Signal peptide analogs derived from two chloroplast precursors interact with the signal recognition system of the chloroplast envelope.

We have used synthetic peptides representing segments of the signal sequences of preferredoxin (pFd) and the precursor of the small subunit of ribulose-1,5-bisphosphate carboxylase (pS) to study interactions with the signal sequence recognition system at the chloroplast surface. Peptides representing the COOH-terminal 30 amino acids of the pFd and pS signal peptides were able to completely and reversibly inhibit the import of their homologous precursors into isolated chloroplasts at a 2.5 microM concentration. Import was blocked at the level of precursor binding to the chloroplast. This inhibition of precursor binding and import was not due to disruption of chloroplast integrity as incubation of isolated chloroplasts with the peptides did not cause measurable perturbation of the envelope membranes. The peptides also were able to block the import of the heterologous precursor protein, suggesting that pS and pFd share a common signal sequence recognition system. Visualization of the bound peptides at the chloroplast surface by indirect immunofluorescence microscopy using antipeptide antibodies gave a marked punctate staining pattern. This pattern is consistent with the localization of chloroplast import receptor(s) at contact zones between the inner and outer envelope membranes.