2. Author's Information
    Bernd Kneidinger
    Canadian Bacterial Diseases Network, University of Guelph, Department of Microbiology, Guelph, Ontario N1G 2W1, Canada

    Suzon Larocque
    Institute for Biological Sciences, National Research Council, 100 Sussex Drive, Ottawa, Ontario K1A 0R6, Canada

    Jean-Robert Brisson
    Institute for Biological Sciences, National Research Council, 100 Sussex Drive, Ottawa, Ontario K1A 0R6, Canada

    Nicolas Cadotte
    Institute for Biological Sciences, National Research Council, 100 Sussex Drive, Ottawa, Ontario K1A 0R6, Canada

    Joseph S. Lam
    Canadian Bacterial Diseases Network, University of Guelph, Department of Microbiology, Guelph, Ontario N1G 2W1, Canada
  3. Abstract
    6-Deoxy-l-hexoses have been shown to be synthesized from dTDP-d-glucose or GDP-d-mannose so that the gluco/galacto-configuration is converted into the manno/talo-configuration, and manno/talo is switched to gluco/galacto. Our laboratory has been investigating the biosynthesis of 2-acetamido-2,6-dideoxy-l-hexoses in both Gram-positive and Gram-negative bacteria, and in a recent paper we described the biosynthesis of the talo (pneumosamine) and galacto (fucosamine) derivatives from UDP-d-N-acetylglucosamine a 2-acetamido sugar [Kneidinger, O'Riordan, Li, Brisson, Lee and Lam (2003) J. Biol. Chem. 278, 3615�3627]. In the present study, we undertake the task to test the hypothesis that UDP-d-N-acetylglucosamine is the common precursor for the production of 2-acetamido-2,6-dideoxy-l-hexoses in the gluco-, galacto-, manno- and talo-configurations. We present data to reveal the steps for the biosynthesis of the gluco (quinovosamine)- and manno (rhamnosamine)-configured compounds. The corresponding enzymes WbvB, WbvR and WbvD from Vibrio cholerae serotype O37 have been overexpressed and purified to near homogeneity. The enzymic reactions have been analysed by capillary electrophoresis and NMR spectroscopy. Our data have revealed a general feature of reaction cascades due to the three enzymes. First, UDP-d-N-acetylglucosamine is catalysed by the multi-functional enzyme WbvB, whereby dehydration occurs at C-4, C-6 and epimerization at C-5, C-3 to produce UDP-2-acetamido-2,6-dideoxy-l-lyxo-4-hexulose. Secondly, this intermediate is converted by the C-4 reductase, WbvR, in a stereospecific reaction to yield UDP-2-acetamido-l-rhamnose. Thirdly, UDP-2-acetamido-l-rhamnose is epimerized at C-2 to UDP-2-acetamido-l-quinovose by WbvD. Interestingly, WbvD is also an orthologue of WbjD, but not vice versa. Incubation of purified WbvD with UDP-2-acetamido-2,6-dideoxy-l-talose and analysing the reaction products by capillary electrophoresis revealed the same product peak as when WbjD was used. This sugar nucleotide is a specific substrate for WbjD and is a C-4 epimer of UDP-2-acetamido-l-rhamnose.
    Keywords
    deoxy-hexose, lipopolysaccharide, UDP-GlcNAc, UDP-l-RhaNAc, Vibrio cholerae
    DOI: 10.1042/bj20030099
    ADLID: 56062-v4
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  1. Keywords
    deoxy-hexose lipopolysaccharide UDP-GlcNAc UDP-l-RhaNAc Vibrio cholerae
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