Christoph Weisgerber scite author profile

Capsular polysaccharides of Gram-negative bacteria contribute to a large extent to the pathogenicity of these organisms. We show here that the molecular organization of the capsule gene loci in different serogroups of Neisseria meningitidis is similar to that of Haemophilus influenzae and Escherichia coli. A common molecular origin of the mechanisms of encapsulation is indicated by strong homology of the genes involved in transport of the capsular polysaccharides to the cell surface in all these organisms. The proteins involved in capsular polysaccharide transport fit the characteristics of ABC (ATP-binding cassette) transporters. Furthermore, by sequence comparison of the sialytransferases of N. meningitidis B and E. coli K1, the capsule of which is composed of alpha 2,8-linked polyneuraminic acid, a significant degree of homology was observed, indicating that the capsular polysaccharide type itself has the same evolutionary origin in these two pathogens.

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Molecular characterization and expression in Escherichia coli of the gene complex encoding the polysaccharide capsule of Neisseria meningitidis group B.

Frosch

Weisgerber

Meyer

1989

Proc. Natl. Acad. Sci. U.S.A.

188

128

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The gene complex encoding all determinants of the biosynthesis pathway of the capsule of group B meningococci (cps) has been cloned in Escherichia coli. A 24-kilobase large chromosomal fragment is necessary for capsule expression on the E. coli surface. By transposon and deletion mutagenesis, two separate steps in transport of the polysaccharide from the cytoplasm to the periplasm and further to the cell surface became evident. Mutants were also isolated that accumulate soluble poly(sialic acid) in the cytoplasm. The cloned cps complex conferred to E. coli strain GC6 sensitivity for E. coli Kl-specific phages; phage sensitivity was enhanced in two distinct classes of cps mutants. Southern blot experiments revealed homology to some or all other Neisseria meningitidis capsular types and other Neisseria species, depending on the fragment of the cps complex used as probe.

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Evidence for the Extended Helical Nature of Polysaccharide Epitopes. The 2.8 .ANG. Resolution Structure and Thermodynamics of Ligand Binding of an Antigen Binding Fragment Specific for .alpha.-(2.fwdarw.8)-Poly(sialic acid)

Evans¹,

Sigurskjold²,

Jennings³

et al. 1995

Biochemistry

101

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The antigen binding fragment from an IgG2a kappa murine monoclonal antibody with specificity for alpha-(2-->8)-linked sialic acid polymers has been prepared and crystallized in the absence of hapten. Crystals were grown by vapor diffusion equilibrium with 16-18% polyethylene glycol 4000 solutions. The structure was solved by molecular replacement methods and refined to a conventional R factor of 0.164 for data to 2.8 A. The binding site is observed to display a shape and distribution of charges that is complementary to that of the predicted conformation of the oligosaccharide epitope. A thermodynamic description of ligand binding has been compiled for oligosaccharides ranging in length from 9 to 41 residues, and the data for the largest ligand has been used in a novel way to estimate the size of the antigen binding site. A model of antigen binding is presented that satisfies this thermodynamic data, as well as a previously reported requirement of conformational specificity of the oligosaccharide. X-ray crystallographic and thermodynamic evidence are consistent with a binding site that accommodates at least eight sialic acid residues.

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