Nanette L.S. Que-Gewirth scite author profile

An unusual feature of the lipid A from the plant endosymbionts Rhizobium etli and Rhizobium leguminosarum is the presence of a proximal sugar unit consisting of a 2-amino-2-deoxy-gluconate moiety in place of glucosamine. An outer membrane oxidase that generates the 2-amino-2-deoxy-gluconate unit from a glucosaminecontaining precursor is present in membranes of R. leguminosarum and R. etli but not in S. meliloti or Escherichia coli. We now report the identification of a hybrid cosmid that directs the overexpression of this activity by screening 1800 lysates of individual colonies of a R. leguminosarum 3841 genomic DNA library in the host strain R. etli CE3. Two cosmids (p1S11D and p1U12G) were identified in this manner and transferred into S. meliloti, in which they also directed the expression of oxidase activity in the absence of any chromosomal background. Subcloning and sequencing of the oxidase gene on a 6.5-kb fragment derived from the ϳ20-kb insert in p1S11D revealed that the enzyme is encoded by a gene (lpxQ) that specifies a protein of 224 amino acid residues with a putative signal sequence cleavage site at position 28. Heterologous expression of lpxQ using the T7lac promoter system in E. coli resulted in the production of catalytically active oxidase that was localized in the outer membrane. A new outer membrane protein of the size expected for LpxQ was present in this construct and was subjected to microsequencing to confirm its identity and the site of signal peptide cleavage. LpxQ expressed in E. coli generates the same products as seen in R. leguminosarum membranes. LpxQ is dependent on O 2 for activity, as demonstrated by inhibition of the reaction under strictly anaerobic conditions. An ortholog of LpxQ is present in the genome of Agrobacterium tumefaciens, as shown by heterologous expression of oxidase activity in E. coli.As demonstrated in the accompanying article (1), the outer membranes of Rhizobium leguminosarum and Rhizobium etli contain an unusual oxidase that converts the proximal glucosamine unit of 1-dephosphorylated lipid A (or related molecules) to a novel 2-aminogluconate moiety. The membranes of Sinorhizobium meliloti and Escherichia coli do not normally contain such an oxidase activity. Although the function of this unusual covalent modification of lipid A is unknown (2-4), the existence of an oxidative enzyme in the outer membrane of a Gram-negative bacterium is without precedent. The few outer membrane enzymes described to date are all phospholipases (5, 6), acyltransferases (7, 8), or proteases (9). Other characterized outer membrane proteins function either as porins or specialized transporters (10 -12). The presence of the oxidase in outer membranes of certain strains of Rhizobium suggests that lipid A oxidation (1), when it occurs, is a late event in lipopolysaccharide assembly.Given the considerable progress that has recently been made with the structural biology of outer membrane proteins by x-ray crystallography (12) and NMR spectroscopy (8, 13) and the great interest in li...

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An Outer Membrane Enzyme That Generates the 2-Amino-2- deoxy-gluconate Moiety of Rhizobium leguminosarum Lipid A

Que-Gewirth

Lin

Cotter

et al. 2003

Journal of Biological Chemistry

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The structures of Rhizobium leguminosarum and Rhizobium etli lipid A are distinct from those found in other Gram-negative bacteria. Whereas the more typical Escherichia coli lipid A is a hexa-acylated disaccharide of glucosamine that is phosphorylated at positions 1 and 4, R. etli and R. leguminosarum lipid A consists of a mixture of structurally related species (designated A-E) that lack phosphate. A conserved distal unit, comprised of a diacylated glucosamine moiety with galacturonic acid residue at position 4 and a secondary 27-hydroxyoctacosanoyl (27-OH-C28) as part of a 2 acyloxyacyl moiety, is present in all five components. The proximal end is heterogeneous, differing in the number and lengths of acyl chains and in the identity of the sugar itself. A proximal glucosamine unit is present in B and C, but an unusual 2-amino-2-deoxy-gluconate moiety is found in D-1 and E. We now demonstrate that membranes of R. leguminosarum and R. etli can convert B to D-1 in a reaction that requires added detergent and is inhibited by EDTA. Membranes of Sinorhizobium meliloti and E. coli lack this activity. Mass spectrometry demonstrates that B is oxidized in vitro to a substance that is 16 atomic mass units larger, consistent with the formation of D-1. The oxidation of the lipid A proximal unit is also demonstrated by matrix-assisted laser desorption ionization time-of-flight mass spectrometry in the positive and negative modes using the model substrate, 1-dephospho-lipid IV A . With this material, an additional intermediate (or by product) is detected that is tentatively identified as a lactone derivative of 1-dephospho-lipid IV A . The enzyme, presumed to be an oxidase, is located exclusively in the outer membrane of R. leguminosarum as judged by sucrose gradient analysis. To our knowledge, an oxidase associated with the outer membranes of Gram-negative bacteria has not been reported previously.

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Nanette L.S. Que-Gewirth

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