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Multigrid methods for classical molecular dynamics simulations of biomolecules (2001)

Sagui, Celeste ; Darden, Thomas

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 114 (2001), S. 6578-6591

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: We present an O(N) multigrid-based method for the efficient calculation of the long-range electrostatic forces needed for biomolecular simulations, that is suitable for implementation on massively parallel architectures. Along general lines, the method consists of: (i) a charge assignment scheme, which both interpolates and smoothly assigns the charges onto a grid; (ii) the solution of Poisson's equation on the grid via multigrid methods; and (iii) the back interpolation of the forces and energy from the grid to the particle space. Careful approaches for the charge assignment and the force interpolation, and a Hermitian approximation of Poisson's equation on the grid allow for the generation of the high-accuracy solutions required for high-quality molecular dynamics simulations. Parallel versions of the method scale linearly with the number of particles for a fixed number of processors, and with the number of processors, for a fixed number of particles. © 2001 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1352646

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A Molecular Dynamics Model of HIV-1 Reverse Transcriptase Complexed with DNA: Comparison with Experimental Structures (2000)

Li, Leping ; Pedersen, Lee G. ; Beard, William A. ; [et al.]

Springer

Journal of molecular modeling 6 (2000), S. 575-586

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ISSN: 0948-5023

Keywords: HIV-1 reverse transcriptase ; Minor groove binding track ; Particle-mesh Ewald

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract We have built a molecular dynamics model for human immunodeficiency virus (HIV-1) reverse transcriptase (RT) complexed with a 19/18-mer template/primer by combining the structural information of a low resolution crystal structure of a HIV-1 RT/DNA complex (1hmi) with that of a high resolution crystal structure of unliganded HIV-1 RT (1rtj). The process involved slow forcing of the α-carbons of 1rtj onto those of 1hmi using constrained MD simulations, while immersing the protein in aqueous solution. A similar technique was used to build the bent all-atom DNA duplex, which was then docked into the modeled protein. The resulting model complex was refined using molecular dynamics simulation with the Particle-mesh Ewald method employed to accommodate long-range electrostatic interactions. New parameters of the Amber force field that affect DNA twist are tested and largely validated. The model has been used successfully to explain the results of vertical scanning mutagenesis of residue 266 (Trp266). Recently, the low resolution crystal structure of the HIV-1 RT/DNA complex has been refined to a 2.8 Å resolution (2hmi) and a crystal structure of a HIV-1/RT/dTTP ternary complex has been determined at 3.2 Å resolution (1rtd). A detailed structural comparison of the prior model structure and the two experimental structures becomes possible. Overall, the three structures share many similarities. The root mean square deviations of the α-carbons for the individual subdomains among the three structures are within the same ranges. The secondary structure assignments in the three structures are nearly identical. Key protein-DNA contacts such as those in the region of the primer grip are also similar in the three structures.