The ice-nucleation protein (Inp) is a glycosyl phosphatidylinositol-anchored outer membrane protein found in some Gram-negative bacteria. Using Pseudomonas syringae inp as an anchoring motif, we investigated the functional display of a foreign protein, Zymomonas mobilis levansucrase (LevU), on the surface of Escherichia coli. The cells expressing Inp-LevU were found to retain both the ice-nucleation and whole-cell levansucrase enzyme activities, indicating the functional expression of Inp-LevU hybrid protein on the cell surface. The surface localization was further verified by immunofluorescence microscopy, fluorescence-activated cell sorting flow cytometry and immunogold electron microscopical examination. No growth inhibition or changes in the outer membrane integrity were observed upon the induction of fusion protein synthesis. Viability of the cells was also maintained over 48 hours in the stationary phase. Surface-displayed levansucrases were found to be resistant to the externally added proteases unless the cells were treated with EDTA. When the levansucrase-displayed cells were used as the enzyme source, levan (44 g/L) was efficiently synthesized from sucrose (130 g/L) with 34% (wt/wt) conversion yield, generating glucose (65 g/L) as a by-product.
An extreme diversity of substrates and catalytic reactions of cytochrome P450 (P450) enzymes is considered to be the consequence of evolutionary adaptation driven by different metabolic or environmental demands. Here we report the presence of numerous natural variants of P450 BM3 (CYP102A1) within a species of Bacillus megaterium. Extensive amino acid substitutions (up to 5% of the total 1049 amino acid residues) were identified from the variants. Phylogenetic analyses suggest that this P450 gene evolve more rapidly than the rRNA gene locus. It was found that key catalytic residues in the substrate channel and active site are retained. Although there were no apparent variations in hydroxylation activity towards myristic acid (C14) and palmitic acid (C16), the hydroxylation rates of lauric acid (C12) by the variants varied in the range of >25-fold. Interestingly, catalytic activities of the variants are promiscuous towards non-natural substrates including human P450 substrates. It can be suggested that CYP102A1 variants can acquire new catalytic activities through site-specific mutations distal to the active site.
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