Preparative refolding of small monomeric outer membrane proteins.

The outer membrane of gram-negative bacteria constitutes an important hurdle for the transport of hydrophobic molecules into the cell. Mass flux is often facilitated by various outer membrane proteins. These proteins are of biotechnological importance because they could help to improve the performance of whole-cell biocatalysts or be incorporated into artificial cell-like systems. The characterization and understanding of their transport properties greatly benefits from the possibility to express and purify these proteins. We investigated folding parameters for the refolding of four small monomeric outer membrane proteins from Escherichia coli (OmpW) and different pseudomonads (AlkL, OprG and TodX). To this aim we screened a number of inexpensive detergents and detergent concentrations, folding additives as well as protein concentrations. Interestingly, detergents with a C chain were most effective in promoting the folding reaction, particularly the negatively charged N-Lauroylsarcosine for OmpW, OprG and TodX as well as the zwitterionic N,N-Dimethyl-n-dodecylamine N-oxide (LDAO) for AlkL. The addition of 1 M urea (AlkL, OmpW), 0.1 M glutamate (OprG) or 0.1 M glycine (TodX) could further improve the folding efficiency. In order to be able to reproducibly produce larger amounts of the proteins, we then established the folding in a miniaturized stirred-tank reactor system combined with a liquid handler. This approach led to a near-complete refolding of OprG (96%), a very good folding of AlkL (84%) and OmpW (71%), only TodX folding was more variable with a final folding efficiency of 52%, all obtained at a final protein concentration of 0.5 g/L.