Excessive iron accumulation in the pea mutants dgl and brz: subcellular localization of iron and ferritin

Abstract.

The pea (Pisum sativum L.) mutants dgl and brz are defective in the regulation of iron uptake. Enhanced proton extrusion and constitutively high Fe(III) reductase activities in the roots lead to an accumulation of iron and other divalent cations in different organs of the mutants. Ultrastructural investigations of the basal leaflets of the mutants revealed in the cytoplasm, in mitochondria and especially in, or close to the endoplasmic reticulum numerous electron-dense particles which were absent in the corresponding wild type plants DGV and Sparkle. By means of electron-spectroscopic imaging and electron-energy-loss spectroscopy it could be shown that these electron-dense particles consist mainly of iron. Some of the iron deposits were immunocytochemically identified as the iron-storage protein ferritin. It is suggested that the precipitation of excessive iron in the dgl and brz mutant leaves in the form of electron-dense iron particles combined with the accumulation of ferritin is part of the plant defense mechanism against Fe-mediated oxidative stress.