Abstract
FtsY is a signal recognition particle receptor in Escherichia coli that mediates the targeting of integral membrane proteins to translocons by interacting with both signal recognition particle (SRP)-nascent polypeptide-ribosome complexes and the cytoplasmic membrane. Genes encoding the N-terminal segments of Streptomyces lividans FtsY were fused to a gene encoding the E. coli FtsY NG domain (truncated versions of FtsY lacking the transient membrane-anchor domain at the N-terminus), introduced into a conditional ftsY-deletion mutant of E. coli, and expressed in trans to produce chimeric FtsY proteins. Under FtsY-depleted conditions, strains producing chimeric proteins including 34 N-terminal hydrophobic residues grew whereas strains producing chimeric proteins without these 34 residues did not. A strain producing the chimeric protein comprising the 34 residues and NG domain processed beta-lactamase, suggesting that the SRP-dependent membrane integration of leader peptidase was restored in this strain. These results suggest that the N-terminal hydrophobic segment of FtsY in this Gram-positive bacterium is responsible for its interaction with the cytoplasmic membrane.
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