Differentiation of Lactobacillus delbrueckii subsp. bulgaricus and Lactobacillus delbrueckii subsp. lactis by SDS-PAGE of cell-wall proteins

Critical roles of a housekeeping sortase of probiotic Bifidobacterium bifidum in bacterium-host cell crosstalk

Bifidobacterium bifidum YIT 10347 (BF-1) is adhesive in vitro. Here we studied the molecular aspects of the BF-1 adhesion process. We identified and characterized non-adhesive mutants and found that a class E housekeeping sortase was critical for the adhesion to mucin. These mutants were significantly less adhesive to GCIY cells than was the wild type (WT), which protected GCIY cells against acid treatment more than did a non-adhesive mutant. The non-adhesive mutants aberrantly accumulated precursors of putative sortase-dependent proteins (SDPs). Recombinant SDPs bound to mucin. Disruption of the housekeeping sortase influenced expression of SDPs and pilus components. Mutants defective in a pilin or in an SDP showed the same adhesion properties as WT. Therefore, multiple SDPs and pili seem to work cooperatively to achieve adhesion, and the housekeeping sortase is responsible for cell wall anchoring of its substrates to ensure their proper biological function.

Bacterial Whole Cell Protein Profiling: Methodology, Applications and Constraints

Background:

In the era of modern microbiology, several methods are available for identification and typing of bacteria, including whole genome sequencing. However, in microbiological laboratories or hospitals where genomic based molecular typing methods and/or trained manpower are unavailable, whole cell protein profiling using sodium dodecyl sulfate polyacrylamide gel electrophoresis might be a useful alternative/supplementary method for bacterial identification, strain typing and epidemiology. Whole cell protein profiling by SDS-PAGE is based on the principle that under standard growth conditions, a bacterial strain expresses the same set of proteins, the pattern of which can be used for bacterial identification.

Objective:

The objective of this review is to assess the current status of whole cell protein profiling by SDS-PAGE and its advantages and constraints for bacterial identification and typing.

Results and Conclusions:

Several earlier and recent studies prove the potential and utility of this technique as an adjunct or supplementary method for bacterial identification, strain typing and epidemiology. There is no denying the fact that utility of this technique as an adjunct or supplementary method for bacterial identification and typing has already been demonstrated and its practical applications need to be evaluated further.

Multilocus sequence typing of Lactobacillus casei isolates from naturally fermented foods in China and Mongolia

Lactobacillus casei is a lactic acid bacterium used in manufacturing of many fermented food products. To investigate the genetic diversity and population biology of this food-related bacterium, 224 Lb. casei isolates and 5 reference isolates were examined by multilocus sequence typing (MLST). Among them, 224 Lb. casei isolates were isolated from homemade fermented foods, including naturally fermented dairy products, acidic gruel, and Sichuan pickles from 38 different regions in China and Mongolia. The MLST scheme was developed based on the analysis of 10 selected housekeeping genes (carB, clpX, dnaA, groEL, murE, pyrG, pheS, recA, rpoC, and uvrC). All 229 isolates could be allocated to 171 unique sequence types, including 25 clonal complexes and 71 singletons. The high index of association value (1.3524) and standardized index of association value (0.1503) indicate the formation of an underlying clonal population by all the isolates. However, split-decomposition, relative frequency of occurrence of recombination and mutation, and relative effect of recombination and mutation in the diversification values confirm that recombination may have occurred, and were more frequent than mutation during the evolution of Lb. casei. Results from Structure analyses (version 2.3; http://pritch.bsd.uchicago.edu/structure.html) demonstrated that there were 5 lineages in the Lb. casei isolates, and the overall relatedness built by minimum spanning tree showed no clear relationship between the clonal complexes with either the isolation sources or sampling locations of the isolates. Our newly developed MLST scheme of Lb. casei was an easy and valuable tool that, together with the construction of an MLST database, will contribute to further detailed studies on the evolution and population genetics of Lb. casei from various niches.

Genetic diversity and population structure of Lactobacillus delbrueckii subspecies bulgaricus isolated from naturally fermented dairy foods

Lactobacillus delbrueckii subsp. bulgaricus is one of the most widely used starter culture strains in industrial fermented dairy manufacture. It is also common in naturally fermented dairy foods made using traditional methods. The subsp. bulgaricus strains found in naturally fermented foods may be useful for improving current industrial starter cultures; however, little is known regarding its genetic diversity and population structure. Here, a collection of 298 L. delbrueckii strains from naturally fermented products in Mongolia, Russia, and West China was analyzed by multi-locus sequence typing based on eight conserved genes. The 251 confirmed subsp. bulgaricus strains produced 106 unique sequence types, the majority of which were assigned to five clonal complexes (CCs). The geographical distribution of CCs was uneven, with CC1 dominated by Mongolian and Russian isolates, and CC2–CC5 isolates exclusively from Xinjiang, China. Population structure analysis suggested six lineages, L1–L6, with various homologous recombination rates. Although L2–L5 were mainly restricted within specific regions, strains belonging to L1 and L6 were observed in diverse regions, suggesting historical transmission events. These results greatly enhance our knowledge of the population diversity of subsp. bulgaricus strains, and suggest that strains from CC1 and L4 may be useful as starter strains in industrial fermentation.

