Prediction of surface exposed proteins in <b><i>Streptococcus pyogenes</i></b>, with a potential application to other Gram‐positive bacteria

Barinov, Aleksandr; Loux, Valentin; Hammani, Amal; Nicolas, Pierre; Langella, Philippe; Ehrlich, Dusko; Maguin, Emmanuelle; Guchte, Maarten van de

doi:10.1002/pmic.200800195

Cited by 103 publications

(80 citation statements)

References 43 publications

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“…Analysis of the genome using SurfG+ [75] suggests the existence of 161 surface exposed proteins, including seven distinct S-layer proteins (PFREUD_03310, PFREUD_16070, PFREUD_18270, PFREUD_18290, PFREUD_23030, PFREUD_23570, PFREUD_00110), one of which, SlpA (PFREUD_18290) was identified here by surface proteomics. Slp proteins are involved in lactobacilli adhesion [76] and immunomodulation [77].…”

Section: Resultsmentioning

confidence: 83%

The Complete Genome of Propionibacterium freudenreichii CIRM-BIA1T, a Hardy Actinobacterium with Food and Probiotic Applications

Falentin

Deutsch²,

Jan³

et al. 2010

PLoS ONE

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167

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Background Propionibacterium freudenreichii is essential as a ripening culture in Swiss-type cheeses and is also considered for its probiotic use [1]. This species exhibits slow growth, low nutritional requirements, and hardiness in many habitats. It belongs to the taxonomic group of dairy propionibacteria, in contrast to the cutaneous species P. acnes. The genome of the type strain, P. freudenreichii subsp. shermanii CIRM-BIA1 (CIP 103027T), was sequenced with an 11-fold coverage.Methodology/Principal FindingsThe circular chromosome of 2.7 Mb of the CIRM-BIA1 strain has a GC-content of 67% and contains 22 different insertion sequences (3.5% of the genome in base pairs). Using a proteomic approach, 490 of the 2439 predicted proteins were confirmed. The annotation revealed the genetic basis for the hardiness of P. freudenreichii, as the bacterium possesses a complete enzymatic arsenal for de novo biosynthesis of aminoacids and vitamins (except panthotenate and biotin) as well as sequences involved in metabolism of various carbon sources, immunity against phages, duplicated chaperone genes and, interestingly, genes involved in the management of polyphosphate, glycogen and trehalose storage. The complete biosynthesis pathway for a bifidogenic compound is described, as well as a high number of surface proteins involved in interactions with the host and present in other probiotic bacteria. By comparative genomics, no pathogenicity factors found in P. acnes or in other pathogenic microbial species were identified in P. freudenreichii, which is consistent with the Generally Recognized As Safe and Qualified Presumption of Safety status of P. freudenreichii. Various pathways for formation of cheese flavor compounds were identified: the Wood-Werkman cycle for propionic acid formation, amino acid degradation pathways resulting in the formation of volatile branched chain fatty acids, and esterases involved in the formation of free fatty acids and esters.Conclusions/SignificanceWith the exception of its ability to degrade lactose, P. freudenreichii seems poorly adapted to dairy niches. This genome annotation opens up new prospects for the understanding of the P. freudenreichii probiotic activity.

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Section: Resultsmentioning

confidence: 83%

The Complete Genome of Propionibacterium freudenreichii CIRM-BIA1T, a Hardy Actinobacterium with Food and Probiotic Applications

Falentin

Deutsch²,

Jan³

et al. 2010

PLoS ONE

Self Cite

167

177

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“…New bioinformatic approaches have been developed and these strategies have significantly improved the prediction of bacterial protein localization. These include the pipelines SLEP (Surface Localization Extracellular Proteins), developed by Giombini et al [28], LocateP developed by Zhou et al [29], and SurfG+ developed by Barinov et al [30]. However, these in silico approaches are still not fully reliable and do not provide detailed surface protein localization in the bacterial cell wall [26].…”

