Production of Reactive Oxygen Intermediates (O2˙−, H2O2, and ˙OH) by Maize Roots and Their Role in Wall Loosening and Elongation Growth

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American Society of Plant Biologists

RESUMO

Cell extension in the growing zone of plant roots typically takes place with a maximum local growth rate of 50% length increase per hour. The biochemical mechanism of this dramatic growth process is still poorly understood. Here we test the hypothesis that the wall-loosening reaction controlling root elongation is effected by the production of reactive oxygen intermediates, initiated by a NAD(P)H oxidase-catalyzed formation of superoxide radicals (O2˙−) at the plasma membrane and culminating in the generation of polysaccharide-cleaving hydroxyl radicals (˙OH) by cell wall peroxidase. The following results were obtained using primary roots of maize (Zea mays) seedlings as experimental material. (1) Production of O2˙−, H2O2, and ˙OH can be demonstrated in the growing zone using specific histochemical assays and electron paramagnetic resonance spectroscopy. (2) Auxin-induced inhibition of growth is accompanied by a reduction of O2˙− production. (3) Experimental generation of ˙OH in the cell walls with the Fenton reaction causes wall loosening (cell wall creep), specifically in the growing zone. Alternatively, wall loosening can be induced by ˙OH produced by endogenous cell wall peroxidase in the presence of NADH and H2O2. (4) Inhibition of endogenous ˙OH formation by O2˙− or ˙OH scavengers, or inhibitors of NAD(P)H oxidase or peroxidase activity, suppress elongation growth. These results show that juvenile root cells transiently express the ability to generate ˙OH, and to respond to ˙OH by wall loosening, in passing through the growing zone. Moreover, inhibitor studies indicate that ˙OH formation is essential for normal root growth.

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