High-sensitivity detection of newly induced LamB protein on the Escherichia coli cell surface.

The kinetics of the appearance at the cell surface of the outer membrane LamB protein after induction were determined by using specific antibodies and radioiodinated protein A as a probe. This was done in two different induction systems. First, LamB protein was induced in a wild-type strain by the simultaneous addition of cyclic AMP and maltose. Second, an operon fusion strain in which the lamB gene is expressed under lac promoter control was used; in this system, LamB protein can be induced by isopropyl-beta-D-thiogalactopyranoside. When uninduced cells were grown in glucose minimal medium, background expression of the lamB gene was found to be ca. 10-fold lower in lac-lamB cells than in wild-type cells. The level of LamB protein present in uninduced wild-type cells could, however, be reduced by supplementing the growth medium with Casamino Acids. After induction, the LamB protein appeared at the cell surface of both strains within a few minutes, and then the LamB level per cell increased linearly. The time lag in cell surface exposure of LamB protein differed slightly under both induction conditions: the LamB protein appeared at the surface of lac-lamB cells within 3 min of induction, whereas in wild-type cells it could not be detected earlier than after 4 to 5 min of induction.