Literature DB >> 26626844

An Efficient Linear-Scaling Electrostatic Coupling for Treating Periodic Boundary Conditions in QM/MM Simulations.

Teodoro Laino1, Fawzi Mohamed1, Alessandro Laio1, Michele Parrinello1.   

Abstract

A new linear-scaling method based on a multigrid approach to treat long-range electrostatic interactions in hybrid quantum mechanics/molecular mechanics (QM/MM) simulations is described. The scheme has been implemented in the context of a QM calculation based on density functional theory (DFT). The method is tested on an analytical model to validate the new algorithm. Two realistic problems in α-quartz crystals and a zwitterionic dipeptide (GLY-ALA) in water have been chosen as further tests. Results from QM/MM calculations with periodic boundary conditions (PBC) show that the use of PBC is essential when studying highly ordered crystal structures, unless a carefully designed MM crystal is used for the calculation. With a general shaped MM subsystem, the absence of PBC leads to an incorrect description of Kohn-Sham band gaps and charge density. The present method allows periodic boundary conditions to be used in molecular simulations of biological and material science systems.

Entities:  

Year:  2006        PMID: 26626844     DOI: 10.1021/ct6001169

Source DB:  PubMed          Journal:  J Chem Theory Comput        ISSN: 1549-9618            Impact factor:   6.006


  20 in total

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6.  Long-range electrostatic corrections in multipolar/polarizable QM/MM simulations.

Authors:  Eric G Kratz; Robert E Duke; G Andrés Cisneros
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7.  Electron Redistribution within the Nitrogenase Active Site FeMo-Cofactor During Reductive Elimination of H2 to Achieve N≡N Triple-Bond Activation.

Authors:  Dmitriy A Lukoyanov; Zhi-Yong Yang; Dennis R Dean; Lance C Seefeldt; Simone Raugei; Brian M Hoffman
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8.  Benchmark Study of the SCC-DFTB Approach for a Biomolecular Proton Channel.

Authors:  Ruibin Liang; Jessica M J Swanson; Gregory A Voth
Journal:  J Chem Theory Comput       Date:  2014-01-14       Impact factor: 6.006

9.  Multiscale Simulations Reveal Key Aspects of the Proton Transport Mechanism in the ClC-ec1 Antiporter.

Authors:  Sangyun Lee; Jessica M J Swanson; Gregory A Voth
Journal:  Biophys J       Date:  2016-03-29       Impact factor: 4.033

10.  Key computational findings reveal proton transfer as driving the functional cycle in the phosphate transporter PiPT.

Authors:  Yu Liu; Chenghan Li; Meghna Gupta; Nidhi Verma; Atul Kumar Johri; Robert M Stroud; Gregory A Voth
Journal:  Proc Natl Acad Sci U S A       Date:  2021-06-22       Impact factor: 11.205
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