Abstract
Long-term objectives are to elucidate the role and mechanism of the various isozymes in lignin biodegradation. Work is described on electrochemical studies on lignin and Mn peroxidases. This study was performed to investigate the structural aspects which confer the lignin and Mn peroxidases with their high reactivity. The experimentally determined redox potential of the Fe{sup 3+}/Fe{sup 2+} couple for the lignin peroxidase isozymes H1, H2, H8 and H10 are very similar, near-130 mV. The redox potential for the Mn peroxidase isozymes H3 and H4 are similar to each other ({minus}88 mV and {minus}95 mV, respectively) and are more positive than the lignin peroxidases. The higher redox potential for the Fe{sup 3+}/Fe{sup 2+} couple is consistent with the heme active site of these fungal peroxidases being more electron deficient. To investigate the accessibility of the heme active site to the substrate which is oxidized [veratryl alcohol and Mn (II)], we investigated whether these substrates had any affect on the redox potential of the heme. The E{sub m7} value for lignin and Mn peroxidases are not affected by their respective substrates, veratryl alcohol and Mn (II). These results suggest that substrates do not directly interact with the ferric heme-iron as axial ligands. This is consistent with the present model for peroxidase catalysis. Suicide inhibitor (1) and nmr studies (2) indicate that the heme-iron of horseradish peroxidase (HRP) is not fully accessible to bulky substrates occur at the periphery of the heme.
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