Lactobacillus delbrueckii subsp. jakobsenii subsp. nov., isolated from dolo wort, an alcoholic fermented beverage in Burkina Faso

Lactobacillus delbrueckii is divided into five subspecies based on phenotypic and genotypic differences. A novel isolate, designated ZN7a-9T, was isolated from malted sorghum wort used for making an alcoholic beverage (dolo) in Burkina Faso. The results of 16S rRNA gene sequencing, DNA–DNA hybridization and peptidoglycan cell-wall structure type analyses indicated that it belongs to the species L. delbrueckii . The genome sequence of isolate ZN7a-9T was determined by Illumina-based sequencing. Multilocus sequence typing (MLST) and split-decomposition analyses were performed on seven concatenated housekeeping genes obtained from the genome sequence of strain ZN7a-9T together with 41 additional L. delbrueckii strains. The results of the MLST and split-decomposition analyses could not establish the exact subspecies of L. delbrueckii represented by strain ZN7a-9T as it clustered with L. delbrueckii strains unassigned to any of the recognized subspecies of L. delbrueckii . Strain ZN7a-9T additionally differed from the recognized type strains of the subspecies of L. delbrueckii with respect to its carbohydrate fermentation profile. In conclusion, the cumulative results indicate that strain ZN7a-9T represents a novel subspecies of L. delbrueckii closely related to Lactobacillus delbrueckii subsp. lactis and Lactobacillus delbrueckii subsp. delbrueckii for which the name Lactobacillus delbrueckii subsp. jakobsenii subsp. nov. is proposed. The type strain is ZN7a-9T = DSM 26046T = LMG 27067T.

Lactobacillus delbrueckii subsp. sunkii subsp. nov., isolated from sunki, a traditional Japanese pickle

Although four strains of bacteria isolated from sunki, a traditional Japanese, non-salted pickle, were initially identified as Lactobacillus delbrueckii , the molecular and phenotypic characteristics of the strains did not match those of any of the four recognized subspecies of L. delbrueckii . Together, the results of phenotypic characterization, DNA–DNA hybridizations (in which the relatedness values between the novel strains and type strains of the recognized subspecies of L. delbrueckii were all >88.7 %) and 16S rRNA gene sequence, amplified fragment length polymorphism (AFLP) and whole-cell MALDI-TOF/MS spectral pattern analyses indicated that the four novel strains represented a single, novel subspecies, for which the name Lactobacillus delbrueckii subsp. sunkii subsp. nov. is proposed. The type strain is YIT 11221T ( = JCM 17838T  = DSM 24966T).

Multilocus sequence typing reveals a novel subspeciation of Lactobacillus delbrueckii

Currently, the species Lactobacillus delbrueckii is divided into four subspecies, L. delbrueckii subsp. delbrueckii, L. delbrueckii subsp. bulgaricus, L. delbrueckii subsp. indicus and L. delbrueckii subsp. lactis. These classifications were based mainly on phenotypic identification methods and few studies have used genotypic identification methods. As a result, these subspecies have not yet been reliably delineated. In this study, the four subspecies of L. delbrueckii were discriminated by phenotype and by genotypic identification [amplified-fragment length polymorphism (AFLP) and multilocus sequence typing (MLST)] methods. The MLST method developed here was based on the analysis of seven housekeeping genes (fusA, gyrB, hsp60, ileS, pyrG, recA and recG). The MLST method had good discriminatory ability: the 41 strains of L. delbrueckii examined were divided into 34 sequence types, with 29 sequence types represented by only a single strain. The sequence types were divided into eight groups. These groups could be discriminated as representing different subspecies. The results of the AFLP and MLST analyses were consistent. The type strain of L. delbrueckii subsp. delbrueckii, YIT 0080T, was clearly discriminated from the other strains currently classified as members of this subspecies, which were located close to strains of L. delbrueckii subsp. lactis. The MLST scheme developed in this study should be a useful tool for the identification of strains of L. delbrueckii to the subspecies level.