Section: Introductionmentioning

confidence: 99%

Identification of Peptidoglycan-Associated Proteins as Vaccine Candidates for Enterococcal Infections

et al. 2014

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Infections by opportunistic bacteria have significant contributions to morbidity and mortality of hospitalized patients and also lead to high expenses in healthcare. In this setting, one of the major clinical problems is caused by Gram-positive bacteria such as enterococci and staphylococci. In this study we extract, purify, identify and characterize immunogenic surface-exposed proteins present in the vancomycin resistant enterococci (VRE) strain Enterococcus faecium E155 using three different extraction methods: trypsin shaving, biotinylation and elution at high pH. Proteomic profiling was carried out by gel-free and gel-nanoLC-MS/MS analyses. The total proteins found with each method were 390 by the trypsin shaving, 329 by the elution at high pH, and 45 using biotinylation. An exclusively extracytoplasmic localization was predicted in 39 (10%) by trypsin shaving, in 47 (15%) by elution at high pH, and 27 (63%) by biotinylation. Comparison between the three extraction methods by Venn diagram and subcellular localization predictors (CELLO v.2.5 and Gpos-mPLoc) allowed us to identify six proteins that are most likely surface-exposed: the SCP-like extracellular protein, a low affinity penicillin-binding protein 5 (PBP5), a basic membrane lipoprotein, a peptidoglycan-binding protein LysM (LysM), a D-alanyl-D-alanine carboxypeptidase (DdcP) and the peptidyl-prolyl cis-trans isomerase (PpiC). Due to their close relationship with the peptidoglycan, we chose PBP5, LysM, DdcP and PpiC to test their potential as vaccine candidates. These putative surface-exposed proteins were overexpressed in Escherichia coli and purified. Rabbit polyclonal antibodies raised against the purified proteins were able to induce specific opsonic antibodies that mediated killing of the homologous strain E. faecium E155 as well as clinical strains E. faecium E1162, Enterococcus faecalis 12030, type 2 and type 5. Passive immunization with rabbit antibodies raised against these proteins reduced significantly the colony counts of E. faecium E155 in mice, indicating the effectiveness of these surface-related proteins as promising vaccine candidates to target different enterococcal pathogens.

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“…Analysis for the presence of conserved domains [33] or motifs [34] reveals proteins that are covalently linked to the Gram positive cell wall through the action of a sortase [35] or likely to be bound in a non-covalent way. The recently developed analysis tool SurfG+ takes into consideration that specific parts of integral membrane proteins can also be surface exposed, as has been demonstrated experimentally [31]. Depending on the bacterial species, this type of surface exposed proteins may outnumber the lipoproteins and LPxTG proteins so far considered as the paradigms of surface proteins in Gram-positive bacteria.…”

Section: Dementioning

confidence: 96%

“…a, covalently bound to the cell wall; b, non-covalently bound to the cell wall; c, membrane-bound lipoprotein; d, membrane anchored through N or C-terminal transmembrane helix; e, membrane anchored through several TMH; e1, surface exposed N or C-terminal end; e2, surface exposed loop; f, secreted; g, 'moonlighting'; M, cell membrane; W, cell wall; E, surface exposed or secreted. Adapted from [31].…”

Section: Dementioning

confidence: 98%

“…Dedicated software allows the prediction of protein localization (usually in the categories 'cytoplasmic', 'membrane', 'cell wall', and 'secreted' (e.g. PsortB [30], and surface exposition (SurfG+) [31] (Figure 1). The underlying algorithms recognize signal peptides characteristic of secreted proteins or membrane bound lipoproteins, and predict hydrophobic trans-membrane domains [32].…”

Section: Dementioning

confidence: 99%

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Properties of probiotic bacteria explored by proteomic approaches

Guchte

Chaze

Jan

et al. 2012

Current Opinion in Microbiology

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Prediction of surface exposed proteins in Streptococcus pyogenes, with a potential application to other Gram‐positive bacteria

Cited by 103 publications

References 43 publications

The Complete Genome of Propionibacterium freudenreichii CIRM-BIA1T, a Hardy Actinobacterium with Food and Probiotic Applications

The Complete Genome of Propionibacterium freudenreichii CIRM-BIA1T, a Hardy Actinobacterium with Food and Probiotic Applications

Identification of Peptidoglycan-Associated Proteins as Vaccine Candidates for Enterococcal Infections

Properties of probiotic bacteria explored by proteomic approaches

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