TY - JOUR

T1 - Assessment of three-dimensional distribution functions and triplet distribution functions for hard spheres calculated using a three-dimensional Ornstein-Zernike equation with hypernetted-chain closure

AU - Kubota, Yoji

AU - Akiyama, Ryo

PY - 2012/9

Y1 - 2012/9

N2 - We calculated three-dimensional distribution functions around a contact dimer composed of hard spheres immersed in a fluid composed of same-sized hard spheres calculated using a three-dimensional Ornstein-Zernike equation with hypernetted-chain closure (3D-HNC-OZ theory). The results of the 3D-HNC-OZ theory were compared with those calculated using Monte Carlo simulations. Even though the packing fraction of solvent was high, such as in ambient water, the 3D-HNC-OZ theory gave semiquantitatively reasonable results. This means that the triplet distribution function was also calculated reasonably well, although the triplet distribution functions are not explicitly included in the equations of the 3D-HNC-OZ theory. However, the accuracy depended on the configuration of the solute. Our results are discussed in a biological context, such as molecular recognition and the stability of folded proteins.

AB - We calculated three-dimensional distribution functions around a contact dimer composed of hard spheres immersed in a fluid composed of same-sized hard spheres calculated using a three-dimensional Ornstein-Zernike equation with hypernetted-chain closure (3D-HNC-OZ theory). The results of the 3D-HNC-OZ theory were compared with those calculated using Monte Carlo simulations. Even though the packing fraction of solvent was high, such as in ambient water, the 3D-HNC-OZ theory gave semiquantitatively reasonable results. This means that the triplet distribution function was also calculated reasonably well, although the triplet distribution functions are not explicitly included in the equations of the 3D-HNC-OZ theory. However, the accuracy depended on the configuration of the solute. Our results are discussed in a biological context, such as molecular recognition and the stability of folded proteins.

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U2 - 10.1143/JPSJS.81SA.SA017

DO - 10.1143/JPSJS.81SA.SA017

M3 - Article

AN - SCOPUS:84866375566

SN - 0031-9015

VL - 81

JO - journal of the physical society of japan

JF - journal of the physical society of japan

IS - SUPPL. A

M1 - SA017

ER -