Your search keyword '"Oggioni A."' showing total 17 results

1. Regulation of neuraminidase expression in Streptococcus pneumoniae

Author

Gualdi Luciana, Hayre Jasvinder, Gerlini Alice, Bidossi Alessandro, Colomba Leonarda, Trappetti Claudia, Pozzi Gianni, Docquier Jean-Denis, Andrew Peter, Ricci Susanna, and Oggioni Marco R

Subjects

Sialic acid, Metabolic regulation, Carbon catabolite repression, Microbiology, QR1-502

Abstract

Abstract Background Sialic acid (N-acetylneuraminic acid; NeuNAc) is one of the most important carbohydrates for Streptococcus pneumoniae due of its role as a carbon and energy source, receptor for adhesion and invasion and molecular signal for promotion of biofilm formation, nasopharyngeal carriage and invasion of the lung. Results In this work, NeuNAc and its metabolic derivative N-acetyl mannosamine (ManNAc) were used to analyze regulatory mechanisms of the neuraminidase locus expression. Genomic and metabolic comparison to Streptococcus mitis, Streptococcus oralis, Streptococcus gordonii and Streptococcus sanguinis elucidates the metabolic association of the two amino sugars to different parts of the locus coding for the two main pneumococcal neuraminidases and confirms the substrate specificity of the respective ABC transporters. Quantitative gene expression analysis shows repression of the locus by glucose and induction of all predicted transcriptional units by ManNAc and NeuNAc, each inducing with higher efficiency the operon encoding for the transporter with higher specificity for the respective amino sugar. Cytofluorimetric analysis demonstrated enhanced surface exposure of NanA on pneumococci grown in NeuNAc and ManNAc and an activity assay allowed to quantify approximately twelve times as much neuraminidase activity on induced cells as opposed to glucose grown cells. Conclusions The present data increase the understanding of metabolic regulation of the nanAB locus and indicate that experiments aimed at the elucidation of the relevance of neuraminidases in pneumococcal virulence should possibly not be carried out on bacteria grown in glucose containing media.

Published

2012

2. The impact of the competence quorum sensing system on Streptococcus pneumoniae biofilms varies depending on the experimental model

Author

Iannelli Francesco, Edmonds Paul, Korir Cindy C, Jain Prashant, Di Meola Lorenzo, Gualdi Luciana, Trappetti Claudia, Ricci Susanna, Pozzi Gianni, and Oggioni Marco R

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Different models for biofilm in Streptococcus pneumoniae have been described in literature. To permit comparison of experimental data, we characterised the impact of the pneumococcal quorum-sensing competence system on biofilm formation in three models. For this scope, we used two microtiter and one continuous culture biofilm system. Results In both microtiter models the competence system influences stability and structure of biofilm in the late attachment phase and synthetic competence stimulating peptide (CSP) restored wild type phenotypes in the comC mutants unable to produce the peptide. Early attachment of single cells to well bottoms was found for both systems to be competence independent, while later phases, including microcolony formation correlated to an intact competence system. The continuous culture biofilm model was not affected by mutations in the competence locus, but deletion of capsule had a significant impact in this model. Conclusions Since biofilm remains a largely uncharacterised multi-parameter phenotype it appears to be advisable to exploit more than one model in order to draw conclusion of possible relevance of specific genotypes on pneumococcal physiology.

Published

2011

3. Complete genome sequence of a serotype 11A, ST62 Streptococcus pneumoniae invasive isolate

Author

Superti Fabiana, Iannelli Francesco, Mulas Laura, Marchetti Magda, Rizzi Ermanno, Corti Giorgio, Iacono Michele, Del Grosso Maria, Bonnal Raoul JP, Camilli Romina, Oggioni Marco R, De Bellis Gianluca, and Pantosti Annalisa

