Bacterial cell surface display of lipase and its randomly mutated library facilitates high-throughput screening of mutants showing higher specific activities

The thermostable lipase (TliA) from Pseuodmonas fluorescens was functionally displayed on the surface of Escherichia coli using the ice-nucleation protein (INP) as an anchor. The INP–TliA fusion proteins were correctly synthesized and localized on the surface, confirmed by flow cytometer and halo forming activity on tributyrin emulsion agar plate. Lipase-displaying cells were used as an alternative immobilized biocatalyst to hydrolyze olive oil in aqueous–organic solvent two phases reaction. Furthermore, the randomly generated library of TliA was also displayed on E. coli. In order to be able to screen mutants showing increased specific activities, we optimized culture conditions, induction condition and host cell types. From more than 105 members of library, top four mutants were selected. Selected clones of T48, T54, T61, and T68 showed 29-, 24-, 2-, and 19-fold increases, respectively, in whole-cell activities compared to wild-type enzyme. The DNA sequencing showed that one or three amino acids were exchanged and positions critical for increased activities were random. These results demonstrate that surface display provide a useful technology for directed evolution of industrially important lipases.