Abstract

An ATP-binding cassette (ABC) transporter-dependent mechanism is responsible for the biosynthesis of polysaccharide O antigens in the lipopolysaccharides of many Gram-negative bacteria. In the Escherichia coli O9a prototype, addition of a non-reducing terminal modification regulates chain length. The terminal residue is an export signal recognized by the nucleotide-binding domain component of the cognate ABC transporter. The Klebsiella pneumoniae O2a antigen lacks a capping residue, and the corresponding nucleotide-binding protein does not contain a separate substrate-binding domain. Unlike the O9a transporter, the O2a transporter can export heterologous O antigens. Export of the O2a antigen is obligatorily coupled to chain elongation, and the O2a transporter is essential for establishing O antigen chain length. The E. coli O9a transporter operates after chain length has been determined. Furthermore biosynthesis and export can be uncoupled. O antigen chain length is a critical element in the ability of lipopolysaccharides to confer resistance to complement-mediated killing. This study establishes that two distinctly different approaches are available for the regulation of O antigen chain length and export via an ABC transporter.

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