Engineering lysine-rich caleosins as carrier proteins to render biotin as a hapten on artificial oil bodies for antibody production

It has been demonstrated that caleosin alone is sufficient to stabilize artificial oil bodies. A series of recombinant caleosins, mutated with 3, 5, 8, 11, 13, 15, and 17 extra Lys residues and over-expressed in Escherichia coli, were used as carrier proteins to render biotin as a hapten on the surface of artificial oil bodies for antibody production. Biotinylation levels of the recombinant caleosins were step-wisely elevated as the number of extra Lys residues increased, and the biotinylated Lys residues were identified by mass spectrometric analysis. Polyclonal antibodies against biotin were successfully generated in rats injected with artificial oil bodies constituted with each of the biotinylated caleosins. Moreover, those generated via the biotinylated caleosins with eight or more extra Lys residues no longer recognized caleosin. It appears that engineered Lys-rich caleosins are suitable carrier proteins for the production of antibodies against small molecules. (C) 2011 American Institute of Chemical Engineers Biotechnol. Prog., 201

Stability of Artificial Oil Bodies constituted with Recombinant Caleosins

Caleosin is a unique calcium binding protein anchoring to the surface of seed oil bodies by its central hydrophobic domain composed of an amphiphatic alpha-helix and a proline-knot subdomain. Stable artificial oil bodies were successfully constituted with recombinant caleosin overexpressed in Escherichia coli. The stability of artificial oil bodies was slightly or severely reduced when the amphiphatic alpha-helix or proline-knot subdomain in the hydrophobic domain of caleosin was truncated. Deletion of the entire central hydrophobic domain substantially increased the solubility of the recombinant caleosin, leading to a complete loss of its capability to stabilize these oil bodies. A recombinant protein engineered with the hydrophobic domain of caleosin replaced by that of oleosin, the abundant structural protein of seed oil bodies, could stabilize the artificial oil bodies, in terms of thermo- and structural stability, as effectively as caleosin or oleosin