Use of unsupervised and supervised artificial neural networks for the identification of lactic acid bacteria on the basis of SDS-PAGE patterns of whole cell proteins

Conventional multivariate statistical techniques (hierarchical cluster analysis, linear discriminant analysis) and unsupervised (Kohonen Self Organizing Map) and supervised (Bayesian network) artificial neural networks were compared for as tools for the classification and identification of 352 SDS-PAGE patterns of whole cell proteins of lactic acid bacteria belonging to 22 species of the genera Lactobacillus, Leuconostoc, Enterococcus, Lactococcus and Streptococcus including 47 reference strains. Electrophoretic data were pre-treated using the logistic weighting function described by Piraino et al. [Piraino, P., Ricciardi, A., Lanorte, M. T., Malkhazova, I., Parente, E., 2002. A new procedure for data reduction in electrophoretic fingerprints of whole-cell proteins. Biotechnol. Lett. 24, 1477-1482]. Hierarchical cluster analysis provided a satisfactory classification of the patterns but was unable to discriminate some species (Leuconostoc, Lb. sakei/Lb. curvatus, Lb. acidophilus/Lb. helveticus, Lb. plantarum/Lb. paraplantarum, Lc. lactis/Lc. raffinolactis). A 7x7 Kohonen self-organizing map (KSOM), trained with the patterns of the reference strains, provided a satisfactory classification of the patterns and was able to discriminate more species than hierarchical cluster analysis. The map was used in predictive mode to identify unknown strains and provided results which in 85.5% of cases matched the classification obtained by hierarchical cluster analysis. Two supervised tools, linear discriminant analysis and a 23:5:2 Bayesian network were proven to be highly effective in the discrimination of SDS-PAGE patterns of Lc. lactis from those of other species. We conclude that data reduction by logistic weighting coupled to traditional multivariate statistical analysis or artificial neural networks provide an effective tool for the classification and identification of lactic acid bacteria on the basis of SDS-PAGE patterns of whole cell proteins.

Genotypic and phenotypic diversity of Lactobacillus delbrueckii subsp. lactis strains of dairy origin

Eighty-nine strains of Lactobacillus delbrueckii subsp. lactis isolated from Italian hard and semi-hard cheeses and artisan starter cultures were characterised by phenotypic and genotypic methods. Phenotypic diversity was evaluated by studying biochemical characteristics (i.e. acidifying and peptidase activities) of technological interest. Genotypic diversity was evidenced by RAPD-PCR and pulsed field gel electrophoresis (PFGE). Phenotypic characterisation indicated a wide variability of the acidifying activity within Lact. delbrueckii subsp. lactis. Although the data was variable, it allowed us to evidence groups of strains with different acidifying properties, especially in terms of acidification intensity. Concerning peptidase activity, Lact. delbrueckii subsp. lactis showed a homogeneously high x-prolil-dipeptidil-aminopeptidase activity and a considerable but more heterogeneous lysil-aminopeptidase activity. The increased resolution obtained by the use of two molecular typing techniques, i.e. RAPD-PCR and PFGE, allowed to widen the level of strain heterogeneity. Technological and ecological pressures are determinant in selecting Lact. delbrueckii subsp. lactis sub-populations which are more functional to the different cheese technologies.

Biodiversity in Lactobacillus helveticus strains present in natural whey starter used for Parmigiano Reggiano cheese

AIMS

Lactobacillus helveticus is the dominant microflora of the natural whey starters used for Parmigiano Reggiano cheese making. The aim of this work was to study the biodiversity of different strains of Lact. helveticus present in six cultures and to compare them with strains of the same species previously isolated from natural whey cultures used for Grana Padano and Provolone cheeses.

METHODS AND RESULTS

Twenty different biotypes of Lact. helveticus strains were identified combining the results deriving from SDS-PAGE of cell surface proteins and PCR fingerprinting using M13 as a primer. The biotypes were present in varying amounts in the six natural whey starters and the biodiversity was demonstrated not only within the whey cultures, but also between the whey cultures.

CONCLUSIONS

Lact. helveticus strains isolated from Parmigiano Reggiano whey cultures analysed by PCR M13, SDS-PAGE and RFLP were distinguishable from Lact. helveticus strains of different dairy origin, namely Grana Padano and Provolone natural whey starters.

SIGNIFICANCE AND IMPACT OF THE STUDY

The presence of different Lact. helveticus biotypes seems to be related to the specific ecosystem of cheese making and may be considered as one of the elements contributing to the typicality of Parmigiano Reggiano cheese.

