Abstract
HisB from Escherichia coli is a bifunctional enzyme catalyzing the sixth and eighth steps of l-histidine biosynthesis. The N-terminal domain (HisB-N) possesses histidinol phosphate phosphatase activity, and its crystal structure shows a single domain with fold similarity to the haloacid dehalogenase (HAD) enzyme family. HisB-N forms dimers in the crystal and in solution. The structure shows the presence of a structural Zn(2+) ion stabilizing the conformation of an extended loop. Two metal binding sites were also identified in the active site. Their presence was further confirmed by isothermal titration calorimetry. HisB-N is active in the presence of Mg(2+), Mn(2+), Co(2+), or Zn(2+), but Ca(2+) has an inhibitory effect. We have determined structures of several intermediate states corresponding to snapshots along the reaction pathway, including that of the phosphoaspartate intermediate. A catalytic mechanism, different from that described for other HAD enzymes, is proposed requiring the presence of the second metal ion not found in the active sites of previously characterized HAD enzymes, to complete the second half-reaction. The proposed mechanism is reminiscent of two-Mg(2+) ion catalysis utilized by DNA and RNA polymerases and many nucleases. The structure also provides an explanation for the inhibitory effect of Ca(2+).
Highlights
HisB from Escherichia coli is a bifunctional enzyme catalyzing the sixth and eighth steps of L-histidine biosynthesis
The N-terminal domain (HisB-N) possesses histidinol phosphate phosphatase activity, and its crystal structure shows a single domain with fold similarity to the haloacid dehalogenase (HAD) enzyme family
A catalytic mechanism, different from that described for other HAD enzymes, is proposed requiring the presence of the second metal ion not found in the active sites of previously characterized HAD enzymes, to complete the second half-reaction
Summary
Other structures were isomorphous to the native crystals and were refined, starting from the HisB-N1⁄7Mg model, at resolutions ranging from 1.75 to 2.2 Å. Each 100-l reaction mixture contained 25 mM Tris-HCl (pH 7.5), 70 nM enzyme, 25 M Mg2ϩ, and 200 M histidinol phosphate. A volume of 20 l of 0.035% (w/v) malachite green in 0.35% (w/v) polyvinyl alcohol (Mr 14000) in water was added after a 10-min incubation for color development. A reaction time course was monitored by incubating 10 M enzyme (native and mutants) with 2– 4 mM histidinol phosphate and 5 mM MgCl2/CaCl2. EDTA for 30 min were chromatographed on a Superose-12 16/60 column with Chelex-treated buffer to remove any bound metal ions. Phosphate, 5 mM MgCl2 or CaCl2, and 50 M HisB-N was incubated at 21 °C for 30 min.
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