Abdelilah Chaoui scite author profile

Twelve-day-old seedlings of pea were treated for four days by 20 and 100 µM of Cd(NO 3 ) 2 or CuSO 4 . In leaves, all treatments caused an increase in the lipoperoxidation product rate. However, 20 µM of Cu did not affect the growth. Moreover, except for 20 µM of Cu, the activity of unspecific peroxidases, used as stress marker, was enhanced in cell walls of metalstressed plants. No change in the antioxidant capacities was observed in plants treated with 20 µM of metal. At this dose, the Cd-reduced growth could be associated to an elevation in the activities of IAA oxidase and of lignifying peroxidases. Increase of these latter, in concert with loss in antioxidant capacities, would be responsible for the growth diminution after exposure to 100 µM of metal. However, the activity of lignifying enzymes was not affected by 100 µM of Cu. The contribution of cell fractions to enzymatic responses to stress is emphasized.

show abstract

NICKEL TOXICITY INDUCES OXIDATIVE DAMAGE INZEA MAYSROOTS

Baccouch¹,

Chaoui²,

Ferjani³

2001

Journal of Plant Nutrition

122

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Nickel-induced oxidative damage and antioxidant responses in Zea mays shoots

Baccouch

Chaoui

Ferjani

1998

Plant Physiology and Biochemistry

135

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