Abstract

A consideration of the surrounding environment is necessary for a meaningful analysis of the reaction activity in large molecular systems. We propose an approach to perform unrestricted Hartree-Fock (UHF) calculations within the framework of the fragment molecular orbital (FMO) method (FMO-UHF) to study large systems with unpaired electrons. Prior to an energy analysis one has to optimize geometry, which requires an accurate analytic energy gradient. We derive the FMO-UHF energy and its analytic gradient and implement them into GAMESS. The performance of FMO-UHF is evaluated for a solvated organic molecule and a solvated metal complex, as well as for the active part of a protein, in terms of energy, gradient, and geometry optimization.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Efficient and accurate fragmentation methods.
Spencer R Pruitt ... Colleen Bertoni
Accounts of Chemical Research | VOL. 47
Spencer R Pruitt, et. al.Spencer R Pruitt ... Colleen Bertoni
08 May 2014
Prediction of cyclin-dependent kinase 2 inhibitor potency using the fragment molecular orbital method.
Michael P Mazanetz ... Richard J Law
Journal of Cheminformatics | VOL. 3
Michael P Mazanetz, et. al.Michael P Mazanetz ... Richard J Law
10 Jan 2011
Geometry Optimizations of Open-Shell Systems with the Fragment Molecular Orbital Method
Spencer R Pruitt ... Dmitri G Fedorov
The journal of physical chemistry. A | VOL. 116
Spencer R Pruitt, et. al.Spencer R Pruitt ... Dmitri G Fedorov
11 May 2012
Analysis of solute-solvent interactions using the solvation model density combined with the fragment molecular orbital method
Dmitri G Fedorov
Chemical physics letters | VOL. 702
Dmitri G FedorovDmitri G Fedorov
03 May 2018
View more papers

More From: The Journal of Chemical Physics

Paper Title
Journal
Date
Author
Accelerating structure search using atomistic graph-based classifiers.
Andreas Møller Slavensky ... Bjørk Hammer
The Journal of Chemical Physics | VOL. 161
Andreas Møller Slavensky, et. al.Andreas Møller Slavensky ... Bjørk Hammer
07 Jul 2024
Multi-armed bandit algorithm for sequential experiments of molecular properties with dynamic feature selection.
Md Menhazul Abedin ... Tamiki Komatsuzaki
The Journal of Chemical Physics | VOL. 161
Md Menhazul Abedin, et. al.Md Menhazul Abedin ... Tamiki Komatsuzaki
03 Jul 2024
Multitask methods for predicting molecular properties from heterogeneous data.
K E Fisher ... Y M Marzouk
The Journal of Chemical Physics | VOL. 161
K E Fisher, et. al.K E Fisher ... Y M Marzouk
03 Jul 2024
Influence of cholesterol on hydrogen-bond dynamics of water molecules in lipid-bilayer systems at varying temperatures.
Kokoro Shikata ... Nobuyuki Matubayasi
The Journal of Chemical Physics | VOL. 161
Kokoro Shikata, et. al.Kokoro Shikata ... Nobuyuki Matubayasi
03 Jul 2024
View more papers