Robert S. Becker scite author profile

Pneumococcal surface protein A (PspA) is a serologically variable protein of Streptococcus pneumoniae. Twenty-four diverse alleles of the pspA gene were sequenced to investigate the genetic basis for serologic diversity and to evaluate the potential of diversity to have an impact on PspA's use in human vaccination. The 24 pspA gene sequences from unrelated strains revealed two major allelic types, termed "families," subdivided into clades. A highly mosaic gene structure was observed in which individual mosaic sequence blocks in PspAs diverged from each other by over 20% in many cases. This level of divergence exceeds that observed for blocks in the penicillin-binding proteins of S. pneumoniae or in many cross-species comparisons of gene loci. Conversely, because the mosaic pattern is so complex, each pair of pspA genes also has numerous shared blocks, but the position of conserved blocks differs from gene pair to gene pair. A central region of pspA, important for eliciting protective antibodies, was found in six clades, which each diverge from the other clades by >20%. Sequence relationships among the 24 alleles analyzed over three windows were discordant, indicating that intragenic recombination has occurred within this locus. The extensive recombination which generated the mosaic pattern seen in the pspA locus suggests that natural selection has operated in the history of this gene locus and underscores the likelihood that PspA may be important in the interaction between the pneumococcus and its human host.

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Immunization of healthy adults with a single recombinant pneumococcal surface protein A (PspA) variant stimulates broadly cross-reactive antibodies to heterologous PspA molecules

Nabors¹,

Braun²,

Herrmann³

et al. 2000

Vaccine

195

172

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Somatic diversification of immunoglobulin heavy chain VDJ genes: Evidence for somatic gene conversion in rabbits

Becker

Knight

1990

Cell

246

123

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Molecular basis of the allelic inheritance of rabbit immunoglobulin VH allotypes: Implications for the generation of antibody diversity

Knight

Becker

1990

Cell

179

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Characterization of Selected Strains of Pneumococcal Surface Protein A

Jedrzejas¹,

Lamani²,

Becker³

2001

Journal of Biological Chemistry

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Several proteins, in addition to the polysaccharide capsule, have recently been implicated in the full virulence of the Streptococcus pneumoniae bacterial pathogen. One of these novel virulence factors of S. pneumoniae is pneumococcal surface protein A (PspA). The N-terminal, cell surface exposed, and functional part of PspA is essential for full pneumococcal virulence, as evidenced by the fact that antibodies raised against this part of the protein are protective against pneumococcal infections. PspA has recently been implicated in anticomplementary function as it reduces complement-mediated clearance and phagocytosis of pneumococci. Several recombinant N-terminal fragments of PspA from different strains of pneumococci, Rx1, BG9739, BG6380, EF3296, and EF5668, were analyzed using circular dichroism, analytical ultracentrifugation sedimentation velocity and equilibrium methods, and sequence homology. Uniformly, all strains of PspA molecules studied have a high ␣-helical secondary structure content and they adopt predominantly a coiled-coil structure with an elongated, likely rod-like shape. No ␤-sheet structures were detected for any of the PspA molecules analyzed. All PspAs were found to be monomeric in solution with the exception of the BG9739 strain which had the propensity to partially aggregate but only into a tetrameric form. These structural properties were correlated with the functional, anti-complementary properties of PspA molecules based on the polar distribution of highly charged termini of its coiled-coil domain. The recombinant Rx1 PspA is currently under consideration for pneumococcal vaccine development.

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Robert S. Becker

Diversity of PspA: Mosaic Genes and Evidence for Past Recombination in Streptococcus pneumoniae

Immunization of healthy adults with a single recombinant pneumococcal surface protein A (PspA) variant stimulates broadly cross-reactive antibodies to heterologous PspA molecules

Somatic diversification of immunoglobulin heavy chain VDJ genes: Evidence for somatic gene conversion in rabbits

Molecular basis of the allelic inheritance of rabbit immunoglobulin VH allotypes: Implications for the generation of antibody diversity

Characterization of Selected Strains of Pneumococcal Surface Protein A

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