1,721,151 research outputs found
Repeated extragenic sequences in prokaryotic genomes: a proposal for the origin and dynamics of the RUP element in Streptococcus pneumoniae
No full textA survey of all Streptococcus pneumoniae GenBank/EMBL DNA sequence entries and of the public domain sequence (representing more than 90% of the genome) of an S. pneumoniae type 4 strain allowed identification of 108 copies of a 107-bp-long highly repeated intergenic element called RUP (for repeat unit of pneumococcus). Several features of the element, revealed in this study, led to the proposal that RUP is an insertion sequence (IS)-derivative that could still be mobile. Among these features are: (1) a highly significant homology between the terminal inverted repeats (IRs) of RUPs and of IS630-Spn1, a new putative IS of S. pneumoniae; and (2) insertion at a TA dinucleotide, a characteristic target of several members of the IS630 family. Trans-mobilization of RUP is therefore proposed to be mediated by the transposase of IS630-Spn1. To account for the observation that RUPs are distributed among four subtypes which exhibit different degrees of sequence homogeneity, a scenario is invoked based on successive stages of RUP mobility and non-mobility, depending on whether an active transposase is present or absent. In the latter situation, an active transposase could be reintroduced into the species through natural transformation. Examination of sequences flanking RUP revealed a preferential association with ISs. It also provided evidence that RUPs promote sequence rearrangements, thereby contributing to genome flexibility. The possibility that RUP preferentially targets transforming DNA of foreign origin and subsequently favours disruption/rearrangement of exogenous sequences is discussed
A host-vector system for heterologous gene expression in Streptococcus gordonii
No full textWe have developed a host-vector system for heterologous expression in Streptococcus gordonii (Sg) Challis (formerly Streptococcus sanguis), a commensal bacterium of the human oral cavity. The system is based on (i) integration of plasmid insertion vectors into the chromosome of specially engineered recipient hosts, and (ii) the use of the M6-protein-encoding gene (emm6) as a partner for construction of translational gene fusions. M6 is a streptococcal surface protein already proven useful as a fusion partner for the delivery of foreign antigens to the surface of Sg [Pozzi et al., Infect. Immun. 60 (1992) 1902-1907]. Insertion vectors carry a drug-resistance marker, different portions of emm6 and a multiple cloning site to allow construction of a variety of emm6-based fusions. Upon transformation of a recipient host with an insertion vector, 100% of transformants acquire both the drug-resistance marker and the capacity of displaying the M6 molecule on the cell surface. Chromosomal integration occurred at high frequency in recipient host GP1221. Transformation with 1 microgram of insertion vector DNA yielded 8.1 X 10(5) transformants per ml of competent cells
Omega6001-Mediated conjugative mobilisation of the cloned M6 protein gene to the chromosomes of different strains of Streptococcus pyogenes
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Allelic variation in the highly polymorphic locus pspC of Streptococcus pneumoniae
No full textPspC, also called SpsA, CbpA, PbcA, and Hic, is a surface protein of Streptococcus pneumoniae studied for its antigenic properties, its capability to bind secretory IgA, C3 and complement factor H, and its activity as an adhesin. In this work we characterized the pspC locus of 43 pneumococcal strains by DNA sequencing of PCR fragments. Using PCR primers designed on two unrelated open reading frames, flanking the pspC locus, it was possible to amplify the pspC locus of each of the 43 strains of S. pneumoniae. In 37 out of 43 strains there was a single copy of the pspC gene, while two tandem copies of pspC were found in the other six strains. The sequence of the pspC locus was different in each of the 43 strains. Insertion sequences were found in the pspC locus of 11 out of 43 strains. Analysis of the deduced amino acid sequence of the PspC variants showed a common organization of the molecules: (i) a 37 amino acid leader peptide which is conserved in all proteins, (ii) an N-terminal portion which is essentially alpha-helical, and is the result of assembly of eight major sequence blocks, (iii) a proline-rich region, and (iv) a C-terminal anchor responsible for the cell surface attachment. By sequence comparison we identified 11 major groups of PspC proteins. Proteins within one group displayed only minor variations of the amino acid sequence. An unexpected finding was that PspC variants could differ in the anchor sequence. While 32 of the PspC proteins displayed the typical choline binding domain of pneumococcal surface proteins, 17 other PspCs showed the LPXTG motif, which is typical of surface proteins of other gram-positive bacteria. This major difference in the anchor region was also observed in the adjacent proline-rich regions which differed considerably in size and composition
DNA probe for identification of Streptococcus pneumoniae
No full textA total of 287 clinical isolates of Streptococcus pneumoniae (pneumococcus) were tested for their ability to undergo autolysis when treated with sodium deoxycholate. The test was positive for all but one isolate, strain DOC-1. This autolysis required the activity of an enzyme which is unique and characteristic of S. pneumoniae: a choline-dependent N-acetylmuramoyl-L-alanine amidase, the gene product of the lytA gene. We used lytA as a DNA probe to test the distribution of the autolysin gene among clinical isolates of S. pneumoniae. In dot blot hybridization experiments our probe reacted with the DNA of 60 of 60 strains tested, including the autolysis-deficient clinical isolate DOC-1. No hybridization occurred when strains of Streptococcus sanguis, Streptococcus mutans, Streptococcus pyogenes, Streptococcus (Enterococcus) faecalis, Streptococcus (Enterococcus) faecium, Streptococcus agalactiae, and Streptococcus bovis were tested. The lytA gene appears to be an ideal candidate for use as a DNA probe for the identification of S. pneumoniae
