Utilization of laccases in biotechnology and bioremediation has created a strong demand for the characterization of new enzymes and an increase in production of known laccases. Thus, additional research into these enzymes is critically needed. In this study, we report a comparative study of the biochemical and transcriptional properties of two different laccase isozymes from Trametes hirsuta 072 - the constitutive and inducible forms. A recombinant LacC enzyme was expressed in Penicillium canescens to characterize its properties. LacC is single-purpose enzyme, unlike LacA, which can operate efficiently under a wide range of temperatures and pHs (55-70 °C and pH 3-5, respectively). LacC has a lower RedOx potential than LacA and does not oxidize substrates containing amine groups. Expression of the lacC gene was selective compared to that of the lacA gene and increased significantly in the presence of complex synthetic compounds such as dyes and xenobiotics. This study shows that laccases from the multigene families of basidiomycetes differ significantly in their properties, thus providing a complementary effect during lignin degradation.
Keywords: Constitutive and inducible isozymes; Differential expression; Laccase multigene family; White-rot fungi.
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