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Abstract
Meningococcal disease caused by serogroup B Neisseria meningitidis remains an important health problem in many parts of the world, and there are currently no comprehensive vaccines. Poor immunogenicity, combined with immunological identity to human sialic acids, have hindered the development of a serogroup B conjugate vaccine, resulting in the development of alternative vaccine candidates, including many outer-membrane protein (OMP)-based formulations. However, the design of protein-based meningococcal vaccines is complicated by the high level of genetic and antigenic diversity of the meningococcus. Knowledge of the extent and structuring of this diversity can have implications for the use of particular proteins as potential vaccine candidates. With this in mind, the diversity of the meningococcal OMP HmbR was investigated among N. meningitidis isolates representative of major hyper-invasive lineages. In common with other meningococcal antigens, the genetic diversity of hmbR resulted from a combination of intraspecies horizontal genetic exchange and de novo mutation. Furthermore, genealogical analysis showed an association of hmbR genes with clonal complexes and the occurrence of two hmbR families, A and B. Three variable regions (VR1–VR3), located in loops 2, 3 and 4, were observed with clonal complex structuring of VR types. A minority of codons (3.9 %), located within putative surface-exposed loop regions of a 2D model, were under diversifying selection, indicating regions of the protein likely to be subject to immune attack.
Highlights
Neisseria meningitidis, a Gram-negative diplococcus, is a major cause of meningitis and septicaemia worldwide (Tzeng & Stephens, 2000)
For optimal PCR amplification of the haemoglobin receptor gene (hmbR) gene, reaction mixes were incubated for 30 cycles; each cycle consisted of 94 uC for 1 min, 60 uC for 2 min and 72 uC for 4 min
Among putative haemoglobin receptor protein (HmbR) proteins, there were a total of 121 variable residues, including one indel at codon 323 and two simultaneous indel pairs at codons 676–677 and 680–681
Summary
A Gram-negative diplococcus, is a major cause of meningitis and septicaemia worldwide (Tzeng & Stephens, 2000). Successful vaccines, based on conjugate-capsular polysaccharides, have been developed. The GenBank/EMBL/DDBJ accession numbers for the HmbR sequence of the N. meningitidis strains examined are FJ179261– FJ179349. Three supplementary figures and two supplementary tables, with supplementary references, are available with the online version of this paper. The supplementary figures show aligned HmbR peptide sequences from loops 2, 3 and 4, a predicted topology plot of HmbR using a Hidden Markov model and neural networking, and alignment of TonB-dependent receptors including structures. The supplementary tables list primers used for DNA sequencing of the hmbR gene and isolate profiles of the 52 hmbR alleles
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