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. 2001 Jan;69(1):34-44.
doi: 10.1128/IAI.69.1.34-44.2001.

Detection of bacterial virulence genes by subtractive hybridization: identification of capsular polysaccharide of Burkholderia pseudomallei as a major virulence determinant

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Detection of bacterial virulence genes by subtractive hybridization: identification of capsular polysaccharide of Burkholderia pseudomallei as a major virulence determinant

S L Reckseidler et al. Infect Immun. 2001 Jan.

Abstract

Burkholderia pseudomallei, the etiologic agent of melioidosis, is responsible for a broad spectrum of illnesses in humans and animals particularly in Southeast Asia and northern Australia, where it is endemic. Burkholderia thailandensis is a nonpathogenic environmental organism closely related to B. pseudomallei. Subtractive hybridization was carried out between these two species to identify genes encoding virulence determinants in B. pseudomallei. Screening of the subtraction library revealed A-T-rich DNA sequences unique to B. pseudomallei, suggesting they may have been acquired by horizontal transfer. One of the subtraction clones, pDD1015, encoded a protein with homology to a glycosyltransferase from Pseudomonas aeruginosa. This gene was insertionally inactivated in wild-type B. pseudomallei to create SR1015. It was determined by enzyme-linked immunosorbent assay and immunoelectron microscopy that the inactivated gene was involved in the production of a major surface polysaccharide. The 50% lethal dose (LD(50)) for wild-type B. pseudomallei is <10 CFU; the LD(50) for SR1015 was determined to be 3.5 x 10(5) CFU, similar to that of B. thailandensis (6.8 x 10(5) CFU). DNA sequencing of the region flanking the glycosyltransferase gene revealed open reading frames similar to capsular polysaccharide genes in Haemophilus influenzae, Escherichia coli, and Neisseria meningitidis. In addition, DNA from Burkholderia mallei and Burkholderia stabilis hybridized to a glycosyltransferase fragment probe, and a capsular structure was identified on the surface of B. stabilis via immunoelectron microscopy. Thus, the combination of PCR-based subtractive hybridization, insertional inactivation, and animal virulence studies has facilitated the identification of an important virulence determinant in B. pseudomallei.

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Figures

FIG. 1
FIG. 1
Immunogold electron microscopy of B. pseudomallei 1026b (A) and SR1015 (B), B. thailandensis E264 (C), and B. stabilis LMG7000 (D). Bacteria were reacted with polyclonal rabbit antiserum directed against an O-PS–flagellin protein conjugate absorbed with B. thailandensis E264 to remove the antibodies directed against type II O-PS, washed, and reacted with a goat anti-rabbit IgG-gold (5 nm) conjugate. Original magnification, ×ばつ30,000.
FIG. 2
FIG. 2
Western blot analysis of LPS isolated from B. pseudomallei 1026b and SR1015 and B. thailandensis E264. Bacteria were reacted with proteinase K, subjected to SDS-polyacrylamide gel electrophoresis, electroblotted, and reacted with polyclonal rabbit antiserum raised to an O-PS–flagellin protein conjugate from B. pseudomallei. Lane M, prestained protein molecular weight standards (New England Biolabs); lane 1, B. pseudomallei 1026b; lane 2, B. pseudomallei SR1015; lane 3, B. thailandensis E264. The apparent molecular masses of the prestained proteins are indicated.
FIG. 3
FIG. 3
Organization of the chromosomal region containing the genes responsible for the synthesis and export of type I O-PS in B. pseudomallei. The upper part shows the locations of the genes. The direction of transcription is represented by arrows, and gene names are indicated. The locations of Tn5-OT182 insertions are represented by triangles. Mutants constructed by allelic exchange are shown. The straight line indicates insertion of the Tp cassette into the gene of interest. The horizontal line below the genetic map represents B. pseudomallei chromosomal DNA; the locations of relevant restriction endonuclease recognition sites (Bg, BglII; E, EcoRI; H, HindIII; K, KpnI; B, BamHI) are shown.
FIG. 4
FIG. 4
Southern hybridization analysis of genomic DNA from Burkholderia spp. digested with SstI. A 0.4-kb KpnI-XhoI fragment from pDD1015 was used as a probe. Lane 1, B. mallei NCTC 10260; lane 2, B. pseudomallei 1026b; lane 3, B. pseudomallei SR1015; lane 4, B. thailandensis E264; lane 5, B. vietnamiensis LMG10929; lane 6, B. cepacia CEP509 (genomovar I); lane 7, B. cepacia K56-2 (genomovar III); lane 8, B. stabilis LMG14294; lane 9, B. stabilis LMG7000; lane 10, B. multivorans C5393.

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