New ways to boost molecular dynamics simulations
Elmar Krieger,Gert Vriend +1 more
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A set of algorithms that allow to simulate dihydrofolate reductase (DHFR, a common benchmark) with the AMBER all‐atom force field at 160 nanoseconds/day on a single Intel Core i7 5960X CPU are described.Abstract:
We describe a set of algorithms that allow to simulate dihydrofolate reductase (DHFR, a common benchmark) with the AMBER all-atom force field at 160 nanoseconds/day on a single Intel Core i7 5960X CPU (no graphics processing unit (GPU), 23,786 atoms, particle mesh Ewald (PME), 8.0 A cutoff, correct atom masses, reproducible trajectory, CPU with 3.6 GHz, no turbo boost, 8 AVX registers). The new features include a mixed multiple time-step algorithm (reaching 5 fs), a tuned version of LINCS to constrain bond angles, the fusion of pair list creation and force calculation, pressure coupling with a "densostat," and exploitation of new CPU instruction sets like AVX2. The impact of Intel's new transactional memory, atomic instructions, and sloppy pair lists is also analyzed. The algorithms map well to GPUs and can automatically handle most Protein Data Bank (PDB) files including ligands. An implementation is available as part of the YASARA molecular modeling and simulation program from www.YASARA.org.read more
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Evidence of perinatal transmission of Zika virus, French Polynesia, December 2013 and February 2014.
TL;DR: The clinical and laboratory features of two mothers and their newborns who had ZikAV infection as confirmed by ZIKAV RT-PCR performed on serum collected within four days post-delivery in date are described.
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A molecular modeling approach to identify effective antiviral phytochemicals against the main protease of SARS-CoV-2.
R. Islam,Rimon Parves,Archi Sundar Paul,Nizam Uddin,Sajjadur Rahman,Abdulla Al Mamun,Nayeem Hossain,Ackas Ali,Mohammad A. Halim +8 more
TL;DR: The comprehensive computational and statistical analysis show that these selected phytochemicals can be used as potential inhibitors against the SARS-CoV-2 and ADMET analysis demonstrates that these candidates appear to be safer inhibitors.
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Putative Inhibitors of SARS-CoV-2 Main Protease from A Library of Marine Natural Products: A Virtual Screening and Molecular Modeling Study.
Davide Gentile,Vincenzo Patamia,Angela Scala,Maria Teresa Sciortino,Anna Piperno,Antonio Rescifina +5 more
TL;DR: Seventeen potential SARS-CoV-2 Mpro inhibitors have been identified among the natural substances of marine origin, and the likelihood that at least one of these compounds could be bioactive is excellent.
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In silico prediction of potential inhibitors for the main protease of SARS-CoV-2 using molecular docking and dynamics simulation based drug-repurposing.
TL;DR: Among the library of FDA approved antiviral drugs, the top three inhibitors Lopinavir-Ritonavir, Tipranavir and Raltegravir show the best molecular interaction with the main protease of SARS-CoV-2.
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Crowding in Cellular Environments at an Atomistic Level from Computer Simulations.
TL;DR: Computer simulations of atomistic models of concentrated peptide and protein systems at different levels of complexity are beginning to provide new insights into the effects of crowding in biological environments on biomolecular structure, dynamics, and function.
References
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TL;DR: In this paper, a method is described to realize coupling to an external bath with constant temperature or pressure with adjustable time constants for the coupling, which can be easily extendable to other variables and to gradients, and can be applied also to polyatomic molecules involving internal constraints.
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Numerical Integration of the Cartesian Equations of Motion of a System with Constraints: Molecular Dynamics of n-Alkanes
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A smooth particle mesh Ewald method
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Journal ArticleDOI
Scalable molecular dynamics with NAMD
James C. Phillips,Rosemary Braun,Wei Wang,James C. Gumbart,Emad Tajkhorshid,Elizabeth Villa,Christophe Chipot,Robert D. Skeel,Laxmikant V. Kale,Klaus Schulten +9 more
TL;DR: NAMD as discussed by the authors is a parallel molecular dynamics code designed for high-performance simulation of large biomolecular systems that scales to hundreds of processors on high-end parallel platforms, as well as tens of processors in low-cost commodity clusters, and also runs on individual desktop and laptop computers.
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GROMACS 4: Algorithms for highly efficient, load-balanced, and scalable molecular simulation
TL;DR: A new implementation of the molecular simulation toolkit GROMACS is presented which now both achieves extremely high performance on single processors from algorithmic optimizations and hand-coded routines and simultaneously scales very well on parallel machines.
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