Małgorzata Brindell scite author profile

Urease, a Ni-containing metalloenzyme, features an activity that has profound medical and agricultural implications. The mechanism of this activity, however, has not been as yet thoroughly established. Accordingly, to improve its understanding, in this study we analyzed the steady-state kinetic parameters of the enzyme (jack bean), KM and kcat, measured at different temperatures and pressures. Such an analysis is useful as it provides information on the molecular nature of the intermediate and transition states of the catalytic reaction. We measured the parameters in a noninteracting buffer using a stopped-flow technique in the temperature range 15–35 °C and in the pressure range 5–132 MPa, the pressure-dependent measurements being the first of their kind performed for urease. While temperature enhanced the activity of urease, pressure inhibited the enzyme; the inhibition was biphasic. Analyzing KM provided the characteristics of the formation of the ES complex, and analyzing kcat, the characteristics of the activation of ES. From the temperature-dependent measurements, the energetic parameters were derived, i.e. thermodynamic ΔHo and ΔSo for ES formation, and kinetic ΔH≠ and ΔS≠ for ES activation, while from the pressure-dependent measurements, the binding ΔVb and activation volumes were determined. The thermodynamic and activation parameters obtained are discussed in terms of the current proposals for the mechanism of the urease reaction, and they are found to support the mechanism proposed by Benini et al. (Structure 7:205–216; 1999), in which the Ni–Ni bridging hydroxide—not the terminal hydroxide—is the nucleophile in the catalytic reaction.Graphical abstract

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Interaction of apo-transferrin with anticancer ruthenium complexes NAMI-A and its reduced form

Mazuryk

Kurpiewska

Lewiński

et al. 2012

Journal of Inorganic Biochemistry

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Małgorzata Brindell

Bioinorganic Photochemistry: Frontiers and Mechanisms

Engineering of relevant photodynamic processes through structural modifications of metallotetrapyrrolic photosensitizers

Bioinorganic antimicrobial strategies in the resistance era

Temperature- and pressure-dependent stopped-flow kinetic studies of jack bean urease. Implications for the catalytic mechanism

Interaction of apo-transferrin with anticancer ruthenium complexes NAMI-A and its reduced form

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