@article{89896, keywords = {Protein Conformation, Bacterial Proteins, Escherichia coli, Mutagenesis, Binding Sites, Membrane Proteins, Protein Binding, Amino Acid Substitution, Escherichia coli Proteins, Phenotype, Cysteine, Disulfides, Genes, Lethal, Alleles, Genes, Dominant, Molecular Weight, Periplasm, SEC Translocation Channels, Protein Disulfide-Isomerases, Cell Membrane Permeability, Arabinose, Dithiothreitol}, author = {Harris and Silhavy}, title = {Mapping an interface of SecY (PrlA) and SecE (PrlG) by using synthetic phenotypes and in vivo cross-linking}, abstract = {
SecY and SecE are integral cytoplasmic membrane proteins that form an essential part of the protein translocation machinery in Escherichia coli. Sites of direct contact between these two proteins have been suggested by the allele-specific synthetic phenotypes exhibited by pairwise combinations of prlA and prlG signal sequence suppressor mutations in these genes. We have introduced cysteine residues within the first periplasmic loop of SecY and the second periplasmic loop of SecE, at a specific pair of positions identified by this genetic interaction. The expression of the cysteine mutant pair results in a dominant lethal phenotype that requires the presence of DsbA, which catalyzes the formation of disulfide bonds. A reducible SecY-SecE complex is also observed, demonstrating that these amino acids must be sufficiently proximal to form a disulfide bond. The use of cysteine-scanning mutagenesis enabled a second contact site to be discovered. Together, these two points of contact allow the modeling of a limited region of quaternary structure, establishing the first characterized site of interaction between these two proteins. This study proves that actual points of protein-protein contact can be identified by using synthetic phenotypes.
}, year = {1999}, journal = {J Bacteriol}, volume = {181}, pages = {3438-44}, month = {06/1999}, issn = {0021-9193}, doi = {10.1128/JB.181.11.3438-3444.1999}, language = {eng}, }