Abstract
Pseudomonas lipases play an important role in biotechnology both as hydrolases for detergent additives and as synthases catalyzing the kinetic resolution of racemic compounds. Large-scale production of Pseudomonas lipases requires correct folding and secretion through the bacterial membranes. Controllable expression of the gene lipH encoding a lipase-specific foldase proves to be important for overexpression in the homologous host Escherichia coli. Construction of appropriate His-tagged fusion proteins permitted overexpression, secretion and one-step purification of lipase from culture supernatants of the homologous host Pseudomonas aeruginosa. The immobilization of lipases in hydrophobic sol–gel materials derived from alkylsilane precursors of the type RSi(OCH 3) 3 or mixtures of RSi(OCH 3) 3 and Si(OCH 3) 4 provides highly active and chemically and thermally stable heterogeneous biocatalysts. The entrapped lipases are excellent catalysts in a variety of synthetic organic transformations. Using directed evolution based on error prone PCR, the enantioselectivity of the hydrolysis of a chiral ester, catalyzed by the lipase from P. aeruginosa, can be increased from ee 2 to ee 81% in just four mutagenesis cycles.
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