Lysine Acetylation Can Generate Highly Charged Enzymes with Increased Resistance Toward Irreversible Inactivation

Overview

Journal Protein Sci

Specialty Biochemistry

Date 2008 May 3

PMID 18451358

Citations 21

Authors

Bryan F Shaw

Gregory F Schneider

Basar Bilgicer

George K Kaufman

John M Neveu

William S Lane

Julian P Whitelegge

George M Whitesides

Affiliations

Soon will be listed here.

Abstract

This paper reports that the acetylation of lysine epsilon-NH3(+) groups of alpha-amylase--one of the most important hydrolytic enzymes used in industry--produces highly negatively charged variants that are enzymatically active, thermostable, and more resistant than the wild-type enzyme to irreversible inactivation on exposure to denaturing conditions (e.g., 1 h at 90 degrees C in solutions containing 100-mM sodium dodecyl sulfate). Acetylation also protected the enzyme against irreversible inactivation by the neutral surfactant TRITON X-100 (polyethylene glycol p-(1,1,3,3-tetramethylbutyl)phenyl ether), but not by the cationic surfactant, dodecyltrimethylammonium bromide (DTAB). The increased resistance of acetylated alpha-amylase toward inactivation is attributed to the increased net negative charge of alpha-amylase that resulted from the acetylation of lysine ammonium groups (lysine epsilon-NH3(+) --> epsilon-NHCOCH3). Increases in the net negative charge of proteins can decrease the rate of unfolding by anionic surfactants, and can also decrease the rate of protein aggregation. The acetylation of lysine represents a simple, inexpensive method for stabilizing bacterial alpha-amylase against irreversible inactivation in the presence of the anionic and neutral surfactants that are commonly used in industrial applications.

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