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This article in JEQ

  1. Vol. 29 No. 3, p. 665-676
     
    Received: Feb 1, 1999
    Published: May, 2000


    * Corresponding author(s): jmbollag@psu.edu
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doi:10.2134/jeq2000.00472425002900030001x

Phenoloxidase-Mediated Interactions of Phenols and Anilines with Humic Materials

  1. Jerzy Dec and
  2. Jean-Marc Bollag *
  1. Laboratory of Soil Biochemistry, Center for Bioremediation and Detoxification, The Pennsylvania State Univ., University Park, PA 16802.

Abstract

Abstract

Phenoloxidases present in terrestrial systems may contribute to the formation of humus through random coupling of a variety of aromatic compounds, including xenobiotic chemicals. Because of their structural similarity to natural substrates originating mainly from ligdin decomposition, xenobiotic phenols and anilines can be readily incorporated into the soil organic matter, a phenomenon referred to as binding. The underlying mechanism of binding involves oxidation of the xenobiotic substrates to free radicals or quinone products that subsequently couple directly to humus or to naturally occurring phenols that also are subject to oxidation. The oxidation can be mediated by soil phenoloxidases as well as by abiotic catalysts. The ability of the enzymes to mediate the oxidation was demonstrated in a number of model studies, in which selected pollutants were incubated with humic monomers or natural humic acids in the presence of different phenoloxidases (laccase, peroxidase, tyrosinase). Analysis of the formed complexes by mass spectrometry and 13C nuclear magnetic resonance (NMR) spectroscopy left no doubt about the formation of covalent bonds between the pollutants and humic materials. Some bonds were formed at the chlorinated sites, leading to partial dehalogenation of the aromatic contaminants. Experimental data indicated that bound phenols and anilines were unlikely to adversely affect the environment; their release from humic complexes by soil microorganisms was very limited and once released, they were subjected to mineralization. For those reasons, phenoloxidases, which proved capable of mediating the underlying reaction, are currently considered as a tool for enhancing immobilization phenomena in soil.

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