| Literature DB >> 21692803 |
Stéphanie Guénin1,2, Alain Mareck3, Catherine Rayon1, Romain Lamour3, Yves Assoumou Ndong1, Jean-Marc Domon1, Fabien Sénéchal1, Françoise Fournet1, Elisabeth Jamet4, Hervé Canut4, Giuseppe Percoco3, Grégory Mouille5, Aurélia Rolland5, Christine Rustérucci1, François Guerineau1, Olivier Van Wuytswinkel1, Françoise Gillet1, Azeddine Driouich3, Patrice Lerouge3, Laurent Gutierrez2, Jérôme Pelloux1.
Abstract
• Here, we focused on the biochemical characterization of the Arabidopsis thaliana pectin methylesterase 3 gene (AtPME3; At3g14310) and its role in plant development. • A combination of biochemical, gene expression, Fourier transform-infrared (FT-IR) microspectroscopy and reverse genetics approaches were used. • We showed that AtPME3 is ubiquitously expressed in A. thaliana, particularly in vascular tissues. In cell wall-enriched fractions, only the mature part of the protein was identified, suggesting that it is processed before targeting the cell wall. In all the organs tested, PME activity was reduced in the atpme3-1 mutant compared with the wild type. This was related to the disappearance of an activity band corresponding to a pI of 9.6 revealed by a zymogram. Analysis of the cell wall composition showed that the degree of methylesterification (DM) of galacturonic acids was affected in the atpme3-1 mutant. A change in the number of adventitious roots was found in the mutant, which correlated with the expression of the gene in adventitious root primordia. • Our results enable the characterization of AtPME3 as a major basic PME isoform in A. thaliana and highlight its role in adventitious rooting.Entities:
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Year: 2011 PMID: 21692803 DOI: 10.1111/j.1469-8137.2011.03797.x
Source DB: PubMed Journal: New Phytol ISSN: 0028-646X Impact factor: 10.151