Parallel molecular dynamics simulation in NPT ensemble and its application to general anesthesia

Author

Oh, Kwang Jin ; Klein, Michael L.

Author_Institution

Supercomput. Center, Korea Inst. of Sci. & Technol. Inf., Daejeon

fYear

2005

fDate

1-1 July 2005

Lastpage

152

Abstract

In this paper, we describe a parallel molecular dynamics simulation scheme in NPT ensemble which can be used for studying molecular systems with bond constraints. As an example of application, we choose to investigate general anesthesia whose molecular mechanism is largely unknown. In doing that, we performed two simulations. One is pure lipid bilayer simulation and the other is lipid bilayer simulation with 50 mol% halothane (which is a well-known inhaled anesthetic). From the simulations, we have found that d-spacing increases and area per molecule decreases in the presence of the halothane molecules. We have also found that the halothane molecules are distributed in the hydrophobic tail region, but near headgroup region

Keywords

bond angles; bond lengths; lipid bilayers; macromolecules; medical computing; molecular biophysics; molecular dynamics method; organic compounds; parallel algorithms; NPT ensemble; general anesthesia; halothane molecules; hydrophobic tail; inhaled anesthetics; lipid bilayer simulation; molecular bond constraints; near-patient testing ensemble; parallel molecular dynamics simulation; Anesthesia; Anesthetic drugs; Atomic measurements; Biomembranes; Bonding; Chemical technology; Chemistry; Computational modeling; Lipidomics; Proteins;

fLanguage

English

Publisher

ieee

Conference_Titel

High-Performance Computing in Asia-Pacific Region, 2005. Proceedings. Eighth International Conference on

Conference_Location

Beijing

Print_ISBN

0-7695-2486-9

Type

conf

DOI

10.1109/HPCASIA.2005.69

Filename

1592262