In Vivo Analyses of Interactions between SecE and SecY, Core Components of the Escherichia coli Protein Translocation

We have carried out structure-function studies on the cytoplasmic membrane protein, SecE, a component of the Escherichia coli secretion machinery. SecE, along with SecY, form a complex in the cytoplasmic membrane essential for protein translocation. By directed mutagenesis, we altered highly conserved residues of the second cytoplasmic domain (CD2) and of the COOH-terminal periplasmic region (PD2) of SecE. These mutants, as well as previously constructed mutations in the third membrane-spanning segment of SecE (MSS3), were tested for their ability to complement a secE null mutation, for their effects on protein export in vivo, and for their ability to form a stable complex with SecY. Most single mutations at the conserved positions in CD2 caused secretion defects, but had little effect on growth at 37 °C. Double mutations in CD2, or the introduction or removal of proline residues, affected growth and protein translocation more severely. Co-immunoprecipitations of SecE and SecY revealed that all mutant proteins, except those altered in PD2, destabilized the SecESecY complex. These results suggest that several regions contribute to the formation of a stable SecE-SecY complex but the elimination of a single contact point does not necessarily affect the functionality of the complex.