Hybrid QM/MM study of thio effects in transphosphorylation reactions: The role of solvation

Brent A. Gregersen; Xabier Lopez; Darrin M. York

doi:10.1021/ja031815l

Hybrid QM/MM study of thio effects in transphosphorylation reactions: The role of solvation

Brent A. Gregersen, Xabier Lopez, Darrin M. York

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57 Scopus citations

Abstract

Transphosphorylation thio effects in solution are studied using hybrid QM/MM calculations with a d-orbital semiempirical Hamiltonian. Activated dynamics simulations were performed for a 3′ ribose-phosphate model in an explicit 20 Å sphere of TIP3P water surrounded by a solvent boundary potential, and free energy analysis was performed using the weighted histogram analysis method. Single thio-substitutions at all of the phosphoryl oxygen positions and a double thio-substitution at the nonbridging positions were considered. The reaction free energy profiles are compared with available experimental data, and the role of solvation on the barrier heights and reaction coordinate is discussed. These results provide an important step in the characterization of thio effects in reactions of biological phosphates that may aid in the interpretation of kinetic data and ultimately help to unravel the catalytic mechanisms of ribozymes.

Original language	English (US)
Pages (from-to)	7504-7513
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	126
Issue number	24
DOIs	https://doi.org/10.1021/ja031815l
State	Published - Jun 23 2004
Externally published	Yes

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/ja031815l

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title = "Hybrid QM/MM study of thio effects in transphosphorylation reactions: The role of solvation",

abstract = "Transphosphorylation thio effects in solution are studied using hybrid QM/MM calculations with a d-orbital semiempirical Hamiltonian. Activated dynamics simulations were performed for a 3′ ribose-phosphate model in an explicit 20 {\AA} sphere of TIP3P water surrounded by a solvent boundary potential, and free energy analysis was performed using the weighted histogram analysis method. Single thio-substitutions at all of the phosphoryl oxygen positions and a double thio-substitution at the nonbridging positions were considered. The reaction free energy profiles are compared with available experimental data, and the role of solvation on the barrier heights and reaction coordinate is discussed. These results provide an important step in the characterization of thio effects in reactions of biological phosphates that may aid in the interpretation of kinetic data and ultimately help to unravel the catalytic mechanisms of ribozymes.",

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TY - JOUR

T1 - Hybrid QM/MM study of thio effects in transphosphorylation reactions

T2 - The role of solvation

AU - Gregersen, Brent A.

AU - Lopez, Xabier

AU - York, Darrin M.

PY - 2004/6/23

Y1 - 2004/6/23

N2 - Transphosphorylation thio effects in solution are studied using hybrid QM/MM calculations with a d-orbital semiempirical Hamiltonian. Activated dynamics simulations were performed for a 3′ ribose-phosphate model in an explicit 20 Å sphere of TIP3P water surrounded by a solvent boundary potential, and free energy analysis was performed using the weighted histogram analysis method. Single thio-substitutions at all of the phosphoryl oxygen positions and a double thio-substitution at the nonbridging positions were considered. The reaction free energy profiles are compared with available experimental data, and the role of solvation on the barrier heights and reaction coordinate is discussed. These results provide an important step in the characterization of thio effects in reactions of biological phosphates that may aid in the interpretation of kinetic data and ultimately help to unravel the catalytic mechanisms of ribozymes.

AB - Transphosphorylation thio effects in solution are studied using hybrid QM/MM calculations with a d-orbital semiempirical Hamiltonian. Activated dynamics simulations were performed for a 3′ ribose-phosphate model in an explicit 20 Å sphere of TIP3P water surrounded by a solvent boundary potential, and free energy analysis was performed using the weighted histogram analysis method. Single thio-substitutions at all of the phosphoryl oxygen positions and a double thio-substitution at the nonbridging positions were considered. The reaction free energy profiles are compared with available experimental data, and the role of solvation on the barrier heights and reaction coordinate is discussed. These results provide an important step in the characterization of thio effects in reactions of biological phosphates that may aid in the interpretation of kinetic data and ultimately help to unravel the catalytic mechanisms of ribozymes.

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JF - Journal of the American Chemical Society

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Hybrid QM/MM study of thio effects in transphosphorylation reactions: The role of solvation

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