Directed Evolution of Novel Enzyme Activities

Abstract

We report here the directed evolution of the two valuable oxidases horseradish peroxidase (HRP) and laccase. We achieved functional expression of HRP in S. cerevisiae, and in E. coli to an extent that allows the improvement of this important catalyst. Mutagenesis, recombination and screening were successful in increasing total activity 40 fold by improving expression, catalytic activity and thermostability. Mutants were produced at up to 600 U/I/OD in Pichia pastoris. We also used computation-guided saturation mutagenesis to create higher active and stabilized HRP mutants more efficiently. We expressed the laccase from Myceliophthora themophila in Saccharomyces cerevisiae. We employed directed evolution to improve catalysis as well as expression level to a 170 fold higher total activity. Our evolved yeast mutant has the highest functional expression ever reported for laccase in a nonfungal system. Kinetic characterization of the purified mutants showed that the substrate specificity was left unchanged. The compromised thermostability of the mutants was regained in only one generation of stability screening. For the functional improvement of laccase we developed high throughput assays. PAH bioremediation can be directly assessed with anthracene and for highest sensitivity (0.3 mU/ml) Poly-R, a readily soluble surrogate substrate for PAHs can be used.

Document Details

Document Type

Technical Report

Publication Date

Jun 11, 2002

Accession Number

ADA402659

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