Comparative whole-genome analyses reveal over 100 putative phase-variable genes in the pathogenic Neisseria spp.

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Genomics

Comparative whole-genome analyses reveal over 100 putative phase-variable genes in the pathogenic Neisseria spp.

Lori A. S. Snyder¹, Sarah A. Butcher² and Nigel J. Saunders¹

The Sir William Dunn School of Pathology, University of Oxford, South Parks Road, Oxford OX1 3RE, UK¹
Oxford University Bioinformatics Centre, The Sir William Dunn School of Pathology, University of Oxford, South Parks Road, Oxford OX1 3RE, UK²

Author for correspondence: Nigel J. Saunders. Tel: +44 1865 275521. Fax: +44 1865 275515. e-mail: saunders{at}molbiol.ox.ac.uk

Previously, a complete genome analysis of Neisseria meningitidisstrain MC58 revealed the largest repertoire of putative phase-variablegenes described in any species to date. Initial comparisonswith two incomplete Neisseria spp. genome sequences availableat that time revealed differences in the repeats associatedwith these genes in the form of polymorphisms, the absence ofthe potentially unstable elements in some alleles, and in therepertoire of the genes that were present. Analyses of the completegenomes of N. meningitidis strain Z2491 and Neisseria gonorrhoeaestrain FA1090 have been performed and are combined with a comprehensivecomparative analysis between the three available complete genomesequences. This has increased the sensitivity of these searchesand provided additional contextual information that facilitatesthe interpretation of the functional consequences of repeatinstability. This analysis identified: (i) 68 phase-variablegene candidates in N. meningitidis strain Z2491, rather thanthe 27 previously reported; (ii) 83 candidates in N. gonorrhoeaestrain FA1090; and (iii) 82 candidates in N. meningitidis strainMC58, including an additional 19 identified through cross-comparisonswith the other two strains. In addition to the 18 members ofthe opa gene family, a repertoire of 119 putative phase-variablegenes is described, indicating a huge potential for diversificationmediated by this mechanism of gene switching in these speciesthat is central to their interactions with the host and environmentaltransitions. Eighty-two of these are either known (14) or strong(68) candidates for phase variation, which together with theopa genes make a total of 100 identified genes. The repertoiresof the genes identified in this analysis diverge from the differentspecies groupings, indicating horizontal exchange that significantlyaffects the species and strain complements of these genes.

Keywords: phase variation, Neisseria gonorrhoeae, Neisseria meningitidis, repeat, genome analysis

Abbreviations: HPT, homopolymeric tract

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INT J SYST EVOL MICROBIOL	MICROBIOLOGY	J GEN VIROL
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				L. Peiser, K. Makepeace, A. Pluddemann, S. Savino, J. C. Wright, M. Pizza, R. Rappuoli, E. R. Moxon, and S. Gordon Identification of Neisseria meningitidis Nonlipopolysaccharide Ligands for Class A Macrophage Scavenger Receptor by Using a Novel Assay Infect. Immun., September 1, 2006; 74(9): 5191 - 5199. [Abstract] [Full Text] [PDF]

				M. W. J. van Passel, A. van der Ende, and A. Bart Plasmid diversity in neisseriae. Infect. Immun., August 1, 2006; 74(8): 4892 - 4899. [Abstract] [Full Text] [PDF]

				M. P. Bos, B. Tefsen, P. Voet, V. Weynants, J. P. M. van Putten, and J. Tommassen Function of Neisserial Outer Membrane Phospholipase A in Autolysis and Assessment of Its Vaccine Potential Infect. Immun., April 1, 2005; 73(4): 2222 - 2231. [Abstract] [Full Text] [PDF]

				S. P. Yazdankhah, B.-A. Lindstedt, and D. A. Caugant Use of Variable-Number Tandem Repeats To Examine Genetic Diversity of Neisseria meningitidis J. Clin. Microbiol., April 1, 2005; 43(4): 1699 - 1705. [Abstract] [Full Text] [PDF]

				L. Salaun, S. Ayraud, and N. J. Saunders Phase variation mediated niche adaptation during prolonged experimental murine infection with Helicobacter pylori Microbiology, March 1, 2005; 151(3): 917 - 923. [Abstract] [Full Text] [PDF]

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				J. L. Edwards and M. A. Apicella The Molecular Mechanisms Used by Neisseria gonorrhoeae To Initiate Infection Differ between Men and Women Clin. Microbiol. Rev., October 1, 2004; 17(4): 965 - 981. [Abstract] [Full Text] [PDF]

				S. P. Yazdankhah and D. A. Caugant Neisseria meningitidis: an overview of the carriage state J. Med. Microbiol., September 1, 2004; 53(9): 821 - 832. [Abstract] [Full Text] [PDF]

				H. Wildschutte, D. M. Wolfe, A. Tamewitz, and J. G. Lawrence Protozoan predation, diversifying selection, and the evolution of antigenic diversity in Salmonella PNAS, July 20, 2004; 101(29): 10644 - 10649. [Abstract] [Full Text] [PDF]

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				M.-C. Geoffroy, S. Floquet, A. Metais, X. Nassif, and V. Pelicic Large-Scale Analysis of the Meningococcus Genome by Gene Disruption: Resistance to Complement-Mediated Lysis Genome Res., March 1, 2003; 13(3): 391 - 398. [Abstract] [Full Text] [PDF]

				N. J. Saunders, E. R. Moxon, and M. B. Gravenor Mutation rates: estimating phase variation rates when fitness differences are present and their impact on population structure Microbiology, February 1, 2003; 149(2): 485 - 495. [Abstract] [Full Text] [PDF]

				A. Banerjee, R. Wang, S. L. Supernavage, S. K. Ghosh, J. Parker, N. F. Ganesh, P. G. Wang, S. Gulati, and P. A. Rice Implications of Phase Variation of a Gene (pgtA) Encoding a Pilin Galactosyl Transferase in Gonococcal Pathogenesis J. Exp. Med., July 15, 2002; 196(2): 147 - 162. [Abstract] [Full Text] [PDF]