Guillory A, Lopez Obando M, Bouchenine K, Le Bris P, Lécureuil A, Pillot JP, Steinmetz V, Boyer FD, Rameau C, De Saint Germain A, Bonhomme S (2024). SUPPRESSOR OF MAX2 1-LIKE (SMXL) homologs are MAX2-dependent repressors of Physcomitrium patens growth. Plant Cell, koae009. PubMed | DOI

Fiorilli V, Forgia M, De Saint Germain A, D'Arrigo G, Cornu D, Le Bris P, Al-Babili S, Cardinale F, Prandi C, Spyrakis F, Boyer FD, Turina M, Lanfranco L (2022). A structural homologue of the plant receptor D14 mediates responses to strigolactones in the fungal phytopathogen Cryphonectria parasitica. New Phytol, 234(3):1003-1017. PubMed | DOI

Guercio AM, Torabi S, Cornu D, Dalmais M, Bendahmane A, Le Signor C, Pillot JP, Le Bris P, Boyer FD, Rameau C, Gutjahr C, De Saint Germain A, Shabek N (2022). Structural and functional analyses explain Pea KAI2 receptor diversity and reveal stereoselective catalysis during signal perception. Commun Biol, 5(1):126. PubMed | DOI

Cornet F, Pillot JP, Le Bris P, Pouvreau JB, Arnaud N, De Saint Germain A, Rameau C (2021). Strigolactones (SLs) modulate the plastochron by regulating KLUH (KLU) transcript abundance in Arabidopsis. New Phytol, 232(5):1909-1916. PubMed | DOI

Lopez-Obando M, Guillory A, Boyer FD, Cornu D, Hoffmann B, Le Bris P, Pouvreau JB, Delavault P, Rameau C, De Saint Germain A, Bonhomme S (2021). The Physcomitrium (Physcomitrella) patens PpKAI2L receptors for strigolactones and related compounds function via MAX2-dependent and -independent pathways. Plant Cell, 33(11):3487-3512. PubMed | DOI

Sakai K, Citerne S, Antelme S, Le Bris P, Daniel S, Bouder A, D'Orlando A, Cartwright A, Tellier F, Pateyron S, Delannoy E, Laudencia-Chingcuanco D, Mouille G, Palauqui JC, Vogel J, Sibout R (2021). BdERECTA controls vasculature patterning and phloem-xylem organization in Brachypodium distachyon. BMC Plant Biol, 21(1):196. PubMed | DOI

Le Bris P, Wang Y, Barbereau C, Antelme S, Cézard L, Legée F, D'Orlando A, Dalmais M, Bendahmane A, Schuetz M, Samuels L, Lapierre C, Sibout R (2019). Inactivation of LACCASE8 and LACCASE5 genes in Brachypodium distachyon leads to severe decrease in lignin content and high increase in saccharification yield without impacting plant integrity. Biotechnol Biofuels, 12:181. PubMed | DOI

Sibout R, Proost S, Hansen BO, Vaid N, Giorgi FM, Ho-Yue-Kuang S, Legée F, Cezart L, Bouchabké-Coussa O, Soulhat C, Provart N, Pasha A, Le Bris P, Roujol D, Höfte H, Jamet E, Lapierre C, Persson S, Mutwil M (2017). Expression atlas and comparative coexpression network analyses reveal important genes involved in the formation of lignified cell wall in Brachypodium distachyon. New Phytol, 215:1009-1025. PubMed | DOI

Ho-Yue-Kuang S, Alvarado C, Antelme S, Bouchet B, Cézard L, Le Bris P, Legée F, Maia-Grondard A, Yoshinaga A, Saulnier L, Guillon F, Sibout R, Lapierre C, Chateigner-Boutin AL (2016). Mutation in Brachypodium caffeic acid O-methyltransferase 6 alters stem and grain lignins and improves straw saccharification without deteriorating grain quality. J Exp Bot, 67:227-237. PubMed | DOI

Sibout R, Le Bris P, Legée F, Cézard L, Renault H, Lapierre C (2016). Structural Redesigning Arabidopsis Lignins into Alkali-Soluble Lignins through the Expression of p-Coumaroyl-CoA:Monolignol Transferase PMT. Plant Physiol, 170:1358-1366. PubMed | DOI

Wang Y, Bouchabké-Coussa O, Le Bris P, Antelme S, Soulhat C, Gineau E, Dalmais M, Bendahmane A, Morin H, Mouille G, Legée F, Cézard L, Lapierre C, Sibout R (2015). LACCASE5 is required for lignification of the Brachypodium distachyon Culm. Plant Physiol, 168:192-204. PubMed | DOI

Petrik DL, Karlen SD, Cass CL, Padmakshan D, Lu F, Liu S, Le Bris P, Antelme S, Santoro N, Wilkerson CG, Sibout R, Lapierre C, Ralph J, Sedbrook JC (2014). p-Coumaroyl-CoA:monolignol transferase (PMT) acts specifically in the lignin biosynthetic pathway in Brachypodium distachyon. Plant J, 77:713-726. PubMed | DOI

Bouvier D'yvoire M, Bouchabké-Coussa O, Voorend W, Antelme S, Cézard L, Legée F, Le Bris P, Legay S, Whitehead C, Mcqueen-Mason SJ, Gomez LD, Jouanin L, Lapierre C, Sibout R (2013). Disrupting the cinnamyl alcohol dehydrogenase 1 gene (BdCAD1) leads to altered lignification and improved saccharification in Brachypodium distachyon. Plant J, 73:496-508. PubMed | DOI

Chapelle A, Morreel K, Vanholme R, Le Bris P, Morin H, Lapierre C, Boerjan W, Jouanin L, Demont-Caulet N (2012). Impact of the absence of stem-specific beta-glucosidases on lignin and monolignols. Plant Physiol, 160:1204-1217. PubMed | DOI

Berthet S, Demont-Caulet N, Pollet B, Bidzinski P, Cézard L, Le Bris P, Borrega N, Herve J, Blondet E, Balzergue S, Lapierre C, Jouanin L (2011). Disruption of LACCASE4 and 17 results in tissue-specific alterations to lignification of Arabidopsis thaliana stems. Plant Cell, 23:1124-1137. PubMed | DOI