A first principles study of the binding of formic acid in catalase complementing high resolution X-ray structures

Carme Rovira; Mercedes Alfonso-Prieto; Xevi Biarnés; Xavi Carpena; Ignacio Fita; Peter C. Loewen

doi:10.1016/j.chemphys.2005.08.049

A first principles study of the binding of formic acid in catalase complementing high resolution X-ray structures

Carme Rovira^*
, Mercedes Alfonso-Prieto
, Xevi Biarnés
, Xavi Carpena
, Ignacio Fita
, Peter C. Loewen

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

10 Citations (Scopus)

Abstract

Density functional molecular dynamics simulations using a QM/MM approach are used to get insight into the binding modes of formic acid in catalase. Two ligand binding sites are found, named A and B, in agreement with recent high resolution structures of catalase with bound formic acid. In addition, the calculations show that the His56 residue is protonated and the ligand is present as a formate anion. The lowest energy minimum structure (A) corresponds to the ligand interacting with both the heme iron and the catalytic residues (His56 and Asn129). The second minimum energy structure (B) corresponds to the situation in which the ligand interacts solely with the catalytic residues. A mechanism for the process of formic acid binding in catalase is suggested.

Original language	English
Pages (from-to)	129-137
Number of pages	9
Journal	Chemical Physics
Volume	323
Issue number	1
DOIs	https://doi.org/10.1016/j.chemphys.2005.08.049
Publication status	Published - 31 Mar 2006
Externally published	Yes

Keywords

Density-functional calculations
Molecular-dynamics
Compound-ii
Fe-co
Pseudopotentials
Simulations
Complexes
Formate
Energy
Bond

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10.1016/j.chemphys.2005.08.049

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title = "A first principles study of the binding of formic acid in catalase complementing high resolution X-ray structures",

abstract = "Density functional molecular dynamics simulations using a QM/MM approach are used to get insight into the binding modes of formic acid in catalase. Two ligand binding sites are found, named A and B, in agreement with recent high resolution structures of catalase with bound formic acid. In addition, the calculations show that the His56 residue is protonated and the ligand is present as a formate anion. The lowest energy minimum structure (A) corresponds to the ligand interacting with both the heme iron and the catalytic residues (His56 and Asn129). The second minimum energy structure (B) corresponds to the situation in which the ligand interacts solely with the catalytic residues. A mechanism for the process of formic acid binding in catalase is suggested.",

keywords = "Density-functional calculations, Molecular-dynamics, Compound-ii, Fe-co, Pseudopotentials, Simulations, Complexes, Formate, Energy, Bond",

author = "Carme Rovira and Mercedes Alfonso-Prieto and Xevi Biarn{\'e}s and Xavi Carpena and Ignacio Fita and Loewen, \{Peter C.\}",

note = "Funding Information: This work was supported by Grants 2001SGR-00044 (CIRIT) and FIS2005-00655 (MEC). The computer resources were provided by the Barcelona Supercomputing Center (BSC). Financial support from the Ramon y Cajal program of the MCYT and the ICREA foundation was provided. Support was also provided by NSERC (06900) and Canada Research Chair Program (PCL).",

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AU - Rovira, Carme

AU - Alfonso-Prieto, Mercedes

AU - Biarnés, Xevi

AU - Carpena, Xavi

AU - Fita, Ignacio

AU - Loewen, Peter C.

N1 - Funding Information: This work was supported by Grants 2001SGR-00044 (CIRIT) and FIS2005-00655 (MEC). The computer resources were provided by the Barcelona Supercomputing Center (BSC). Financial support from the Ramon y Cajal program of the MCYT and the ICREA foundation was provided. Support was also provided by NSERC (06900) and Canada Research Chair Program (PCL).

PY - 2006/3/31

Y1 - 2006/3/31

N2 - Density functional molecular dynamics simulations using a QM/MM approach are used to get insight into the binding modes of formic acid in catalase. Two ligand binding sites are found, named A and B, in agreement with recent high resolution structures of catalase with bound formic acid. In addition, the calculations show that the His56 residue is protonated and the ligand is present as a formate anion. The lowest energy minimum structure (A) corresponds to the ligand interacting with both the heme iron and the catalytic residues (His56 and Asn129). The second minimum energy structure (B) corresponds to the situation in which the ligand interacts solely with the catalytic residues. A mechanism for the process of formic acid binding in catalase is suggested.

AB - Density functional molecular dynamics simulations using a QM/MM approach are used to get insight into the binding modes of formic acid in catalase. Two ligand binding sites are found, named A and B, in agreement with recent high resolution structures of catalase with bound formic acid. In addition, the calculations show that the His56 residue is protonated and the ligand is present as a formate anion. The lowest energy minimum structure (A) corresponds to the ligand interacting with both the heme iron and the catalytic residues (His56 and Asn129). The second minimum energy structure (B) corresponds to the situation in which the ligand interacts solely with the catalytic residues. A mechanism for the process of formic acid binding in catalase is suggested.

KW - Density-functional calculations

KW - Molecular-dynamics

KW - Compound-ii

KW - Fe-co

KW - Pseudopotentials

KW - Simulations

KW - Complexes

KW - Formate

KW - Energy

KW - Bond

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A first principles study of the binding of formic acid in catalase complementing high resolution X-ray structures

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Keywords

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