Molecular determinants of peculiar properties of a Pleurotus ostreatus laccase: Analysis by site-directed mutagenesis |
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Authors: | Flavia Autore Claudia Del Vecchio Franca Fraternali Paola Giardina Giovanni Sannia Vincenza Faraco |
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Affiliation: | aRandall Division of Cell and Molecular Biophysics, New Hunt's House, King's College, SE1 1UL, London, UK;bDepartment of Organic Chemistry and Biochemistry, University of Naples “Federico II”, Complesso Universitario Monte S. Angelo, via Cintia, 4, 80126 Naples, Italy |
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Abstract: | A comparison of laccase sequences highlighted the presence of a C-terminal extension of sixteen amino acids in POXA1b laccase – that represents the most thermostable isoenzyme among Pleurotus ostreatus laccases and exhibits a notable stability at alkaline pH (t1/2 at pH 10 = 30 days) – whereas this tail is missing in the other analysed laccases from basidiomycetes. Site-directed mutagenesis experiments allowed us to demonstrate a role of the C-terminal tail of POXA1b in affecting its catalytic and stability properties. The truncated mutants lose the high stability at pH 10, while they show an increased stability at pH 5. The effect of substituting the residue Asp205 of POXA1b with an arginine was also analysed in the mutant POXA1bD205R. Following the mutation POXA1bD205R, a remarkable worsening of catalytic properties along with a decrease of substrate affinity and of enzyme stability were found. It was demonstrated that introducing Arg205 mutation in a highly conserved region perturbs the structural local environment in POXA1b, leading to a large rearrangement of the enzyme structure. Hence, a single substitution in the binding site introduces a local conformational change that not only leads to very different catalytic properties, but can also significantly destabilize the protein. |
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Keywords: | Phenol-oxidases Rational mutagenesis C-terminal tail Enzyme stability |
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