Genetic characterization of pilin glycosylation in Neisseria meningitidis

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Genetics and Molecular Biology

Genetic characterization of pilin glycosylation in Neisseria meningitidis

Peter M. Power¹, Louise F. Roddam¹, Manuela Dieckelmann^a^,1, Yogitha N. Srikhanta¹, Yoke Cheng Tan¹, Andrew W. Berrington¹ and Michael P. Jennings¹

Department of Microbiology and Parasitology, The University of Queensland, Brisbane, Queensland 4072, Australia¹

Author for correspondence: Michael P. Jennings. Tel: +61 7 3365 4879. Fax: +61 7 3365 4620. e-mail: jennings{at}biosci.uq.edu.au

Pili of Neisseria meningitidis are a key virulence factor, beingthe major adhesin of this capsulate organism and contributingto specificity for the human host. Pili are post-translationallymodified by addition of an O-linked trisaccharide, Gal(ß1-4)Gal( ${alpha}$ 1-3)2,4-diacetimido-2,4,6-trideoxyhexose.In a previous study the authors identified and characterizeda gene, pglA, encoding a galactosyltransferase involved in pilinglycosylation. In this study a set of random genomic sequencesfrom N. meningitidis strain MC58 was used to search for furthergenes involved in pilin glycosylation. Initially, an open readingframe was identified, and designated pglD (pilin glycosylationgene D), which was homologous to genes involved in polysaccharidebiosynthesis. The region adjacent to this gene was cloned andnucleotide sequence analysis revealed two further genes, pglBand pglC, which were also homologous with genes involved inpolysaccharide biosynthesis. Insertional mutations were constructedin pglB, pglC and pglD in N. meningitidis C311#3, a strain withwell-defined LPS and pilin-linked glycan structures, to determinewhether these genes had a role in the biosynthesis of eitherof these molecules. Analysis of these mutants revealed thatthere was no alteration in the phenotype of LPS in any of themutant strains as judged by SDS-PAGE gel migration. In contrast,increased gel migration of the pilin subunit molecules of pglB,pglC and pglD mutants by Western analysis was observed. Pilinfrom each of the pglB, pglC and pglD mutants did not react witha terminal-galactose-specific stain, confirming that the gelmigration differences were due to the alteration or absenceof the pilin-linked trisaccharide structure in these mutants.In addition, antisera specific for the C311#3 trisaccharidefailed to react with pilin from the pglB, pglC, pglD and galEmutants. Analysis of nucleotide sequence homologies has suggestedspecific roles for pglB, pglC and pglD in the biosynthesis ofthe 2,4-diacetimido-2,4,6-trideoxyhexose structure.

Keywords: pilin, glycosylation, glycosyltransferase, lipopolysaccharide, Neisseria meningitidis

Abbreviations: DATDH, 2,4-diacetimido-2,4,6-trideoxyhexose; DIG, digoxigenin

The GenBank accession number for the sequence determined inthis work is AF014804.

^a Present address: Institute for Biological Sciences, NationalResearch Council of Canada, Ottawa, Ontario, Canada K1A 0R6.

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				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]

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