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Streptococcus pneumoniae is an important human pathogen representing a major cause of morbidity and mortality worldwide. We sequenced the genome of a serotype 11A, ST62 S. pneumoniae invasive isolate (AP200), that was erythromycin-resistant due to the presence of the erm(TR) determinant, and carried out analysis of the genome organization and comparison with other pneumococcal genomes. Results The genome sequence of S. pneumoniae AP200 is 2,130,580 base pair in length. The genome carries 2216 coding sequences (CDS), 56 tRNA, and 12 rRNA genes. Of the CDSs, 72.9% have a predicted biological known function. AP200 contains the pilus islet 2 and, although its phenotype corresponds to serotype 11A, it contains an 11D capsular locus. Chromosomal rearrangements resulting from a large inversion across the replication axis, and horizontal gene transfer events were observed. The chromosomal inversion is likely implicated in the rebalance of the chromosomal architecture affected by the insertions of two large exogenous elements, the erm(TR)-carrying Tn1806 and a functional prophage designated ϕSpn_200. Tn1806 is 52,457 bp in size and comprises 49 ORFs. Comparative analysis of Tn1806 revealed the presence of a similar genetic element or part of it in related species such as Streptococcus pyogenes and also in the anaerobic species Finegoldia magna, Anaerococcus prevotii and Clostridium difficile. The genome of ϕSpn_200 is 35,989 bp in size and is organized in 47 ORFs grouped into five functional modules. Prophages similar to ϕSpn_200 were found in pneumococci and in other streptococcal species, showing a high degree of exchange of functional modules. ϕSpn_200 viral particles have morphologic characteristics typical of the Siphoviridae family and are capable of infecting a pneumococcal recipient strain. Conclusions The sequence of S. pneumoniae AP200 chromosome revealed a dynamic genome, characterized by chromosomal rearrangements and horizontal gene transfers. The overall diversity of AP200 is driven mainly by the presence of the exogenous elements Tn1806 and ϕSpn_200 that show large gene exchanges with other genetic elements of different bacterial species. These genetic elements likely provide AP200 with additional genes, such as those conferring antibiotic-resistance, promoting its adaptation to the environment.

Published

2011

4. Identification of a human immunodominant B-cell epitope within the immunoglobulin A1 protease of Streptococcus pneumoniae

Author

Felici Franco, Montagnani Francesca, Spadoni Andrea, Beghetto Elisa, De Paolis Francesca, Oggioni Marco R, and Gargano Nicola

Subjects

Microbiology, QR1-502

Abstract

Abstract Background The IgA1 protease of Streptococcus pneumoniae is a proteolytic enzyme that specifically cleaves the hinge regions of human IgA1, which dominates most mucosal surfaces and is the major IgA isotype in serum. This protease is expressed in all of the known pneumococcal strains and plays a major role in pathogen's resistance to the host immune response. The present work was focused at identifying the immunodominant regions of pneumococcal IgA1 protease recognized by the human antibody response. Results An antigenic sequence corresponding to amino acids 420–457 (epiA) of the iga gene product was identified by screening a pneumococcal phage display library with patients' sera. The epiA peptide is conserved in all pneumococci and in two out of three S. mitis strains, while it is not present in other oral streptococci so far sequenced. This epitope was specifically recognized by antibodies present in sera from 90% of healthy adults, thus representing an important target of the humoral response to S. pneumoniae and S. mitis infection. Moreover, sera from 68% of children less than 4 years old reacted with the epiA peptide, indicating that the human immune response against streptococcal antigens occurs during childhood. Conclusion The broad and specific recognition of the epiA polypeptide by human sera demonstrate that the pneumococcal IgA1 protease contains an immunodominant B-cell epitope. The use of phage display libraries to identify microbe or disease-specific antigens recognized by human sera is a valuable approach to epitope discovery.

Published

2007

5. Method for inducing experimental pneumococcal meningitis in outbred mice

Author

Cintorino Marcella, Blasi Elisabetta, Oggioni Marco R, Tripodi Sergio, Parigi Riccardo, Chiavolini Damiana, Pozzi Gianni, and Ricci Susanna

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Streptococcus pneumoniae is the leading cause of bacterial meningitis. Pneumococcal meningitis is associated with the highest mortality among bacterial meningitis and it may also lead to neurological sequelae despite the use of antibiotic therapy. Experimental animal models of pneumococcal meningitis are important to study the pathogenesis of meningitis, the host immune response induced after infection, and the efficacy of novel drugs and vaccines. Results In the present work, we describe in detail a simple, reproducible and efficient method to induce pneumococcal meningitis in outbred mice by using the intracranial subarachnoidal route of infection. Bacteria were injected into the subarachnoid space through a soft point located 3.5 mm rostral from the bregma. The model was tested with several doses of pneumococci of three capsular serotypes (2, 3 and 4), and mice survival was recorded. Lethal doses killing 50 % of animals infected with type 2, 3 and 4 S. pneumoniae were 3.2 × 10, 2.9 × 10 and 1.9 × 102 colony forming units, respectively. Characterisation of the disease caused by the type 4 strain showed that in moribund mice systemic dissemination of pneumococci to blood and spleen occurred. Histological analysis of the brain of animals infected with type 4 S. pneumoniae proved the induction of meningitis closely resembling the disease in humans. Conclusions The proposed method for inducing pneumococcal meningitis in outbred mice is easy-to-perform, fast, cost-effective, and reproducible, irrespective of the serotype of pneumococci used.

