Carbonyl reductase of Candida parapsilosis - Stability analysis and stabilization strategy

Article ID	Journal	Published Year	Pages	File Type
6531086	Journal of Molecular Catalysis B: Enzymatic	2015	9 Pages	PDF

Abstract

- In-depth analysis of inactivation mechanisms of CPCR2 by structured experimentation.
- Interface interaction and dissociation of active dimer as main inactivation causes.
- Target-oriented CPCR2 stabilization strategies for catalytic applications.
- CPCR2 stabilization at interfaces by addition of BSA as protectant.
- Cofactor addition to stabilize internal interactions and avoid dimer dissociation.

Keywords

DTT ABEE BSA bovine serum albumin EDTA Ethylenediaminetetraacetic acid Alcohol dehydrogenase triethanolamine Stability dithiothreitol Inactivation Polypropylene TEA

Related Topics

Physical Sciences and Engineering Chemical Engineering Catalysis

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Carbonyl reductase of Candida parapsilosis - Stability analysis and stabilization strategy

Authors

Jan-Hendrik Grosch, Christoph Loderer, Tim Jestel, Marion Ansorge-Schumacher, Antje C. SpieÃ,