Zhou, Yuan-Wu; Liu, Jin-Long; Yu, Zu-Guo; Zhao, Ni Qin; Anh, Vo
Fractal and complex network analyses of protein molecular dynamics
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 416:21-32, DEC 15 2014

Based on protein molecular dynamics, we investigate the fractal properties of energy, pressure and volume time series using the multifractal detrended fluctuation analysis (MF-DFA) and the topological and fractal properties of their converted horizontal visibility graphs (HVGs). The energy parameters of protein dynamics we considered are bonded potential, angle potential, dihedral potential, improper potential, kinetic energy, Van der Waals potential, electrostatic potential, total energy and potential energy. The shape of the h(q) curves from MF-DFA indicates that these time series are multifractal. The numerical values of the exponent h(2) of MF-DFA show that the series of total energy and potential energy are non-stationary and anti-persistent; the other time series are stationary and persistent apart from series of pressure (with H approximate to 0.5 indicating the absence of long-range correlation). The degree distributions of their converted HVGs show that these networks are exponential. The results of fractal analysis show that fractality exists in these converted HVGs. For each energy, pressure or volume parameter, it is found that the values of h(2) of MF-DFA on the time series, exponent lambda of the exponential degree distribution and fractal dimension d(B) of their converted HVGs do not change much for different proteins (indicating some universality). We also found that after taking average over all proteins, there is a linear relationship between (h(2)) (from MF-DFA on time series) and < d(B)> of the converted HVGs for different energy, pressure and volume. (C) 2014 Elsevier B.V. All rights reserved.

DOI:10.1016/j.physa.2014.08.047

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