Published

2004

6. The three extra-cellular zinc metalloproteinases of Streptococcus pneumoniae have a different impact on virulence in mice

Author

Pozzi Gianni, Iannelli Francesco, Maggi Tiziana, Memmi Guido, Chiavolini Damiana, and Oggioni Marco R

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Streptococcus pneumoniae possesses large zinc metalloproteinases on its surface. To analyse the importance in virulence of three of these metalloproteinases, intranasal challenge of MF1 outbred mice was carried out using a range of infecting doses of wild type and knock-out pneumococcal mutant strains, in order to compare mice survival. Results Observation of survival percentages over time and detection of LD50s of knock out mutants in the proteinase genes in comparison to the type 4 TIGR4 wild type strain revealed two major aspects: i) Iga and ZmpB, present in all strains of S. pneumoniae, strongly contribute to virulence in mice; (ii) ZmpC, only present in about 25% of pneumococcal strains, has a lower influence on virulence in mice. Conclusions These data suggest Iga, ZmpB and ZmpC as candidate surface proteins responsible for pneumococcal infection and potentially involved in distinct stages of pneumococcal disease.

Published

2003

7. Complete genome sequence of a serotype 11A, ST62 Streptococcus pneumoniae invasive isolate

Author

Marco R. Oggioni, Francesco Iannelli, Romina Camilli, Laura Mulas, Fabiana Superti, Gianluca De Bellis, Raoul J. P. Bonnal, Michele Iacono, Magda Marchetti, Giorgio Corti, Annalisa Pantosti, Ermanno Rizzi, Maria Del Grosso, Camilli R, Bonnal JP, Del Grosso M, Iacono M, Corti G, Rizzi E, Marchetti M, Mulas L, Iannelli F, Superti F, Oggioni MR, De Bellis G, and Pantosti A

Subjects

Microbiology (medical), DNA, Bacterial, Sequence analysis, Prophages, Molecular Sequence Data, lcsh:QR1-502, Human pathogen, Biology, medicine.disease_cause, Microbiology, Genome, lcsh:Microbiology, 03 medical and health sciences, Streptococcus pneumoniae, genomics, medicine, Prophage, 030304 developmental biology, Genomic organization, Whole genome sequencing, 0303 health sciences, 030306 microbiology, Molecular Sequence Annotation, Sequence Analysis, DNA, Chromosomes, Bacterial, 3. Good health, Parasitology, DNA Transposable Elements, Genome, Bacterial, Research Article

Abstract

Background Streptococcus pneumoniae is an important human pathogen representing a major cause of morbidity and mortality worldwide. We sequenced the genome of a serotype 11A, ST62 S. pneumoniae invasive isolate (AP200), that was erythromycin-resistant due to the presence of the erm(TR) determinant, and carried out analysis of the genome organization and comparison with other pneumococcal genomes. Results The genome sequence of S. pneumoniae AP200 is 2,130,580 base pair in length. The genome carries 2216 coding sequences (CDS), 56 tRNA, and 12 rRNA genes. Of the CDSs, 72.9% have a predicted biological known function. AP200 contains the pilus islet 2 and, although its phenotype corresponds to serotype 11A, it contains an 11D capsular locus. Chromosomal rearrangements resulting from a large inversion across the replication axis, and horizontal gene transfer events were observed. The chromosomal inversion is likely implicated in the rebalance of the chromosomal architecture affected by the insertions of two large exogenous elements, the erm(TR)-carrying Tn1806 and a functional prophage designated ϕSpn_200. Tn1806 is 52,457 bp in size and comprises 49 ORFs. Comparative analysis of Tn1806 revealed the presence of a similar genetic element or part of it in related species such as Streptococcus pyogenes and also in the anaerobic species Finegoldia magna, Anaerococcus prevotii and Clostridium difficile. The genome of ϕSpn_200 is 35,989 bp in size and is organized in 47 ORFs grouped into five functional modules. Prophages similar to ϕSpn_200 were found in pneumococci and in other streptococcal species, showing a high degree of exchange of functional modules. ϕSpn_200 viral particles have morphologic characteristics typical of the Siphoviridae family and are capable of infecting a pneumococcal recipient strain. Conclusions The sequence of S. pneumoniae AP200 chromosome revealed a dynamic genome, characterized by chromosomal rearrangements and horizontal gene transfers. The overall diversity of AP200 is driven mainly by the presence of the exogenous elements Tn1806 and ϕSpn_200 that show large gene exchanges with other genetic elements of different bacterial species. These genetic elements likely provide AP200 with additional genes, such as those conferring antibiotic-resistance, promoting its adaptation to the environment.

