Abstract

Rhizobium etli CE3 grown in succinate-ammonium minimal medium (MM) excreted outer membrane vesicles (OMVs) with diameters of 40 to 100 nm. Proteins from the OMVs and the periplasmic space were isolated from 6 and 24 h cultures and identified by proteome analysis. A total of 770 proteins were identified: 73.8 and 21.3 % of these occurred only in the periplasm and OMVs, respectively, and only 4.9 % were found in both locations. The majority of proteins found in either location were present only at 6 or 24 h: in the periplasm and OMVs, only 24 and 9 % of proteins, respectively, were present at both sampling times, indicating a time-dependent differential sorting of proteins into the two compartments. The OMVs contained proteins with physiologically varied roles, including Rhizobium adhering proteins (Rap), polysaccharidases, polysaccharide export proteins, auto-aggregation and adherence proteins, glycosyl transferases, peptidoglycan binding and cross-linking enzymes, potential cell wall-modifying enzymes, porins, multidrug efflux RND family proteins, ABC transporter proteins and heat shock proteins. As expected, proteins with known periplasmic localizations (phosphatases, phosphodiesterases, pyrophosphatases) were found only in the periplasm, along with numerous proteins involved in amino acid and carbohydrate metabolism and transport. Nearly one-quarter of the proteins present in the OMVs were also found in our previous analysis of the R. etli total exproteome of MM-grown cells, indicating that these nanoparticles are an important mechanism for protein excretion in this species.

Highlights

  • Bacterial protein secretion is a vital function involving the transport of proteins from the cytoplasm to other cellular locations, the environment or to eukaryotic host cells [1]

  • Of the proteins synthesized by Escherichia coli on cytoplasmic ribosomes, about 22 % are inserted into the inner membrane (IM) while 15 % are targeted to periplasmic, outer membrane (OM) and extracellular locations [2]

  • The periplasmic space of Gram-negative bacteria is delineated by the IM and OM, with a thin peptidoglycan layer attached to both membranes by membrane-anchored proteins

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Summary

Introduction

Bacterial protein secretion is a vital function involving the transport of proteins from the cytoplasm to other cellular locations, the environment or to eukaryotic host cells [1]. Our major aim in this work was to identify proteins present in purified R. etli OMVs obtained from cells grown in culture.

Results
Conclusion

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