AI Article Synopsis
- The study investigates the role of two key components of the bacterial signal recognition particle (SRP), Ffh and FtsY, in the secretion of proteins in Bacillus subtilis, focusing on membrane and secretory proteins.
- Results indicate that both Ffh and FtsY are essential for the accumulation of secretory proteins, but their influence varies among different proteins, suggesting the presence of unidentified factors that affect SRP dependence.
- The research also finds that increased production of secretory proteins leads to higher levels of Ffh and FtsY, likely due to post-transcriptional regulation, highlighting potential new areas for understanding how secretory proteins interact with the SRP.
Article Abstract
The bacterial signal recognition particle (SRP)-dependent pathway is believed to be a major targeting route for membrane proteins, as well as for subsets of secretory proteins. The present studies were aimed at an assessment of the role of two key components of SRP, namely Ffh and FtsY, in protein secretion by the Gram-positive bacterium Bacillus subtilis. Our results show that both components are important for the extracellular accumulation of proteins containing known signal peptides. Remarkably, extracellular accumulation of individual proteins was affected to different extents by depletion of Ffh or FtsY, at least under the conditions tested. Moreover, the observed Ffh or FtsY dependence of certain secretory proteins did not seem to correlate with signal peptide length or hydrophobicity. Although it is presently difficult to distinguish between direct and indirect effects, these findings suggest that other, yet unidentified, determinants in secretory proteins are also important for their SRP dependence. High-level production of homologous and heterologous secretory proteins was shown to result in elevated cellular Ffh and FtsY levels. This phenomenon is, most likely, due to post-transcriptional regulation. In conclusion, the present proteomic dissection of SRP-dependent extracellular protein accumulation provides exciting leads to identify novel determinants for interactions between secretory proteins and SRP.
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| http://dx.doi.org/10.1002/pmic.200500560 | DOI Listing |
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