Abstract
A thermostable and alkaline-stable novel esterase (Est7) was identified through the whole genome sequencing of Stenotrophomonas maltophilia OUC_Est10. The open reading frame of this gene encoded 617 amino acid residues. After heterologous expression in Escherichia coli BL21 (DE3), the purified Est7 was separated as a single protein and presented a molecular mass of 70.6 kDa. Multiple sequence alignment indicated that Est7 had a typical catalytic triad (Ser-Asp-His) and the conserved sequence (GDSL) typical of the family II lipid hydrolase proteins. Est7 showed good stability in alkaline buffers, especially in Tris-HCl buffer at pH 9.0 (residual activity 93.8% after 96 h at 4 °C) and in the medium temperature conditions (residual activity 70.2% after 96 h at 45 °C and pH 8.0). The enzyme also retained higher stability toward several hydrophilic and hydrophobic organic solvents (e.g., after incubation in 100% acetonitrile or in n-hexane the enzyme retained about 97% and 84% of the activity in the absence of organic solvent, respectively). Furthermore, Est7 could catalyze the transesterification reaction of vinylacetate with 2-phenylethanol and cis-3-hexen-1-ol to their corresponding acetate esters in petroleum ether or tert-butyl methyl ether. These results indicate Est7 as a promising biocatalyst for applications of Est7 in non-aqueous media.
Highlights
Esterases (EC 3.1.1.1) can catalyze the hydrolysis or the synthesis of glycerides
Based on the whole genome sequencing of S. maltophilia OUC_Est10, the analysis and comparison showed that the genome was rich in lipolytic enzyme genes
This classification was confirmed through the analysis of the enzyme structure by the SMART website (URL: http://smart.embl.de/), which showed that the sequence from the 1st to the 26th amino acid residue (MLLSKRPIRSLMAAAIALAAVPAMAG) was a signal peptide typically observed for the lipolytic enzyme family II (Figure 1c)
Summary
Esterases (EC 3.1.1.1) can catalyze the hydrolysis or the synthesis of glycerides. Contrary to lipases they have higher substrate specificity toward short chain length glycerides (e.g., carbon chain length
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