Abstract The relationship between accumulation of Pb 2+ and changes in GSH biosynthesis was analyzed in both leaves and roots of the Pb 2+ -hyperaccumulator aquatic fern Salvinia minima , after exposure to 40 μM Pb(NO 3 ) 2 . Lead accumulation in both tissues increased the accumulation of GSH, increased the enzymatic activity of glutathione synthase (GS), and caused changes in the expression levels of Sm GS genes in both tissues. The damage caused by Pb on plant performance, was evaluated by the changes in the content of pigments, particularly on the carotenoids content. Lead accumulation caused more damage in roots than in leaves as indicated by the decrease on their carotenoids content. It is interesting that in leaves, the concentration of GSH, the activity of GS and the expression levels of Sm GS gene were all higher than in roots. These results, together with our previous finding that roots accumulated more phytochelatins than did leaves of S. minima plants exposed to similar concentrations of lead ( Estrella et al., 2009 ), suggest that the Pb-hyperaccumulator aquatic fern, S. minima , displays a coordinated and differential response to Pb 2+ at leaves and roots, where GSH may play an important role in protecting leaves from the detrimental effects of lead, perhaps by counteracting the effect of free radicals.

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