Abstract
The structure of the cell wall has a major impact on plant growth and development, and alteration of cell wall structural components is often detrimental to biomass production. However, the molecular mechanisms responsible for these negative effects are largely unknown. Arabidopsis (Arabidopsis thaliana) plants with altered pectin composition because of either the expression of the Aspergillus niger polygalacturonase II (AnPGII; 35S:AnPGII plants) or a mutation in the QUASIMODO2 (QUA2) gene that encodes a putative pectin methyltransferase (qua2-1 plants), display severe growth defects. Here, we show that expression of Arabidopsis PEROXIDASE71 (AtPRX71), encoding a class III peroxidase, strongly increases in 35S:AnPGII and qua2-1 plants as well as in response to treatments with the cellulose synthase inhibitor isoxaben, which also impairs cell wall integrity. Analysis of atprx71 loss-of-function mutants and plants overexpressing AtPRX71 indicates that this gene negatively influences Arabidopsis growth at different stages of development, likely limiting cell expansion. The atprx71-1 mutation partially suppresses the dwarf phenotype of qua2-1, suggesting that AtPRX71 contributes to the growth defects observed in plants undergoing cell wall damage. Furthermore, AtPRX71 seems to promote the production of reactive oxygen species in qua2-1 plants as well as plants treated with isoxaben. We propose that AtPRX71 contributes to strengthen cell walls, therefore restricting cell expansion, during normal growth and in response to cell wall damage.
Highlights
The structure of the cell wall has a major impact on plant growth and development, and alteration of cell wall structural components is often detrimental to biomass production
We show that the Arabidopsis CIII Prx gene AtPRX71, which is strongly expressed upon loss of cell wall integrity (CWI), negatively affects growth and cell size and positively regulates reactive oxygen species (ROS) levels
We have previously shown that tobacco (Nicotiana tabacum) and Arabidopsis plants expressing an attenuated version of the Aspergillus niger polygalacturonase II (AnPGII; 35S:AnPGII plants) have a reduced content of deesterified HG and a significant reduction of growth that correlates with the levels of expression of the transgene (Capodicasa et al, 2004)
Summary
The structure of the cell wall has a major impact on plant growth and development, and alteration of cell wall structural components is often detrimental to biomass production. We show that expression of Arabidopsis PEROXIDASE71 (AtPRX71), encoding a class III peroxidase, strongly increases in 35S:AnPGII and qua plants as well as in response to treatments with the cellulose synthase inhibitor isoxaben, which impairs cell wall integrity. Analysis of atprx loss-of-function mutants and plants overexpressing AtPRX71 indicates that this gene negatively influences Arabidopsis growth at different stages of development, likely limiting cell expansion. We propose that AtPRX71 contributes to strengthen cell walls, restricting cell expansion, during normal growth and in response to cell wall damage. Superoxide radicals are rapidly converted into hydrogen peroxide (H2O2) either spontaneously or in a reaction catalyzed by superoxide dismutases (Bolwell et al, 1999)
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