Novel tomato flavours introduced by plastidial terpenoid pathway engineering.

Until recently breeding efforts centred on high-yield production while sacrificing flavour and taste quality traits of mass produced food products, such as tomatoes. The recent publication of Davidovich-Rikanati et al. demonstrates the technical feasibility of the genetical engineering of pathways in tomato plants to modify their fruit flavour profile in a proof-of-concept approach. The reported work ranks among an increasing number of reported successful modifications of edible plants with a focus on the benefits to end-consumers.

L-alanine auxotrophy of Lactobacillus johnsonii as demonstrated by physiological, genomic, and gene complementation approaches.

Using a chemically defined medium without L-alanine, Lactobacillus johnsonii was demonstrated to be strictly auxotrophic for that amino acid. A comparative genetic analysis showed that all known genes involved in L-alanine biosynthesis are absent from the genome of L. johnsonii. This auxotrophy was complemented by heterologous expression of the Bacillus subtilis L-alanine dehydrogenase.

The genome sequence of the probiotic intestinal bacterium Lactobacillus johnsonii NCC 533.

Lactobacillus johnsonii NCC 533 is a member of the acidophilus group of intestinal lactobacilli that has been extensively studied for their "probiotic" activities that include, pathogen inhibition, epithelial cell attachment, and immunomodulation. To gain insight into its physiology and identify genes potentially involved in interactions with the host, we sequenced and analyzed the 1.99-Mb genome of L. johnsonii NCC 533. Strikingly, the organism completely lacked genes encoding biosynthetic pathways for amino acids, purine nucleotides, and most cofactors. In apparent compensation, a remarkable number of uncommon and often duplicated amino acid permeases, peptidases, and phosphotransferase-type transporters were discovered, suggesting a strong dependency of NCC 533 on the host or other intestinal microbes to provide simple monomeric nutrients. Genome analysis also predicted an abundance (>12) of large and unusual cell-surface proteins, including fimbrial subunits, which may be involved in adhesion to glycoproteins or other components of mucin, a characteristic expected to affect persistence in the gastrointestinal tract (GIT). Three bile salt hydrolases and two bile acid transporters, proteins apparently critical for GIT survival, were also detected. In silico genome comparisons with the >95% complete genome sequence of the closely related Lactobacillus gasseri revealed extensive synteny punctuated by clear-cut insertions or deletions of single genes or operons. Many of these regions of difference appear to encode metabolic or structural components that could affect the organisms competitiveness or interactions with the GIT ecosystem.

Molecular characterization and expression analysis of the dextransucrase DsrD of Leuconostoc mesenteroides Lcc4 in homologous and heterologous Lactococcus lactis cultures.

The gene encoding the dextransucrase DsrD from the industrial strain Leuconostoc mesenteroides Lcc4 was isolated by PCR using degenerate primers recognizing conserved regions present in other dextransucrase-encoding genes from Leuconostoc spp. and Southern blot analyses on total genomic DNA. N-terminal sequence analysis of the active protein recovered in the culture showed that the secreted protein of 165 kDa is devoid of a 42 aa prepeptide which is removed post-translationally, most likely by signal peptidase cleavage. Primer extension and Northern blot analysis identified a monocistronic dsrD mRNA with two transcription initiation sites. Expression of the dextransucrase DsrD was investigated in pH-controlled fed-batch cultures via Northern blot analysis and enzyme activity measurement during the experiments. Sucrose levels of 20 g l(-1) were shown to induce the DsrD biosynthesis around 10-fold. The combination of pH-controlled fed-batch fermentation and Northern analysis clearly showed that dsrD expression was related to the growth of the bacteria. dsrD was transferred to and expressed in Lactococcus lactis MG1363. Controlled fed-batch cultures revealed that active dextransucrase was produced and secreted by the recombinant L. lactis strain. The expression was independent of sucrose levels. These results show that dextransucrase can be efficiently expressed and secreted in a non-Leuconostoc, heterologous host and is able to drive dextran synthesis.

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.

Genetic and biochemical characterization of exopolysaccharide biosynthesis by Lactobacillus delbrueckii subsp. bulgaricus.

