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Dissecting the Role of CHITINASE-LIKE1 in Nitrate-Dependent Changes in Root Architecture

Authors :
Daniel R. Bush
Jérôme De Pessemier
Silvana Porco
Christian Hermans
Sascha Gille
Filip Vandenbussche
Dominique Van Der Straeten
Nathalie Verbruggen
Source :
Plant Physiology. 157:1313-1326
Publication Year :
2011
Publisher :
Oxford University Press (OUP), 2011.

Abstract

The root phenotype of an Arabidopsis (Arabidopsis thaliana) mutant of CHITINASE-LIKE1 (CTL1), called arm (for anion-related root morphology), was previously shown to be conditional on growth on high nitrate, chloride, or sucrose. Mutants grown under restrictive conditions displayed inhibition of primary root growth, radial swelling, proliferation of lateral roots, and increased root hair density. We found here that the spatial pattern of CTL1 expression was mainly in the root and root tips during seedling development and that the protein localized to the cell wall. Fourier-transform infrared microspectroscopy of mutant root tissues indicated differences in spectra assigned to linkages in cellulose and pectin. Indeed, root cell wall polymer composition analysis revealed that the arm mutant contained less crystalline cellulose and reduced methylesterification of pectins. We also explored the implication of growth regulators on the phenotype of the mutant response to the nitrate supply. Exogenous abscisic acid application inhibited more drastically primary root growth in the arm mutant but failed to repress lateral branching compared with the wild type. Cytokinin levels were higher in the arm root, but there were no changes in mitotic activity, suggesting that cytokinin is not directly involved in the mutant phenotype. Ethylene production was higher in arm but inversely proportional to the nitrate concentration in the medium. Interestingly, eto2 and eto3 ethylene overproduction mutants mimicked some of the conditional root characteristics of the arm mutant on high nitrate. Our data suggest that ethylene may be involved in the arm mutant phenotype, albeit indirectly, rather than functioning as a primary signal.

Details

ISSN :
15322548
Volume :
157
Database :
OpenAIRE
Journal :
Plant Physiology
Accession number :
edsair.doi.dedup.....f4c5df575f351d200e79acc326178366
Full Text :
https://doi.org/10.1104/pp.111.181461