An epoxide hydrolase from Vigna radiata (VrEH2) affords partial enantioconvergence (84% ee) in the enzymatic hydrolysis of racemic p-nitrostyrene oxide (pNSO), mainly due to insufficient regioselectivity for the (S)-enantiomer (rS = alphaS/betaS = 7.3). To improve the (S)-pNSO regioselectivity, a small but smart library of VrEH2 mutants was constructed by substituting each of four key residues lining the substrate binding site with a simplified amino acid alphabet of Val, Asn, Phe, and Trp. Among the mutants, M263N attacked almost exclusively at Calpha in the (S)-epoxide ring with satisfactory regioselectivity (rS = 99.0), without compromising the original high regioselectivity for the (R)-epoxide (rR = 99.0), resulting in near-perfect enantioconvergence (>99% analytical yield, 98% ee). Structural and conformational analysis showed that the introduced Asn263 formed additional hydrogen bonds with the nitro group in substrate, causing a shift in the substrate binding pose. This shift increased the difference in attacking distances between Calpha and Cbeta, leading to an improved regiopreference toward (S)-pNSO and affording near-perfect enantioconvergence.
        
Title: Heterologous overexpression of Vigna radiata epoxide hydrolase in Escherichia coli and its catalytic performance in enantioconvergent hydrolysis of p-nitrostyrene oxide into (R)-p-nitrophenyl glycol Zhu QQ, He WH, Kong XD, Fan LQ, Zhao J, Li SX, Xu JH Ref: Applied Microbiology & Biotechnology, 98:207, 2014 : PubMed
Two native epoxide hydrolases (EHs) were previously discovered from mung bean powder (Vigna radiata), both of which can catalyze the enantioconvergent hydrolysis of p-nitrostyrene oxide (pNSO). In this study, the encoding gene of VrEH1 was successfully cloned from the cDNA of V. radiata by RT-PCR and rapid amplification of cDNA ends (RACE) technologies. High homologies were found to two putative EHs originated from Glycine max (80%) and Medicago truncatula (79%). The vreh1 gene constructed in pET28a(+) vector was then heterologously overexpressed in Escherichia coli BL21(DE3), and the encoded protein was purified to homogeneity by nickel affinity chromatography. It was shown that VrEH1 has an optimum activity at 45 degrees C and is very thermostable with an inactivation energy of 468 kJ mol(-1). The enzyme has no apparent requirement of metal ions for activity, and its activity was strongly inhibited by 1 mM of Ni(2+), Cu(2+), Fe(2+), or Co(2+). By adding 0.1% Triton X-100, the enzyme activity could be significantly increased up to 340%. VrEH1 shows an unusual ability of enantioconvergent catalysis for the hydrolysis of racemic pNSO, affording (R)-p-nitrophenyl glycol (pNPG). It displays opposite regioselectivity toward (S)-pNSO (83% to Calpha) in contrast to (R)-pNSO (87% to Cbeta). The K M and k cat of VrEH1 were determined to be 1.4 mM and 0.42 s(-1) for (R)-pNSO and 5.5 mM and 6.2 s(-1) for (S)-pNSO. This thermostable recombinant VrEH1 with enantioconvergency is considered to be a promising biocatalyst for the highly productive preparation of enantiopure vicinal diols and also a good model for understanding the mechanism of EH stereoselectivity.
        
Title: Expression and characterization of a novel lipase from Aspergillus fumigatus with high specific activity Shangguan JJ, Liu YQ, Wang FJ, Zhao J, Fan LQ, Li SX, Xu JH Ref: Appl Biochem Biotechnol, 165:949, 2011 : PubMed
A novel lipase gene from Aspergillus fumigatus, afl1-1, was cloned and expressed with a molecular mass of 38 kDa in Escherichia coli for the first time. The recombinant lipase had a preference for short carbon chain p-nitrophenyl esters, especially toward C2 p-nitrophenyl ester and exhibited potent hydrolysis activity that had not been observed. The optimum pH and temperature of this new enzyme were 8.5 and 65 degrees C, respectively. The recombinant lipase (AFL1-1) is an alkaline enzyme which was stable in the pH range 6.0 approximately 8.5 for 16 h (at 4 degrees C) and at 30 approximately 50 degrees C for 1 h. It is an intracellular enzyme which was purified approximately 8.47-fold with an overall yield of 86.1% by single-step Ni-NTA affinity purification, with a very high specific activity of approximately 1.00 x 10(3) U mg(-1) on a standard substrate of p-nitrophenyl acetate. The Michaelis-Menten kinetic parameters V (max) and K (m) of the lipase were 1.37 mM mg(-1) min(-1) and 14.0 mM, respectively. Ca(2+) and other metal ions could not activate the lipase. According to the homology analysis and site-directed mutagenesis assay, the catalytic triad of the recombinant lipase was identified as Ser-165, Asp-260, and His-290 residues.
        
Title: Significantly improved expression and biochemical properties of recombinant Serratia marcescens lipase as robust biocatalyst for kinetic resolution of chiral ester Wang Y, Zhao J, Xu JH, Fan LQ, Li SX, Zhao LL, Mao XB Ref: Appl Biochem Biotechnol, 162:2387, 2010 : PubMed
A lipase gene from Serratia marcescens ECU1010 was cloned into expression vector pET28a, sequenced, and overexpressed as an N terminus His-tag fusion protein in Escherichia coli. Through the optimization of culture conditions in shake flask, the lipase activity was improved up to 1.09 x 10(5) U/l, which is a great improvement compared to our previous reports. It was purified to homogeneity by Ni-NTA affinity chromatography with an overall yield of 59.4% and a purification factor of 2.4-fold. This recombinant lipase displayed excellent stability below 30 degrees C and within the pH range of 5.0-6.8, giving temperature and pH optima at 40 degrees C and pH 9.0, respectively. The lipase activity was found to increase in the presence of metal ions such as Ca(2)+, Cu(2)+, and some nonionic surfactants such as PEG series. In addition, among p-nitrophenyl esters of fatty acids with varied chain length, the recombinant lipase showed the maximum activity on p-nitrophenyl laurate (C(1)(2)). Using racemic trans-3-(4'-methoxy-phenyl)-glycidyl methyl ester [(+/-)-MPGM] as substrate, which is a key chiral synthon for production of diltiazem, a 50% conversion yield was achieved after 4 h in toluene-water (100 mM KPB phosphate buffer, pH 7.5) biphasic system (5:5 ml) at 30 degrees C under shaking condition (160 rpm), affording (-)-MPGM in nearly 100% ee. The K(m) and V(max) values of the lipase for (+/-)-MPGM were 222 mM and 1.24 mmol min(-)(1) mg(-)(1), respectively. The above-mentioned features make the highly enantioselective lipase from Serratia marcescens ECU1010 a robust biocatalyst for practical use in large-scale production of diltiazem intermediate.