The 325-residue OmpA protein is one of the major outer membrane proteins of Escherichia coli K-12. A model, in which this protein crosses the membrane eight times in an antiparallel beta-sheet conformation and in which regions around amino acids 25, 70, 110 and 154 are exposed at the cell surface, had been proposed. Linkers were inserted into the ompA gene with the result that OmpA proteins, carrying non-OmpA sequences between residues 153 and 154 or 160 and 162, were synthesized. Intact cells possessing these proteins were treated with proteases. Insertion of 15 residues between residues 153 and 154 made the protein sensitive to proteinase K and the sizes of the two cleavage products were those expected following proteolysis at the area of the insertion. Addition of at least 17 residues between residues 160 and 162 left the protein completely refractory to protease action. Thus, the former area is cell surface exposed while the latter area appears not to be. The insertions did not cause a decrease in the concentration of the hybrid proteins as compared to that of the OmpA protein, and in neither case was synthesis of the protein deleterious to cell growth. It is suggested that this method may serve to carry peptides of practical interest to the cell surface and that it can be used to probe surface-located regions of other membrane proteins.