International audienceRetention of metal cations by the cell wall is a common process found in plants in response to stress induced by the presence of trace metals (TMs). In this study conducted on a tomato cell suspension culture, cadmium (Cd) and zinc (Zn) were added to the medium at maximal concentrations of 0.5 and 2 mM, respectively. We showed that around 50 % of Zn or Cd was confined into the cell wall of tomato cells. Besides, their accumulation in the cell wall increased with the exogenous concentration in the culture medium. Characterization of cell wall pectins showed a decrease in the highly methylesterified pectin fraction whereas the weakly methylesterified pectin remained stable in response to Cd. Moreover, a significant increase in the degree of methylesterification was observed in both fractions. This was probably associated to the reduced pectin methylesterase (PME) activity in the treated cells. Furthermore, linked to a reduction of pectin content we showed a reduced expression of the galacturonosyltransferase QUA1 gene whereas PME1 expression remained unchanged. Taking together, these data strongly suggest that pectin biosynthesis and its modification in the cell wall are strongly regulated in response to TM exposure in tomato cells
The occurrence of two enzymes performing de-N-glycosylation of glycoproteins, namely, endo-N-acetyl-beta-D-glucosaminidase (ENGase, EC 3.2.1.96) and peptide-N(4)-(N-acetyl-beta-D-glucosaminyl) asparagine amidase (PNGase, EC 3.5.1.52) was investigated in barley, cv. Plaisant (a winter six rowed variety). The dry grain showed both activities according to the HPLC detection of the hydrolysis of fluorescent resorufin-labelled substrates. However, PNGase activity was 16-fold higher than ENGase activity. During germination, both activities increased, PNGase by only 1.5-fold compared to nearly 4.8-fold for ENGase over the 4 d following imbibition. The localization of these activities within the grain showed that the major contribution of PNGase was due to the endosperm, typically representing over 90% of the whole grain activity. In contrast, ENGase activity was especially high in the embryo and, later, in the developing plantlet (10-fold higher than in the endosperm), particularly in the rootlets and scutellum. In developing spikes, PNGase activity was 5.6-fold higher than in the leaves, but similar ENGase activity was measured in both organs. During grain formation, PNGase activity followed dry matter increase together with endosperm development. In contrast, ENGase activity dropped by 66% at the beginning of grain filling before stabilizing until harvest. The occurrence of de-N-glycosylation-performing enzymes throughout the development of barley raises the question of the nature of their natural substrates. Moreover, the prevalence of one of these enzymes over the other depending on the organ and the developmental stage, could represent the first evidence of specific functions for each enzyme.
Douglas fir trees grown on an artificially Cd-contaminated soil, can tolerate this trace element (up to 68 mg/kg in soil) during several months. Most of the absorbed Cd is retained in roots (25 mg/kg DM), but transfer to aerial part is also effective. Showing the highest content, up to 6 mg/kg DM, among all the aboveground parts, barks seem to be a preferred storage compartment. However, the transfer factor is quite low, about 0.3. Another objective of this study was to compare the cell wall components of trees exposed to increasing Cd amounts in soil. A decrease in lignin and an increase in pectin contents were observed in response to increasing soil cadmium concentration. A concurrent reduction in methyl-esterification of pectin suggests than the structure of this major binding site could therefore be modified as a reaction to cadmium contamination. Future prospects will focus on the modulation of pectin composition in response to Cd exposure.
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