Your search keyword '"Pelloux, Jérome"' showing total 2 results

1. Arabidopsis Phyllotaxis Is Controlled by the Methyl-Esterification Status of Cell-Wall Pectins

Author

Peaucelle, Alexis, Louvet, Romain, Johansen, Jorunn N., Höfte, Herman, Laufs, Patrick, Pelloux, Jérome, and Mouille, Grégory

Subjects

*ARABIDOPSIS, *PHYLLOTAXIS, *PLANT cell walls, *PECTINS, *CELLULAR mechanics, *ENZYME inhibitors, *ESTERIFICATION

Abstract

Summary: Plant organs are produced from meristems in a characteristic pattern. This pattern, referred to as phyllotaxis, is thought to be generated by local gradients of an information molecule, auxin . Some studies propose a key role for the mechanical properties of the cell walls in the control of organ outgrowth . A major cell-wall component is the linear α-1-4-linked D-GalAp pectic polysaccharide homogalacturonan (HG), which plays a key role in cell-to-cell cohesion . HG is deposited in the cell wall in a highly (70%–80%) methyl-esterified form and is subsequently de-methyl-esterified by pectin methyl-esterases (PME, EC 3.1.1.11). PME activity is itself regulated by endogenous PME inhibitor (PMEI) proteins . PME action modulates cell-wall-matrix properties and plays a role in the control of cell growth . Here, we show that the formation of flower primordia in the Arabidopsis shoot apical meristem is accompanied by the de-methyl-esterification of pectic polysaccharides in the cell walls. In addition, experimental perturbation of the methyl-esterification status of pectins within the meristem dramatically alters the phyllotactic pattern. These results demonstrate that regulated de-methyl-esterification of pectins is a key event in the outgrowth of primordia and possibly also in phyllotactic patterning. [Copyright &y& Elsevier]

Published

2008

2. Homogalacturonan methyl-esterification and plant development.

Author

Wolf S, Mouille G, and Pelloux J

Subjects

Carbohydrate Metabolism physiology, Cell Wall metabolism, Models, Biological, Plants metabolism, Esterification physiology, Pectins metabolism, Plant Development

Abstract

The ability of a plant cell to expand is largely defined by the physical constraints imposed by its cell wall. Accordingly, cell wall properties have to be regulated during development. The pectic polysaccharide homogalacturonan is a major component of the plant primary walls. Biosynthesis and in muro modification of homogalacturonan have recently emerged as key determinants of plant development, controlling cell adhesion, organ development, and phyllotactic patterning. This review will focus on recent findings regarding impact of homogalacturonan content and methyl-esterification status of this polymer on plant life. De-methyl-esterification of homogalacturonan occurs through the action of the ubiquitous enzyme 'pectin methyl-esterase'. We here describe various strategies developed by the plant to finely tune the methyl-esterification status of homogalacturonan along key events of the plant lifecycle.

Published

2009