Unique regions of the polysaccharide copolymerase wzz2 from pseudomonas aeruginosa are essential for o-specific antigen chain length control

Abstract

The outer leaflet of the outer membrane of nearly all Gram-negative bacteria contains lipopolysaccharide (LPS). The distal end of LPS may be capped with O antigen, a long polysaccharide that can range from a few to hundreds of sugars in length. The chain length of the polysaccharide has many implications for bacterial survival and consequently is tightly controlled. In the Wzx/Wzy-dependent route of O antigen synthesis, one or more Wzz proteins determine the chain length via an unknown mechanism. To gain insight into this mechanism, we identified and characterized important regions of two Wzz proteins in Pseudomonas aeruginosa serotype O13, which confer the production of "long"(Wzz1) and "very long"(Wzz2) chain lengths, respectively. We found that compared to Wzz1, Wzz2 has distinct amino acid insertions in the central α-helices (insα6 and insα7) and in membranedistal (insL4) and -proximal (insIL) loops. When these regions were deleted in Wzz2, the mutant proteins conferred drastically shortened chain lengths. Within these regions we identified several conserved amino acid residues that were then targeted for site-directed mutagenesis. Our results implicate an RTE motif in loop 4 and a "hot spot"of charged and polar residues in insα7 in the function of Wzz2. We present evidence that the functionally important residues of insα7 are likely involved in stabilizing Wzz through coiled-coil interactions.