par Baldacci-Cresp, Fabien ;Roy, Julien Le;Huss, Brigitte;Lion, Cédric;Créach, Anne;Spriet, Corentin;Duponchel, Ludovic;Biot, Christophe ;Baucher, Marie ;Hawkins, Simon;Neutelings, Godfrey
Référence International journal of molecular sciences, 21, 17, page (1-22), 6094
Publication Publié, 2020-09
Référence International journal of molecular sciences, 21, 17, page (1-22), 6094
Publication Publié, 2020-09
Article révisé par les pairs
Résumé : | Lignin is present in plant secondary cell walls and is among the most abundant biological polymers on Earth. In this work we investigated the potential role of the UGT72E gene family in regulating lignification in Arabidopsis. Chemical determination of floral stem lignin contents in ugt72e1, ugt72e2, and ugt72e3 mutants revealed no significant differences compared to WT plants. In contrast, the use of a novel safranin O ratiometric imaging technique indicated a significant increase in the cell wall lignin content of both interfascicular fibers and xylem from young regions of ugt72e3 mutant floral stems. These results were globally confirmed in interfascicular fibers by Raman microspectroscopy. Subsequent investigation using a bioorthogonal triple labelling strategy suggested that the augmentation in lignification was associated with an increased capacity of mutant cell walls to incorporate H-, G-, and S-monolignol reporters. Expression analysis showed that this increase was associated with an up-regulation of LAC17 and PRX71, which play a key role in lignin polymerization. Altogether, these results suggest that UGT72E3 can influence the kinetics of lignin deposition by regulating monolignol flow to the cell wall as well as the potential of this compartment to incorporate monomers into the growing lignin polymer. |