Bessoltane N, Charlot F, Guyon-Debast A, Charif D, Mara K, Collonnier C, Perroud PF, Tepfer M, Nogué F (2022). Genome-wide specificity of plant genome editing by both CRISPR-Cas9 and TALEN. Sci Rep, 12(1):9330. PubMed | DOI

Charlot F, Goudounet G, Nogué F, Perroud PF (2022). Physcomitrium patens Protoplasting and Protoplast Transfection. Methods Mol Biol, 2464:3-19. PubMed | DOI

Brejšková L, Hála M, Rawat A, Soukupová H, Cvrková F, Charlot F, Nogué F, Haluška S, Žárský V (2021). SEC6 exocyst subunit contributes to multiple steps of growth and development of Physcomitrella (Physcomitrium patens). Plant J, 106(3):831-843. PubMed | DOI

Guyon-Debast A, Alboresi A, Terret Z, Charlot F, Berthier F, Vendrell-Mir P, Casacuberta JM, Veillet F, Morosinotto T, Gallois JL, Nogué F (2021). A blueprint for gene function analysis through Base Editing in the model plant Physcomitrium (Physcomitrella) patens. New Phytol, 230(3):1258-1272. PubMed | DOI

Vendrell-Mir P, Perroud PF, Haas FB, Meyberg R, Charlot F, Rensing SA, Nogué F, Casacuberta JM (2021). A vertically transmitted amalgavirus is present in certain accessions of the bryophyte Physcomitrium patens. Plant J, 108(6):1786-1797. PubMed | DOI

Guyon-Debast A, Rossetti P, Charlot F, Epert A, Neuhaus JM, Schaefer DG, Nogué F (2019). The XPF-ERCC1 Complex Is Essential for Genome Stability and Is Involved in the Mechanism of Gene Targeting in Physcomitrella patens. Front Plant Sci, 10:588. PubMed | DOI

Mara K, Charlot F, Guyon-Debast A, Schaefer DG, Collonnier C, Grelon M, Nogué F (2019). POLQ plays a key role in the repair of CRISPR/Cas9-induced double-stranded breaks in the moss Physcomitrella patens. New Phytol, 222:1380-1391. PubMed | DOI

Sakai K, Charlot F, Le Saux T, Bonhomme S, Nogué F, Palauqui JC, Fattaccioli J (2019). Design of a comprehensive microfluidic and microscopic toolbox for the ultra-wide spatio-temporal study of plant protoplasts development and physiology. Plant Methods, 15:79. PubMed | DOI

Collonnier C, Epert A, Mara K, Maclot F, Guyon-Debast A, Charlot F, White C, Schaefer DG, Nogué F (2017). CRISPR-Cas9-mediated efficient directed mutagenesis and RAD51-dependent and RAD51-independent gene targeting in the moss Physcomitrella patens. Plant Biotechnol J, 15:122-131. PubMed | DOI

Collonnier C, Guyon-Debast A, Maclot F, Mara K, Charlot F, Nogué F (2017). Towards mastering CRISPR-induced gene knock-in in plants: Survey of key features and focus on the model Physcomitrella patens. Methods, 121-122:103-117. PubMed | DOI

Vives C, Charlot F, Mhiri C, Contreras B, Daniel J, Epert A, Voytas DF, Grandbastien MA, Nogué F, Casacuberta JM (2016). Highly efficient gene tagging in the bryophyte Physcomitrella patens using the tobacco (Nicotiana tabacum) Tnt1 retrotransposon. New Phytol, 212:759-769. PubMed | DOI

Charlot F, Chelysheva L, Kamisugi Y, Vrielynck N, Guyon A, Epert A, Le Guin S, Schaefer DG, Cuming AC, Grelon M, Nogué F (2014). RAD51B plays an essential role during somatic and meiotic recombination in Physcomitrella. Nucleic Acids Res, 42:11965-11978. PubMed | DOI

Kamisugi Y, Schaefer DG, Kozak J, Charlot F, Vrielynck N, Hola M, Angelis KJ, Cuming AC, Nogué F (2012). MRE11 and RAD50, but not NBS1, are essential for gene targeting in the moss Physcomitrella patens. Nucleic Acids Res, 40:3496-3510. PubMed | DOI

Thévenin J, Dubos C, Xu W, Le Gourrierec J, Kelemen Z, Charlot F, Nogué F, Lepiniec L, Dubreucq B (2012). A new system for fast and quantitative analysis of heterologous gene expression in plants. New Phytol, 193:504-512. PubMed | DOI

Vivancos J, Spinner L, Mazubert C, Charlot F, Paquet N, Thareau V, Dron M, Nogué F, Charon C (2012). The function of the RNA-binding protein TEL1 in moss reveals ancient regulatory mechanisms of shoot development. Plant Mol Biol, 78:323-336. PubMed | DOI

Schaefer DG, Delacote F, Charlot F, Vrielynck N, Guyon-Debast A, Le Guin S, Neuhaus JM, Doutriaux MP, Nogué F (2010). RAD51 loss of function abolishes gene targeting and de-represses illegitimate integration in the moss Physcomitrella patens. DNA Repair (Amst), 9:526-533. PubMed | DOI

Lienard D, Durambur G, Kiefer-Meyer MC, Nogué F, Menu-Bouaouiche L, Charlot F, Gomord V, Lassalles JP (2008). Water transport by aquaporins in the extant plant Physcomitrella patens. Plant Physiol, 146:1207-1218. PubMed | DOI

Trouiller B, Charlot F, Choinard S, Schaefer DG, Nogué F (2007). Comparison of gene targeting efficiencies in two mosses suggests that it is a conserved feature of Bryophyte transformation. Biotechnol Lett, 29:1591-1598. PubMed | DOI

Trouiller B, Schaefer DG, Charlot F, Nogué F (2006). MSH2 is essential for the preservation of genome integrity and prevents homeologous recombination in the moss Physcomitrella patens. Nucleic Acids Res, 34:232-242. PubMed | DOI