Lactobacillus delbrueckiisubsp. bulgaricus produces exopolysaccharides (EPSs), which play a role in the rheological properties of fermented food products. Lb. bulgaricus Lfi5 produces a high-molecular-weight EPS composed of galactose, glucose, and rhamnose in the molar ratio 5:1:1. An 18-kb DNA region containing 14 genes, designated epsA to epsN, was isolated by genomic DNA library screening and inverted PCR. The predicted gene products are homologous to proteins involved in the biosynthesis of other bacterial polysaccharides and the genetic organization was found to be similar to that of other eps clusters from lactic acid bacteria. Transcriptional analysis revealed that the 14 eps genes are co-ordinately expressed and transcribed as a single mRNA of 15-16 kb. The transcription start site of the promoter was mapped upstream of the first gene, epsA. Genes encoding glycosyltranferases were further studied by heterologous expression and functional assays. We showed that the epsE gene product is a phospho-glucosyltransferase initiating the biosynthesis of EPS. Heterologous expression of epsE in a Lactococcus lactis epsDmutant restored EPS production, demonstrating its role and importance in EPS biosynthesis. Functional assays of other glycosyltransferases allowed their sugar specificity to be elucidated and an overall biosynthetic pathway for EPS synthesis by Lb. bulgaricus to be proposed.

DNA sequence and functional analysis of Lactobacillus delbrueckii subsp. lactis plasmids pN42 and pJBL2.

The plasmids pN42 and pJBL2 were isolated from the Lactobacillus delbrueckii subsp. lactis strains NCC88 and JCL414. DNA sequence determination and bioinformatic analysis revealed a strikingly conserved genetic organization containing five major, highly conserved open reading frames (ORFs). Transformation studies indicated that ORF2 (consisting of a primase fused to a replicative DNA helicase), ori, and ORF3 constitute the minimal requirements for replication of pN42 in the heterologous host Lactococcus lactis. The ORF1's are predicted to encode type I restriction-modification (R-M) system HsdS subunits with different specificities on either plasmid, suggesting that these plasmids may be involved in host defense by expanding their host R-M system repertoire. These plasmids constitute the basis for the construction of novel L. delbrueckii vectors.

Regulation and adaptive evolution of lactose operon expression in Lactobacillus delbrueckii.

Lactobacillus delbrueckii subsp. bulgaricus and L. delbrueckii subsp. lactis are both used in the dairy industry as homofermentative lactic acid bacteria in the production of fermented milk products. After selective pressure for the fast fermentation of milk in the manufacture of yogurts, L. delbrueckii subsp. bulgaricus loses its ability to regulate lac operon expression. A series of mutations led to the constitutive expression of the lac genes. A complex of insertion sequence (IS) elements (ISL4 inside ISL5), inserted at the border of the lac promoter, induced the loss of the palindromic structure of one of the operators likely involved in the binding of regulatory factors. A lac repressor gene was discovered downstream of the beta-galactosidase gene of L. delbrueckii subsp. lactis and was shown to be inactivated by several mutations in L. delbrueckii subsp. bulgaricus. Regulatory mechanisms of the lac gene expression of L. delbrueckii subsp. bulgaricus and L. delbrueckii subsp. lactis were compared by heterologous expression in Lactococcus lactis of the two lac promoters in front of a reporter gene (beta-glucuronidase) in the presence or absence of the lac repressor gene. Insertion of the complex of IS elements in the lac promoter of L. delbrueckii subsp. bulgaricus increased the promoter's activity but did not prevent repressor binding; rather, it increased the affinity of the repressor for the promoter. Inactivation of the lac repressor by mutations was then necessary to induce the constitutive expression of the lac genes in L. delbrueckii subsp. bulgaricus.

Species specific identification of nine human Bifidobacterium spp. in feces.

Based on the 16S rDNA sequences, species specific primers were designed for the rapid identification by DNA amplification of nine human Bifidobacterium spp., namely B. adolescentis, B. angulatum, B. bifidum, B. breve, B. catenulatum, B. dentium, B. infantis, B. longum, B. pseudocatenulatum. B. lactis currently included in dairy products was added to the series. The primers were designed to target different positions of the 16S rDNA, allowing the simultaneous identification of these ten species of Bifidobacterium using two mixtures of primers. The identification procedure described in this paper was validated by establishing a correlation with an AluI restriction pattern of the different full length amplified 16S rDNA. This multiple primer DNA amplification technique was applied for the identification of pure colonies of Bifidobacterium spp. or directly from total bacteria recovered from human fecal samples. The technique was shown to be useful to detect dominant species and, when primers were used in separate reactions, underrepresented species could be identified as well.