Site-directed mutagenesis reveals key residue for O antigen chain length regulation and protein stability in Pseudomonas aeruginosa Wzz

Abstract

The production of preferred lipopolysaccharide O antigen chain lengths is important for the survival of pathogenic Gram-negative bacteria in different environments, yet how Wzz proteins regulate these lengths is not well understood. The Wzz2 proteins from two different serotype O11 Pseudomonas aeruginosa strains are responsible for the expression of different very long chain lengths despite high sequence homology. Site-directed mutagenesis was performed to determine whether a specific amino acid was responsible for this difference in chain length; the residue present in position 321 within the second predicted coiled-coil region was able to determine which chain length was produced.Apanel of site-directed mutants introducing different amino acids at this position implicated that the charge of the amino acid affected chain length, with positively charged residues associated with shorter chain lengths. Expression data also suggested this site was important for overall stability of the protein because mutants predicted to disrupt proper folding of the α helix led to lower protein levels. Cross-linking studies found that Wzz2 proteins producing shorter chain lengths had more stable higher-order oligomers. Mapping residue 321 onto the solved Escherichia coli Wzz FepE crystal structure predicted it to be located within α helix 8, which participates in intermonomeric interactions. These data further support the observation that Wzz oligomerizationisnecessaryforchainlengthregulatingactivitybut also provide evidence that differences in complex stability or changes in the conformation of the oligomer can lead to shifts in the length of theOantigen side chain. © 2011 by The American Society for Biochemistry and Molecular Biology, Inc.