Published

2011

8. Method for inducing experimental pneumococcal meningitis in outbred mice

Author

Chiavolini D, Tripodi S, Parigi R, Oggioni MR, Blasi E, Cintorino M, Pozzi G, Ricci S, Chiavolini D, Tripodi S, Parigi R, Oggioni MR, Blasi E, Cintorino M, Pozzi G, and Ricci S

Subjects

Meningitis, Pneumococcal, Methodology Article, lcsh:QR1-502, Colony Count, Microbial, Brain, Bacteremia, Survival Analysis, infection, lcsh:Microbiology, Subarachnoid Space, Injections, Disease Models, Animal, Mice, Streptococcus pneumoniae, pneumococcal meningitis, in vivo experimental model, Animals, Female, Serotyping, Spleen

Abstract

Background Streptococcus pneumoniae is the leading cause of bacterial meningitis. Pneumococcal meningitis is associated with the highest mortality among bacterial meningitis and it may also lead to neurological sequelae despite the use of antibiotic therapy. Experimental animal models of pneumococcal meningitis are important to study the pathogenesis of meningitis, the host immune response induced after infection, and the efficacy of novel drugs and vaccines. Results In the present work, we describe in detail a simple, reproducible and efficient method to induce pneumococcal meningitis in outbred mice by using the intracranial subarachnoidal route of infection. Bacteria were injected into the subarachnoid space through a soft point located 3.5 mm rostral from the bregma. The model was tested with several doses of pneumococci of three capsular serotypes (2, 3 and 4), and mice survival was recorded. Lethal doses killing 50 % of animals infected with type 2, 3 and 4 S. pneumoniae were 3.2 × 10, 2.9 × 10 and 1.9 × 102 colony forming units, respectively. Characterisation of the disease caused by the type 4 strain showed that in moribund mice systemic dissemination of pneumococci to blood and spleen occurred. Histological analysis of the brain of animals infected with type 4 S. pneumoniae proved the induction of meningitis closely resembling the disease in humans. Conclusions The proposed method for inducing pneumococcal meningitis in outbred mice is easy-to-perform, fast, cost-effective, and reproducible, irrespective of the serotype of pneumococci used.

Published

2004

9. The impact of the competence quorum sensing system on Streptococcus pneumoniaebiofilms varies depending on the experimental model

Author

Trappetti, Claudia, primary, Gualdi, Luciana, additional, Di Meola, Lorenzo, additional, Jain, Prashant, additional, Korir, Cindy C, additional, Edmonds, Paul, additional, Iannelli, Francesco, additional, Ricci, Susanna, additional, Pozzi, Gianni, additional, and Oggioni, Marco R, additional

Published

2011

10. Complete genome sequence of a serotype 11A, ST62 Streptococcus pneumoniaeinvasive isolate

Author

Camilli, Romina, primary, Bonnal, Raoul JP, additional, Del Grosso, Maria, additional, Iacono, Michele, additional, Corti, Giorgio, additional, Rizzi, Ermanno, additional, Marchetti, Magda, additional, Mulas, Laura, additional, Iannelli, Francesco, additional, Superti, Fabiana, additional, Oggioni, Marco R, additional, De Bellis, Gianluca, additional, and Pantosti, Annalisa, additional

