Two Signal Recognition Particle Sequences Are Present in the Amino-Terminal Domain of the C-Tailed Protein SciP.

During their synthesis, the C-tailed membrane proteins expose the membrane-spanning segment late from the ribosome and consequently can insert into the membrane only posttranslationally. However, the C-tailed type 6 secretion system (T6SS) component SciP uses the bacterial signal recognition particle (SRP) system for membrane targeting, which operates cotranslationally. Analysis of possible sequence regions in the amino-terminal part of the protein revealed two candidates that were then tested for whether they function as SRP signal peptides. Both sequences were tested positive as synthetic peptides for binding to SRP. In addition, purified ribosomes with stalled nascent chains exposing either sequence were capable of binding to SRP and SRP-FtsY complexes with high affinity. Together, the data suggest that both peptides can serve as an SRP signal sequence promoting an early membrane targeting of SciP during its synthesis. Like observed for multispanning membrane proteins, the two cytoplasmic SRP signal sequences of SciP may also facilitate a retargeting event, making the targeting more efficient.IMPORTANCE C-tail proteins are anchored in the inner membrane with a transmembrane segment at the C terminus in an N-in/C-out topology. Due to this topology, membrane insertion occurs only posttranslationally. Nevertheless, the C-tail-anchored protein SciP is targeted cotranslationally by SRP. We report here that two amino-terminal hydrophobic stretches in SciP are individually recognized by SRP and target the nascent protein to FtsY. The presence of two signal sequences may enable a retargeting mechanism, as already observed for multispanning membrane proteins, to make the posttranslational insertion of SciP by YidC more efficient.