Translocation of nascent non-signal sequence protein in heated Escherichia coli.

Exposure of Escherichia coli to heat resulted in 1) selective inhibition of protein synthesis, 2) synthesis of heat shock proteins, and 3) altered subcellular distribution of newly synthesized proteins. Either 5 min or 1 h at 48 degrees C increases outer membrane proteins of Coomassie Blue-stained gels. After 1 h, there was a loss of stained proteins from the soluble fraction. Much greater changes in the distribution of radiolabeled (newly synthesized) proteins were observed, with marked increases in the number of outer membrane protein species and a corresponding loss of soluble fraction proteins. Three major species of radiolabeled proteins from heat-treated cells remain in the soluble fraction; these proteins have apparent Mr 56,000, 69,200, and 79,400. Cells were labeled with L-[35S] methionine at either 37 or 48 degrees C and chased with non-radiolabeled methionine before a temperature shift to either 48 or 37 degrees C, respectively. Only proteins synthesized at elevated temperature participated in translocation. It is suggested that heat disordering of membrane lipids promotes interlipidic connections between the inner and outer membrane providing pathways for protein movement to the outer membrane and may be the mechanism whereby a cell quickly responds to environmental temperature stress. The response does not require but may trigger synthesis of mRNA.