Molecular typing of Lactobacillus delbrueckii of dairy origin by PCR-RFLP of protein-coding genes

Thirty-five strains of Lactobacillus delbrueckii subsp. lactis and subsp. bulgaricus isolated from dairy products were typed by restriction fragment length polymorphism (RFLP) of protein-coding genes. The strains were analysed by RFLP of PCR amplified, infragenic fragments of the following housekeeping genes: beta-galactosidase, lactose permease, and proline dipeptidase. Sequencing of the variable regions of the 16S rDNA was then performed on a reduced number of strains. PCR-RFLP analysis evidenced wide strain heterogeneity. Strains were grouped into genotypes according to both subspecies assignment and infra-species genetic polymorphism. This polymorphism was related to the presence of microbial groups within subspecies populations. The low infra-species sequence polymorphism detected in the variable region of the 16S rRNA gene did not enable to group the strains with the same sensitivity reached by PCR-RFLP of protein-coding genes. PCR-RFLP of protein-coding genes applied to L. delbrueckii seems a promising tool to evaluate microbial diversity within bacterial subpopulations. Differences among bacterial subpopulations based upon molecular heterogeneity in protein-coding genes would enable to better understand the role of strains from different ecological niches.

Evolution of the bacterial species Lactobacillus delbrueckii: a partial genomic study with reflections on prokaryotic species concept

The species Lactobacillus delbrueckii consists at present of three subspecies, delbrueckii, lactis and bulgaricus, showing a high level of DNA-DNA hybridization similarity but presenting markedly different traits related to distinct ecological adaptation. The internal genetic heterogeneity of the bacterial species L. delbrueckii was analyzed. Phenotypic and several genetic traits were investigated for 61 strains belonging to this species. These included 16S rDNA sequence mutations, expression of beta-galactosidase and of the cell wall-anchored protease, the characterization of the lactose operon locus and of the sequence of lacR gene, galactose metabolism, and the distribution of insertion sequences. The high genetic heterogeneity of taxa was confirmed by every trait investigated: the lac operon was completely deleted in the subsp. delbrueckii, different mutation events in the repressor gene of the operon led to a constitutive expression of lacZ in the subsp. bulgaricus. Structural differences in the same genetic locus were probably due to the presence of different IS elements in the flanking regions. The different expression of the cell wall-anchored protease, constitutive in the subsp. bulgaricus, inducible in the subsp. lactis, and absent in the subsp. delbrueckii was also a consequence of mutations at the gene level. The galT gene for galactose metabolism was found only in the subsp. lactis, while no specific amplification product was detected in the other two subspecies. All these data, together with the absence of a specific IS element, ISL6, from the major number of strains belonging to the subsp. bulgaricus, confirmed a deep internal heterogeneity among the three subspecies. Moreover, this evidence and the directional mutations found in the 16S rDNA sequences suggested that, of the three subspecies, L. delbrueckii subsp. lactis is the taxon closer to the ancestor. Limitations of the current prokaryotic species definition were also discussed, based on presented evidences. Our results indicate the need for an accurate investigation of internal heterogeneity of bacterial species. This study has consequences on the prokaryotic species concept, since genomic flexibility of prokaryotes collides with a stable classification, necessary from a scientific and applied point of view.

Random amplified polymorphic DNA analysis for differentiation of Leuconostoc mesenteroides subspecies isolated from Tenerife cheese

AIMS

In the present study, a RAPD-PCR fingerprinting method was developed to assign Tenerife cheese Leuconostoc mesenteroides strains to its three subspecies (mesenteroides, cremoris and dextranicum).

METHODS AND RESULTS

Arbitrarily primed-PCR gave different DNA banding patterns for each type strain of Leuc. mesenteroides subspecies consisting in three major and intense bands of: 1800, 1600 and 1150 bp for subspecies mesenteroides 1800, 1150 and approximately 350 bp for subspecies cremoris; and 1800, 1600 and 1500 bp for subspecies dextranicum. DNA fingerprints of Tenerife cheese Leuc. mesenteroides subspecies were coincident to that of their respective type strain. RAPD profiles were reproducible with DNA template obtained by two different extraction methods.

CONCLUSIONS

Tenerife cheese Leuc. mesenteroides strains were rapidly and unequivocally assigned to one of the subspecies by comparing their RAPD-PCR fingerprints with those displayed by type strains used as standards. This technique can be applied to complement preliminary identification of Leuc. mesenteroides to the species level by other molecular methods such as protein fingerprinting.

SIGNIFICANCE AND IMPACT OF THE STUDY

RAPD-PCR allows reliable, reproducible and rapid molecular differentiation of Tenerife cheese Leuc. mesenteroides subspecies with no need to use time-consuming and often ambiguous biochemical tests.