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Morel, O., Spriet, C., Lion, C., Baldacci-Cresp, F., Pontier, G., Baucher, M., Biot, C., Hawkins, S., & Neutelings, G. (2023). Ratiometric Fluorescent Safranin-O Staining Allows the Quantification of Lignin Contents In Muro. In C. Pellicciari, M. Biggiogera, & M. Malatesta (Eds.), Methods in Molecular Biology, Vol. 2566. Histochemistry of Single Molecules. New York, NY: Humana.3.
Behr, M., El Jaziri, M., & Baucher, M. (2021). Lignin: an innovative, complex, and highly flexible plant material/component. In P. Figueiredo & H. A. Santos (Eds.), Lignin-based materials for biomedical applications: Preparation, characterization, and implementation (p. 450). Amsterdam: Elsevier. doi:10.1016/C2019-0-01345-34.
Alburquerque, N., Baldacci-Cresp, F., Baucher, M., Casacuberta, J. M., Collonier, C., El Jaziri, M., & Nogué, F. (2016). New transformation technologies for trees. In Biosafety of Forest Transgenic Trees: Improving the Scientific Basis for Safe Tree Development and Implementation of EU Policy Directives (pp. 31-67). Springer.5.
Boerjan, W., Pilate, G., Morreel, K., Messens, E., Baucher, M., Van Doorsselaere, J., Chen, C., Meyermans, H., Pollet, B., Lapierre, C., Jouanin, L., Leplé, J.-C., Ralph, J., Marita, J., Schuch, E., Petit-Conil, M., & Halpin, C. (2003). Genetic engineering of lignin biosynthesis in poplar and effects on kraft pulping. In I. El Hadrami & F. Daayf (Eds.), Polyphenols 2002: Recent advances in polyphenols research (pp. 34-49).6.
Boerjan, W., Meyermans, H., Chen, C., Baucher, M., Van Doorsselaere, J., Morreel, K., Messens, E., Lapierre, C., Pollet, B., Jouanin, L., Leplé, J.-C., Ralph, J., Marita, J., Schuch, E., Petit-Conil, M., & Pilate, G. (2001). Lignin biosynthesis in poplar: genetic engineering and effects on Kraft pulping. In N. Morohoshi & A. Komamine (Eds.), Molecular breeding of woody plants (pp. 187-194). Elsevier Science.7.
Christensen, J. H., Baucher, M., O'Connell, A. P., Van Montagu, M., & Boerjan, W. (2000). Control of lignin biosynthesis. In S. M. Jain & S. C. Minocha (Eds.), Molecular biology of woody plants (pp. 227-267). Dordrecht: Kluwer Academic Publishers.(Forestry sciences, 64).8.
Boerjan, W., Baucher, M., Chabbert, B., Petit-Conil, M., Leplé, J.-C., Pilate, G., Cornu, D., Monties, B., Inzé, D., Van Doorsselaere, J., Jouanin, L., Van Montagu, M., Tsai, C.-J., Podila, G. K., Joshi, C. P., & Chiang, V. L. (1997). Genetic modification of lignin biosynthesis in quaking aspen and poplar. In N. B. Klopfenstein (Ed.), Micropropagation, genetic engineering, and molecular biology of populus (pp. 193-205). Fort Collins: U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station.(General technical report RM, 297). Articles dans des revues avec comité de lecture (57)
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Guérin, C., Behr, M., Sait, J., Mol, A., El Jaziri, M., & Baucher, M. (2023). Evidence for poplar PtaPLATZ18 in the regulation of plant growth and vascular tissues development. Frontiers in Plant Science, 14, 1302536.2.
Amadou Hassane, H., Behr, M., Guérin, C., Sibout, R., Mol, A., Baragé, M., El Jaziri, M., & Baucher, M. (2022). A Higher Lignin Content in ugt72b37 Poplar Mutants Indicates a Role of Monolignol Glycosylation in Xylem Lignification. Forests, 13, 2167.3.
Mahavy, C., Mol, A., Andrianarisoa, B., Duez, P., El Jaziri, M., Baucher, M., & Rasamiravaka, T. (2022). The xanthophyll carotenoid lutein reduces the invasive potential of Pseudomonas aeruginosa and increases its susceptibility to tobramycin. International journal of molecular sciences, 23(13), 7199.4.
Behr, M., Speeckaert, N., Kurze, E. K., Morel, O., Prévost, M., Mol, A., Mahamadou Amoudou, N., Barage, M., Renaut, J., Schwab, W., El Jaziri, M., & Baucher, M. (2022). Leaf necrosis resulting from down-regulation of poplar glycosyltransferase UGT72A2. Tree physiology, 42(5), 1084–1099. doi:10.1093/treephys/tpab161