (2009). The DNA damage response at eroded telomeres and tethering to the nuclear pore complex. Nature Cell Biology 11, 980-987.

Teixeira, M.T., and Gilson, E. § (2007). La sets the tone for telomerase assembly. Nat Struct Mol Biol 14, 261-262.

Teixeira, M.T., and Gilson, E. § (2006). When CDK1 rides the telomere cycle. Mol Cell 24, 491-492.

Teixeira, M.T. §, and Gilson, E. (2005). Telomere maintenance, function and evolution: the yeast paradigm. Chromosome Res 13, 535-548.

Teixeira, M.T., Arneric, M., Sperisen, P., and Lingner, J. § (2004). Telomere Length Homeostasis Is Achieved via a Switch between Telomerase- Extendible and -Nonextendible States. Cell 117, 323-335.

Kelleher, C., Teixeira, M.T., Forstemann, K., and Lingner, J. § (2002). Telomerase: biochemical considerations for enzyme and substrate. Trends Biochem Sci 27, 572-579.

Teixeira, M.T., Forstemann, K., Gasser, S.M., and Lingner, J. § (2002). Intracellular trafficking of yeast telomerase components. EMBO Rep 3, 652-659.

Teixeira, M.T., Dujon, B., and Fabre, E. § (2002). Genome-wide nuclear morphology screen identifies novel genes involved in nuclear architecture and gene-silencing in Saccharomyces cerevisiae. J Mol Biol 321, 551-561.

Teixeira, M.T. §, Fabre, E., and Dujon, B. (1999). Self-catalyzed cleavage of the yeast nucleoporin Nup145p precursor. J Biol Chem 274, 32439-32444.

Teixeira, M.T., Siniossoglou, S., Podtelejnikov, S., Benichou, J.C., Mann, M., Dujon, B., Hurt, E., and Fabre, E. § (1997). Two functionally distinct domains generated by in vivo cleavage of Nup145p: a novel biogenesis pathway for nucleoporins. Embo J 16, 5086-5097.

§: corresponding author

*: co-first author