Abstract
UDP-glucose dehydrogenase (UGDH) catalyzes a two-step NAD(+)-dependent oxidation of UDP-glucose to produce UDP-glucuronic acid, which is a common substrate for the biosynthesis of exopolysaccharide. Searching the Pseudomonas aeruginosa PAO1 genome data base for a UGDH has helped identify two open reading frames, PA2022 and PA3559, which may encode a UGDH. To elucidate their enzymatic identity, the two genes were cloned and overexpressed in Escherichia coli, and the recombinant proteins were purified. Both the gene products are active as dimers and are capable of utilizing UDP-glucose as a substrate to generate UDP-glucuronic acid. The K(m) values of PA2022 and PA3559 for UDP-glucose are approximately 0.1 and 0.4 mM, whereas the K(m) values for NAD(+) are 0.5 and 2.0 mM, respectively. Compared with PA3559, PA2022 exhibits broader substrate specificity, utilizing TDP-glucose and UDP-N-acetylglucosamine with one-third the velocity of that with UDP-glucose. The PA2022 mutant and PA2022-PA3559 double mutant, but not the PA3559 mutant, are more susceptible to chloramphenicol, cefotaxime, and ampicillin. The PA3559 mutant, however, shows a reduced resistance to polymyxin B compared with wild type PAO1. Finally, real time PCR analysis indicates that PA3559 is expressed primarily in low concentrations of Mg(2+), which contrasts with the constitutive expression of PA2022. Although both the enzymes catalyze the same reaction, their enzymatic properties and gene expression profiles indicate that they play distinct physiological roles in P. aeruginosa, as reflected by different phenotypes displayed by the mutants.
Highlights
GlcUA) accompanied by the reduction of two molecules of NADϩ
The cellular functions of UDP-glucose dehydrogenase (UGDH) have been investigated in a number of organisms, and these studies demonstrate its importance in detoxification, polysaccharide biosynthesis, and embryonic development [2]
Because the predicted mass of PA2022 and PA3559 is 54.5 and 57.4 kDa, respectively, both proteins are probably present in a dimeric form in native conditions, as found for the E. coli UGDH
Summary
RJ004 RJ003 HY1001 HY1002 pmrE05 pmrE03 pmrE04 pmrE06 RJ010 RJ011 RJ014 RJ015 RJ020 RJ021. G3PDH, forward G3PDH, reverse PA3559 detection, forward PA3559 detection, reverse PA2022 detection, forward PA2022 detection, reverse. Study attempts to identify the UGDH encoding gene in P. aeruginosa PAO1 and to investigate the biochemistry and functional roles of this enzyme in this important pathogen. This study first demonstrates that at least two P. aeruginosa genes can encode a product with UGDH activity, each with a distinct expression pattern and enzyme kinetic parameters. The presence of two types of UGDH motivated the construction of deletion mutants for each of the genes, and this study analyzes and reports on the functional roles of these genes in several biological properties of P. aeruginosa PAO1
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