Sequence evolution of the porB gene of Neisseria gonorrhoeae and Neisseria meningitidis: evidence of positive Darwinian selection

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ORIGINAL ARTICLE

Sequence evolution of the porB gene of Neisseria gonorrhoeae and Neisseria meningitidis: evidence of positive Darwinian selection

NH Smith, J Maynard Smith and BG Spratt
School of Biological Sciences, University of Sussex, Falmer, Brighton, U.K.

Protein 1 (PI) is a major porin of Neisseria gonorrhoeae and Neisseria meningitidis and is encoded by a single locus, porB. Alleles of the porB locus of N. gonorrhoeae are assigned to two homology groups, PI(A) and PI(B), on the basis of immunological and structural similarity. In a like manner, alleles of the porB locus of the closely related bacterium, N. meningitidis, are allocated into class 2 and class 3 homology groups. An individual strain of N. gonorrhoeae or N. meningitidis expresses either one or other of these porin homology groups but never both, and the antigenic reactions of these highly diverse outer membrane proteins form part of the N. gonorrhoeae and N. meningitidis serotyping schemes. A comparison of the number of synonymous and nonsynonymous substitutions per site between the two most divergent alleles of each of these four groups of porB alleles shows that PI(A) alleles have accumulated significantly more nonsynonymous substitutions per site than synonymous substitutions. In contrast the distribution of synonymous and nonsynonymous substitutions between alleles of class 2 and class 3 porins are not significantly different from random. We localize the regions of the PI(A) alleles with an excess of amino acid changes to the surface-exposed loops of these outer membrane proteins and suggest that positive Darwinian selection for diversity, driven by the human immune system, can most easily explain the allelic polymorphism and the pattern of synonymous and nonsynonymous substitutions.
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				D. J. Wilson and G. McVean Estimating Diversifying Selection and Functional Constraint in the Presence of Recombination Genetics, March 1, 2006; 172(3): 1411 - 1425. [Abstract] [Full Text] [PDF]

				J. Ngampasutadol, S. Ram, A. M. Blom, H. Jarva, A. E. Jerse, E. Lien, J. Goguen, S. Gulati, and P. A. Rice From The Cover: Human C4b-binding protein selectively interacts with Neisseria gonorrhoeae and results in species-specific infection PNAS, November 22, 2005; 102(47): 17142 - 17147. [Abstract] [Full Text] [PDF]

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				M. Unemo, P. Olcen, J. Albert, and H. Fredlund Comparison of Serologic and Genetic porB-Based Typing of Neisseria gonorrhoeae: Consequences for Future Characterization J. Clin. Microbiol., September 1, 2003; 41(9): 4141 - 4147. [Abstract] [Full Text] [PDF]

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				M. J. Rodriguez-Maranon, R. M. Bush, E. M. Peterson, T. Schirmer, and L. M. de la Maza Prediction of the membrane-spanning {beta}-strands of the major outer membrane protein of Chlamydia Protein Sci., July 1, 2002; 11(7): 1854 - 1861. [Abstract] [Full Text] [PDF]

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				R. P. Viscidi, J. C. Demma, J. Gu, and J. Zenilman Comparison of Sequencing of the por Gene and Typing of the opa Gene for Discrimination of Neisseria gonorrhoeae Strains from Sexual Contacts J. Clin. Microbiol., December 1, 2000; 38(12): 4430 - 4438. [Abstract] [Full Text]

				M. L. C. Tondella, T. Popovic, N. E. Rosenstein, D. B. Lake, G. M. Carlone, L. W. Mayer, B. A. Perkins, and The Active Bacterial Core Surveillance Team Distribution of Neisseria meningitidis Serogroup B Serosubtypes and Serotypes Circulating in the United States J. Clin. Microbiol., September 1, 2000; 38(9): 3323 - 3328. [Abstract] [Full Text]

Molecular Biology and Evolution

ORIGINAL ARTICLE

Sequence evolution of the porB gene of Neisseria gonorrhoeae and Neisseria meningitidis: evidence of positive Darwinian selection

				D. Posada, K. A. Crandall, M. Nguyen, J. C. Demma, and R. P. Viscidi Population Genetics of the porB Gene of Neisseria gonorrhoeae: Different Dynamics in Different Homology Groups Mol. Biol. Evol., March 1, 2000; 17(3): 423 - 436. [Abstract] [Full Text] [PDF]

				K. J. Schmid, L. Nigro, C. F. Aquadro, and D. Tautz Large Number of Replacement Polymorphisms in Rapidly Evolving Genes of Drosophila: Implications for Genome-Wide Surveys of DNA Polymorphism Genetics, December 1, 1999; 153(4): 1717 - 1729. [Abstract] [Full Text]

				J. A. Bygraves, R. Urwin, A. J. Fox, S. J. Gray, J. E. Russell, I. M. Feavers, and M. C. J. Maiden Population Genetic and Evolutionary Approaches to Analysis of Neisseria meningitidis Isolates Belonging to the ET-5 Complex J. Bacteriol., September 15, 1999; 181(18): 5551 - 5556. [Abstract] [Full Text]

				T. C. Fudyk, I. W. Maclean, J. N. Simonsen, E. N. Njagi, J. Kimani, R. C. Brunham, and F. A. Plummer Genetic Diversity and Mosaicism at the por Locus of Neisseria gonorrhoeae J. Bacteriol., September 15, 1999; 181(18): 5591 - 5599. [Abstract] [Full Text]

				J. P. Derrick, R. Urwin, J. Suker, I. M. Feavers, and M. C. J. Maiden Structural and Evolutionary Inference from Molecular Variation in Neisseria Porins Infect. Immun., May 1, 1999; 67(5): 2406 - 2413. [Abstract] [Full Text] [PDF]

				C. T. Sacchi, A. P. S. Lemos, A. M. Whitney, C. A. Solari, M. E. Brandt, C. E. A. Melles, C. E. Frasch, and L. W. Mayer Clin. Vaccine Immunol., May 1, 1998; 5(3): 348 - 354. [Abstract]

				A. van der Ende, Z.-J. Pan, A. Bart, R. W. M. van der Hulst, M. Feller, S.-D. Xiao, G. N. J. Tytgat, and J. Dankert cagA-Positive Helicobacter pylori Populations in China and The Netherlands Are Distinct Infect. Immun., May 1, 1998; 66(5): 1822 - 1826. [Abstract] [Full Text] [PDF]