strategy for soluble overexpression and biochemical characterization of halo-thermotolerant Bacillus laccase in modified E. coli

Abstract

An efficient method was introduced for soluble expression of recombinant laccase (rpCotA((SL-1))) from a newly isolated halo-thermotolerant Bacillus sp. SL-1 in modified Escherichia coli, trxB2/gor2 mutant (Origami (TM) B (DE3)). The yield of purified soluble laccase in Origami strain under micro-aerobic condition was similar to 20 mg/L of bacterial culture, showing significant improvement over the laccase produced in E.coli BL21 strain under aerobic condition. The specific activity of 13 U/mg for purified laccase produced in micro-aerobic condition was higher than that of 1.07 U/mg observed for the purified enzyme obtained in aerobic condition in Origami. The kinetic K-m and k(cat) parameters for laccase-induced oxidation reactions were 46 mu M and 23 s(-1) for ABTS (2,2'-Azino-bis(3-ethylbenzthiazoline-6-sulphonic acid), and 19.6 mu M and 24 s(-1) for SGZ (syringaldazine) substrates, respectively. The rpCotA((SL1)) displayed thermostability at 70 degrees C and tolerance to specified concentrations of NaCl, NaN3, EDTA and SDS as inhibitors. The enzyme was relatively stable in the presence of different concentration of organic solvents, however the residual activity was adversely affected as the dipole moment of the solvents increase. Here we successfully report the production of soluble and functional laccase in Origami at the expression level suitable for industrial application. (C) 2016 Elsevier B.V. All rights reserved.