Published

2011

11. Identification of a human immunodominant B-cell epitope within the immunoglobulin A1 protease of Streptococcus pneumoniae

Author

De Paolis, Francesca, primary, Beghetto, Elisa, additional, Spadoni, Andrea, additional, Montagnani, Francesca, additional, Felici, Franco, additional, Oggioni, Marco R, additional, and Gargano, Nicola, additional

Published

2007

12. [Untitled]

Author

Riccardo Parigi, Marco R. Oggioni, Elisabetta Blasi, Damiana Chiavolini, Sergio Tripodi, Susanna Ricci, Gianni Pozzi, and Marcella Cintorino

Subjects

Microbiology (medical), Serotype, Spleen, Biology, medicine.disease, medicine.disease_cause, Microbiology, Pathogenesis, Immune system, medicine.anatomical_structure, Parasitology, Bacteremia, Immunology, Streptococcus pneumoniae, medicine, Meningitis

Abstract

Background Streptococcus pneumoniae is the leading cause of bacterial meningitis. Pneumococcal meningitis is associated with the highest mortality among bacterial meningitis and it may also lead to neurological sequelae despite the use of antibiotic therapy. Experimental animal models of pneumococcal meningitis are important to study the pathogenesis of meningitis, the host immune response induced after infection, and the efficacy of novel drugs and vaccines.

Published

2004

13. [Untitled]

Author

Claus Wilke, Baharia Mograbi, John Bannantine, Marco Rinaldo Oggioni, Jes Lindholt, Alex Bateman, Christopher Yost, Nigel Saunders, Kate Del Bel, Erez Levanon, David Studholme, and Vivek Kapur

Subjects

Microbiology (medical), 0303 health sciences, 030306 microbiology, Methyl-accepting chemotaxis protein, food and beverages, Chemotaxis, biochemical phenomena, metabolism, and nutrition, Biology, medicine.disease_cause, biology.organism_classification, Microbiology, Rhizobium leguminosarum, 03 medical and health sciences, Plasmid, Biochemistry, Membrane protein, medicine, bacteria, Rhizobium, Gene, Bacteria, 030304 developmental biology

Abstract

Background In general, chemotaxis in Rhizobium has not been well characterized. Methyl accepting chemotaxis proteins are sensory proteins important in chemotaxis of numerous bacteria, but their involvement in Rhizobium chemotaxis is unclear and merits further investigation.

Published

2003

14. [Untitled]

Author

Guido Memmi, Gianni Pozzi, Marco R. Oggioni, Francesco Iannelli, Tiziana Maggi, and Damiana Chiavolini

Subjects

Microbiology (medical), 0303 health sciences, Metalloproteinase, 030306 microbiology, Mutant, Wild type, Virulence, Biology, Matrix metalloproteinase, medicine.disease_cause, medicine.disease, Microbiology, Virology, 3. Good health, 03 medical and health sciences, Pneumococcal infections, Streptococcus pneumoniae, medicine, Gene, 030304 developmental biology

Abstract

Streptococcus pneumoniae possesses large zinc metalloproteinases on its surface. To analyse the importance in virulence of three of these metalloproteinases, intranasal challenge of MF1 outbred mice was carried out using a range of infecting doses of wild type and knock-out pneumococcal mutant strains, in order to compare mice survival. Observation of survival percentages over time and detection of LD50s of knock out mutants in the proteinase genes in comparison to the type 4 TIGR4 wild type strain revealed two major aspects: i) Iga and ZmpB, present in all strains of S. pneumoniae, strongly contribute to virulence in mice; (ii) ZmpC, only present in about 25% of pneumococcal strains, has a lower influence on virulence in mice. These data suggest Iga, ZmpB and ZmpC as candidate surface proteins responsible for pneumococcal infection and potentially involved in distinct stages of pneumococcal disease.

Published

2003

15. The impact of the competence quorum sensing system on Streptococcus pneumoniae biofilms varies depending on the experimental model.

Author

Trappetti, Claudia, Gualdi, Luciana, Di Meola, Lorenzo, Jain, Prashant, Korir, Cindy C., Edmonds, Paul, Iannelli, Francesco, Ricci, Susanna, Pozzi, Gianni, and Oggioni, Marco R.

