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Surface Supercharged Human Enteropeptidase Light Chain Shows Improved Solubility and Refolding Yield

Overview
Journal Protein Eng Des Sel
Publisher Oxford University Press
Specialties Biochemistry
Biotechnology
Date 2010 Nov 19
PMID 21084283
Citations 22
Authors
Peter Simeonov
Renate Berger-Hoffmann
Ralf Hoffmann
Norbert Strater
Thole Zuchner
Affiliations
Soon will be listed here.
Abstract

Enteropeptidase is a serine protease used in different biotechnological applications. For many applications the smaller light chain can be used to avoid the expression of the rather large holoenzyme. Recombinant human enteropeptidase light chain (hEPL) shows high activity but low solubility and refolding yields, currently limiting its use in biotechnological applications. Here we describe several protein modifications that lead to improved solubility and refolding yield of human hEPL whilst retaining the enzyme activity. Specifically, protein surface supercharging (N6D, G21D, G22D, N141D, K209E) of the protein increased the solubility more than 100-fold. Replacement of a free cysteine residue with serine (C112S) improved the refolding yield by 50%. The heat stability of this C112S variant was also significantly improved by supercharging. This study shows that even mild protein surface supercharging can have pronounced effects on protein solubility and stability.

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