Theoretical Modeling of Enzyme Reactions:  The Thermodynamics of Formation of Compound 0 in Horseradish Peroxidase

Zazza, Costantino; Amadei, Andrea; Palma, Amedeo; Sanna, Nico; Tatoli, Simone; Aschi, Massimiliano

doi:10.1021/jp0774692

Cited by 24 publications

(40 citation statements)

References 41 publications

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“…Similar conclusion was drawn in our previous paper (15), where it was found that after an exothermic and mechanically hindered proton transfer (from H 2 O 2 to His42), the reaction pocket at room temperature is in equilibrium between two conformations, differing essentially for the His42 position, and Cpd0 formation is therefore characterized by a large entropic contribution.…”

Section: Introductionsupporting

confidence: 90%

“…HRP structure (see Figure 2) is dominated by alphahelices with only two short anti-parallel beta-strands. This important feature, as already outlined in previous studies, (15,38) To this end, we report in Figure 4 the atom composition of the first two ED eigenvectors. In order to asses the actual differences between the internal fluctuations of the two systems we also calculated the average difference, and the related maximum error, between WT-HRP and R38L…”

Section: Structural and Mechanical Properties Of Hrp-h 2 O 2 And R38lsupporting

confidence: 66%

“…The above residues are supposed to play a relevant role (3). As a matter of fact, Cpd0, a ferric-hydroperoxide anion, has been shown both experimentally (4)(5)(6)(7)(8)(9) and theoretically (10)(11)(12)(13)(14)(15) to be formed via deprotonation of H 2 O 2 by His42 acting as a base.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The role of Arginine 38 in horseradish peroxidase enzyme revisited: A computational investigation

Tatoli¹,

Zazza²,

Sanna³

et al. 2009

Biophysical Chemistry

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Section: Introductionsupporting

confidence: 90%

Section: Structural and Mechanical Properties Of Hrp-h 2 O 2 And R38lsupporting

confidence: 66%

See 1 more Smart Citation

The role of Arginine 38 in horseradish peroxidase enzyme revisited: A computational investigation

Tatoli¹,

Zazza²,

Sanna³

et al. 2009

Biophysical Chemistry

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“…3b,5e–f Details are given in the Supporting Information (SI), and those more specific to the paper are given here briefly. Since Cpd 0 was experimentally shown to exist in both the WT and MT enzymes, we started from the WT PDB 1SUO, 6a replaced the inhibitor by the OOH group, added missing hydrogen atoms, took care of the protonation states of acidic and basic residues, 3b,5d,f and followed with geometry optimization and molecular dynamic (MD) simulations. The F429H mutant was initially generated by replacing Phe429 by His, followed by minimization of the protein.…”

mentioning

confidence: 99%

“…The so resulting WT and MT enzymes were both found to generate Cpd I with minor quantitative differences in the barriers of heterolytic cleavage (SI, Table S1). We therefore extended the MD simulation to 60 ns and extracted from the MD trajectories the most highly sampled conformational basins, 6b termed hereafter as, LWi and LMi, where L stands for long MD, W for the WT enzyme and M for the MT, i is the number of the basin. The WT enzyme prefers conformation LW1 and LW3.…”

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confidence: 99%

A Single-Site Mutation (F429H) Converts the Enzyme CYP 2B4 into a Heme Oxygenase: A QM/MM Study

et al. 2012

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The intriguing deactivation of the cytochrome P450 (CYP) 2B4 enzyme induced by a mutation of a single residue, Phe429 to His, is explored by means of quantum mechanical/molecular mechanical (QM/MM) calculations of the O-OH bond activation of the (Fe3+OOH)− intermediate. It is found that the F429H mutant of CYP 2B4 undergoes homolytic, instead of heterolytic, O-OH bond cleavage. Thus, the mutant acquires the following characteristics of a heme oxygenase (HO) enzyme: (a) The donation by His429 of an additional NH---S H-bond to the cysteine ligand combined with the presence of the substrate retard the heterolytic cleavage and give rise to homolytic O-OH cleavage, and (b) the Thr302/water cluster orients the nascent OH• close to the meso position of the porphyrin, and ensures an efficient meso hydroxylation.

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Compound I in horseradish peroxidase enzyme: Magnetic state assessment by quadratric configuration interaction calculations

Zazza¹,

Sanna²,

Tatoli

et al. 2009

Int J of Quantum Chemistry

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Quadratic configuration interaction procedure with single and double electronic excitations (QCISD) has been used, for the first time, to calculate the electronic structure of the Compound I (CpdI), which represents a key intermediate in the catalytic cycle of Horseradish Peroxidase (HRP) enzyme. The QCISD method is applied to lowest quasi-isoenergetic doublet and quartet spin multiplicity and results compared with density functional theory (DFT/B3LYP) data. This investigation shows that, at present, QCISD is more accurate than DFT-based approach in discriminating between the two lowest magnetic states of CpdI complex in HRP enzyme. Such a result opens the possibility of theoretically addressing the reaction mechanism leading to CpdI complex in HRP using a correlated wavefunction based approach.

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Theoretical Modeling of Enzyme Reactions: The Thermodynamics of Formation of Compound 0 in Horseradish Peroxidase

Cited by 24 publications

References 41 publications

The role of Arginine 38 in horseradish peroxidase enzyme revisited: A computational investigation

The role of Arginine 38 in horseradish peroxidase enzyme revisited: A computational investigation

A Single-Site Mutation (F429H) Converts the Enzyme CYP 2B4 into a Heme Oxygenase: A QM/MM Study

Compound I in horseradish peroxidase enzyme: Magnetic state assessment by quadratric configuration interaction calculations

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