Abstract
Although it is known that virtually all exported proteins require a signal peptide, it is not clearly understood how the signal peptide interfaces with the translocation machinery to achieve transport. In this study we document a direct interaction between the signal peptide and SecA, a primary component of the translocase in Escherichia coli, and show that the signal peptide itself can stimulate SecA-lipid ATPase activity. Using synthetic signal peptides corresponding to the wild type alkaline phosphatase signal sequence and two model sequences, we find that the extent of stimulation of SecA ATPase activity by the different peptides parallels the hierarchy of results found for in vivo function (Izard, J. W., Doughty, M. B., and Kendall, D. A. (1995) Biochemistry 34, 9904-9912). The peptide-induced activity requires a lipid to protein molar ratio of at least 300:1 and liposomes enriched in negatively charged phospholipids. Furthermore, specific binding of the signal peptide to SecA was demonstrated using chemical cross-linking and competition with unlabeled peptides.
Highlights
The most striking link among all exported proteins is the requirement for a signal peptide
We employ synthetic peptides corresponding to the signal sequence of alkaline phosphatase (PhoA) and idealized model signal peptides that we have previously characterized with regard to a number of physical parameters [15]
The synthetic peptides used in this study include one corresponding to the wild type sequence of the alkaline phosphatase signal peptide and two that are model signal sequences, each containing a carboxyl-terminal cysteine for incorporation of a photoaffinity label (Table I)
Summary
The most striking link among all exported proteins is the requirement for a signal peptide. It has been suggested that signal peptides alone are not substrates for SecA and that stimulation of the ATPase activity requires the presence of the mature protein [5, 14].
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