Effects of metals on enzyme activity in plants

Authors

  • F. VAN ASSCHE,

    Corresponding author
    1. Department SBM, Limburgs Universitair Centrum. Universitaire Campus. B-3610 Diepenbeek, Belgium
      Dr. F. Van Assche, Department SBM. Limburgs Universitair Centrum, B-3610 Diepenbeck, Belgium.
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  • H. CLIJSTERS

    1. Department SBM, Limburgs Universitair Centrum. Universitaire Campus. B-3610 Diepenbeek, Belgium
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Dr. F. Van Assche, Department SBM. Limburgs Universitair Centrum, B-3610 Diepenbeck, Belgium.

Abstract

Abstract. Uptake of phytotoxic amounts of metal by higher plants or algae can result in inhibition of several enzymes, and in increase in activity (= induction) of others. Two mechanisms of enzyme inhibition predominate: (1) binding of the metal to sulphydryl groups, involved in the catalytic actionor structural integrity of enzymes, and (2) deficiency of an essential metal in metalloproteins or metal-protein complexes, eventually combined with substitution of the toxic metal for the deficient element. Metal accumulation in the cellular compartment of the enzyme is a prerequisite for enzyme inhibition in vivo. The induction of some enzymes is considered to play a significant role in the stress metabolism, induced by metal phytotoxicity. Peroxidase induction is likely to be related to oxidative reactions at the biomembrane; several enzymes of the intermediary metabolism might be stimulated to compensate for metal-sensitive photosynthetic reactions. The induction of enzymes and metal-specific changes in isoperoxidase pattern can be used as diagnostic criteria to evaluate the phytotoxicity of soils, contaminated by several metals. Lines for future research on metal phytotoxicity are proposed, involving the study of inhibition and induction of enzymes at the different cell membranes (especially the plasmamembrane) in vivo.

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