Abstract
In this work, we examined the regulation by GTP and UTP of the UMP kinases from eight bacterial species. The enzyme from Gram-positive organisms exhibited cooperative kinetics with ATP as substrate. GTP decreased this cooperativity and increased the affinity for ATP. UTP had the opposite effect, as it decreased the enzyme affinity for ATP. The nucleotide analogs 5-bromo-UTP and 5-iodo-UTP were 5-10 times stronger inhibitors than the parent compound. On the other hand, UMP kinases from the Gram-negative organisms did not show cooperativity in substrate binding and catalysis. Activation by GTP resulted mainly from the reversal of inhibition caused by excess UMP, and inhibition by UTP was accompanied by a strong increase in the apparent K(m) for UMP. Altogether, these results indicate that, depending on the bacteria considered, GTP and UTP interact with different enzyme recognition sites. In Gram-positive bacteria, GTP and UTP bind to a single site or largely overlapping sites, shifting the T R equilibrium to either the R or T form, a scenario corresponding to almost all regulatory proteins, commonly called K systems. In Gram-negative organisms, the GTP-binding site corresponds to the unique allosteric site of the Gram-positive bacteria. In contrast, UTP interacts cooperatively with a site that overlaps the catalytic center, i.e. the UMP-binding site and part of the ATP-binding site. These characteristics make UTP an original regulator of UMP kinases from Gram-negative organisms, beyond the common scheme of allosteric control.
Highlights
Pasteur Grant ACO2 and by AstraZeneca R&D Boston
Purification and Specific Activity of Recombinant UMP Kinases—Because we did not observe significant differences in the specific activities of the wild-type or His-tagged forms of E. coli [7], H. influenzae, and B. subtilis [9] UMP kinases, the recombinant enzyme from the other bacterial species was overproduced with an N-terminal His tag and purified by affinity chromatography on nickel-nitrilotriacetic columns
In Gram-negative organisms (E. coli, S. typhimurium, H. influenzae, and N. meningitidis), the ratio of UMP kinase activity in the presence and absence of GTP was practically independent of the concentration of ATP, whereas in Gram-positive organisms (B. subtilis, S. pneumoniae, S. aureus, and E. faecalis), the activating effect of GTP was much higher at a low concentration of ATP
Summary
Chemicals—Nucleotides, restriction enzymes, T4 DNA ligase, Vent and Tfu DNA polymerases, and coupling enzymes were purchased from Roche Applied Science, New England Biolabs, Qbiogene Inc., or Sigma.
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