Subjects

QUORUM sensing, STREPTOCOCCUS pneumoniae, BIOFILMS, PHENOTYPES, PEPTIDES

Abstract

Background: Different models for biofilm in Streptococcus pneumoniae have been described in literature. To permit comparison of experimental data, we characterised the impact of the pneumococcal quorum-sensing competence system on biofilm formation in three models. For this scope, we used two microtiter and one continuous culture biofilm system. Results: In both microtiter models the competence system influences stability and structure of biofilm in the late attachment phase and synthetic competence stimulating peptide (CSP) restored wild type phenotypes in the comC mutants unable to produce the peptide. Early attachment of single cells to well bottoms was found for both systems to be competence independent, while later phases, including microcolony formation correlated to an intact competence system. The continuous culture biofilm model was not affected by mutations in the competence locus, but deletion of capsule had a significant impact in this model. Conclusions: Since biofilm remains a largely uncharacterised multi-parameter phenotype it appears to be advisable to exploit more than one model in order to draw conclusion of possible relevance of specific genotypes on pneumococcal physiology. [ABSTRACT FROM AUTHOR]

Published

2011

16. Identification of a human immunodominant B-cell epitope withinthe immunoglobulin A1 protease of Streptococcus pneumoniae.

Author

De Paolis, Francesca, Beghetto, Elisa, Spadoni, Andrea, Montagnani, Francesca, Felici, Franco, Oggioni, Marco R., and Gargano, Nicola

Subjects

B cells, IMMUNOGLOBULINS, STREPTOCOCCUS pneumoniae, PROTEOLYTIC enzymes, MICROBIOLOGY, BLOOD proteins

Abstract

Background: The IgA1 protease of Streptococcus pneumoniae is a proteolytic enzyme that specifically cleaves the hinge regions of human IgA1, which dominates most mucosal surfaces and is the major IgA isotype in serum. This protease is expressed in all of the known pneumococcal strains and plays a major role in pathogen's resistance to the host immune response. The present work was focused at identifying the immunodominant regions of pneumococcal IgA1 protease recognized by the human antibody response. Results: An antigenic sequence corresponding to amino acids 420-457 (epiA) of the iga gene product was identified by screening a pneumococcal phage display library with patients' sera. The epiA peptide is conserved in all pneumococci and in two out of three S. mitis strains, while it is not present in other oral streptococci so far sequenced. This epitope was specifically recognized by antibodies present in sera from 90% of healthy adults, thus representing an important target of the humoral response to S. pneumoniae and S. mitis infection. Moreover, sera from 68% of children less than 4 years old reacted with the epiA peptide, indicating that the human immune response against streptococcal antigens occurs during childhood. Conclusion: The broad and specific recognition of the epiA polypeptide by human sera demonstrate that the pneumococcal IgA1 protease contains an immunodominant B-cell epitope. The use of phage display libraries to identify microbe or disease-specific antigens recognized by human sera is a valuable approach to epitope discovery. [ABSTRACT FROM AUTHOR]

Published

2007

17. The three extra-cellular zinc metalloproteinases of Streptococcus pneumoniae have a different impact on virulence in mice.

Author

Chiavolini, Damiana, Memmi, Guido, Maggi, Tiziana, Iannelli, Francesco, Pozzi, Gianni, and Oggioni, Marco R.

Subjects

STREPTOCOCCUS pneumoniae, METALLOPROTEINASES, PNEUMOCOCCAL vaccines, GENES, LABORATORY mice

Abstract

Background: Streptococcus pneumoniae possesses large zinc metalloproteinases on its surface. To analyse the importance in virulence of three of these metalloproteinases, intranasal challenge of MF1 outbred mice was carried out using a range of infecting doses of wild type and knock-out pneumococcal mutant strains, in order to compare mice survival. Results: Observation of survival percentages over time and detection of LD50s of knock out mutants in the proteinase genes in comparison to the type 4 TIGR4 wild type strain revealed two major aspects: i) Iga and ZmpB, present in all strains of S. pneumoniae, strongly contribute to virulence in mice; (ii) ZmpC, only present in about 25% of pneumococcal strains, has a lower influence on virulence in mice. Conclusions: These data suggest Iga, ZmpB and ZmpC as candidate surface proteins responsible for pneumococcal infection and potentially involved in distinct stages of pneumococcal disease. [ABSTRACT FROM AUTHOR]

Published

2003