Expression of Recombinant Galactose Oxidase by Pichia pastoris

Galactose oxidase catalyzes the oxidation of a variety of primary alcohols, producing hydrogen peroxide as a product. Among hexose sugars, the enzyme exhibits a high degree of specificity for the C6-hydroxyl of galactose and its derivatives, underlying a number of important bioanalytical application...

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Bibliographic Details
Published in:Protein expression and purification 2000-10, Vol.20 (1), p.105-111
Main Authors: Whittaker, Mei M., Whittaker, James W.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Base Sequence
DNA, Complementary
Fermentation
galactose oxidase
Galactose Oxidase - genetics
Galactose Oxidase - isolation & purification
Molecular Sequence Data
Pichia - genetics
Pichia pastoris
Recombinant Proteins - genetics
Recombinant Proteins - isolation & purification
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Summary:Galactose oxidase catalyzes the oxidation of a variety of primary alcohols, producing hydrogen peroxide as a product. Among hexose sugars, the enzyme exhibits a high degree of specificity for the C6-hydroxyl of galactose and its derivatives, underlying a number of important bioanalytical applications. Galactose oxidase cDNA has been cloned for expression in Pichia pastoris both as the full-length native sequence and as a fusion with the glucoamylase signal peptide. Expression of the full-length native sequence results in a mixture of partly processed and mature galactose oxidase. In contrast, the fusion construct directs efficient secretion of correctly processed galactose oxidase in high-density, methanol-induced fermentation. Culture conditions (including induction temperature and pH) have been optimized to improve the quality and yield (500 mg/L) of recombinant enzyme. Lowering the temperature from 30 to 25°C during the methanol induction phase results in a fourfold increase in yield. A simple two-step purification and one-step activation produce highly active galactose oxidase suitable for a wide range of biomedical and bioanalytical applications.
ISSN:1046-5928
1096-0279
DOI:10.1006/prep.2000.1287