Recombinant Streptococcus gordonii as live vehicle for vaccine antigens
No full textAll recombinant strains, including the parent recombinant S. gordonii GP231 expressing whole M6, do produce in liquid culture the cloned proteins from mid mid exponential phase of growth to the late stationary phase. The maximum protein quantity per cell is detected about one generation after the beginning of the stationary phase (Medaglini et al., 1993). This characteristic enables to collect the bacterial cells for protein analysis and purification purposes at the highest possible cell density. Recombinant proteins are detected in media containing no dextrose (Tryptic Soy Broth without dextrose) and in standard media containing 0.2% of glucose, while the protein quantity diminishes, in stationary phase of growth, when high glucose containing media (1, 2, 5 10% glucose) are used possibly due to proteolytic degradation. On solid media the recombinant proteins are produced and are detectable since the colony becomes visible on the plate and thus making protein detection through colony blot screening possible. Cell fractioning, immunofluorescence and electron microscopy on bacteria grown to late exponential phase did confirm surface display of the M6-based fusion proteins
Expression of M6 protein gene of Streptococcus pyogenes in Streptococcus gordonii after chromosomal integration and transcriptional fusion
No full textThe M6 protein of Streptococcus pyogenes was expressed on the cell surface and secreted in Streptococcus gordonii Challis (formerly Streptococcus sanguis) after chromosomal integration of a promoterless M6 protein gene (emm-6.1). The ermC gene, conferring resistance to erythromycin, was cloned downstream of emm-6.1, within the same ClaI fragment. The initiation codon of emm-6.1 was 19 bp downstream of a ClaI site, so that ClaI cleavage would leave the gene promoterless. The ClaI fragment containing the promoterless emm-6.1 and ermC was ligated in vitro with a ClaI digest of S. gordonii chromosomal DNA. Random chromosomal integration of the heterologous DNA was obtained by using the ligation mixture to transform the naturally competent S. gordonii Challis. Twenty-eight percent of transformants selected for erythromycin resistance also expressed M6. Among the best M6 producers, 10 clones were selected for the stability of their phenotype. Nine of the 10 clones were shown to harbour one intact copy of the emm-6.1/ermC ClaI fragment integrated into the chromosome. These strains both expressed M6 protein on the surface and secreted different amounts of the molecule, since in each case the protein was produced after a transcriptional fusion of emm-6.1 with a different chromosomal promoter. A S. gordonii strain expressing large amounts of surface M6 protein, as judged by immunofluorescence and Western blot, was compared to the M- parental strain in a standard opsonophagocytosis assay. Of the isogenic pair, M6+ S. gordonii survived better in human blood and was phagocytosed at a slower rate
Engineering the gram-positive cell surface for construction of bacterial vaccine vectors
No full textA genetic system for surface display of heterologous proteins has been developed in Streptococcus gordonii, a gram-positive human oral commensal that is naturally competent for genetic transformation. Our approach is based on chromosomal integration downstream from a resident promoter and translational fusion to an M6 protein. Using this strategy a variety of proteins, of different origin and size, were displayed on the cell surface and were shown to be stably expressed both in vitro and in vivo. Animal models of mucosal colonization (oral and vaginal) and intragastric immunization with recombinant S. gordonii were developed and the local and systemic immune responses were studied. Here we report the techniques for the construction of recombinant bacteria, use of animal models, and analysis of the immune response
The trouble in tracing opportunistic pathogens: cholangitis due to Bacillus in a French Hospital caused by a strain related to an Italian probiotic?
No full textTwo published unrelated case reports, one in France and one in Italy, describe infections due to Bacillus subtilis strains resistant to erythromycin and penicillin. While the Italian isolate was correlated to a national probiotic, the French strain differed from the probiotic available in France. 16S rRNA sequencing of the two clinical isolates and the respective probiotics revealed 100% identity of both clinical isolates to the Italian probiotic and classified the strains as Bacillus clausii, while the French probiotic was found to be Bacillus thuringiensis. The present report raises the difficulty of confirming strain identities and thus causal links between probiotic or alimentary microorganisms and strains isolated from immuno-suppressed hosts
Comparative genomics for identification of clone-specific sequence blocks in Streptococcus pneumoniae
No full textThe partial genome sequences of a serotype 3 and a serotype 2 pneumococcal strain were compared to the complete type 4 pneumococcal genome. Over 500000 and 150000 base pairs of the partial genome data, obtained from published patents, were analysed respectively. Global alignment showed that nearly the whole genome is highly conserved in accordance with data of multilocus sequence typing of housekeeping genes. The search for clone-specific genes revealed 17 new open reading frames in the type 3 strain, while no new open reading frame was detected in the type 2 strain. Allelic variation of genes was restricted by the use of crude sequence data, but still permitted identification of some new alleles and the observation that all surface proteins present in the partial genome data were highly conserved. In both strains we observed also a variety of chromosomal rearrangements and variations due to mobile genetic elements. All together, this comparative genomic approach gives a genome-based overview of strain relatedness and a prospective on what could be expected when sequencing other pneumococcal strains
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