Universal geometrical factor of protein conformations as a consequence of energy minimization

Authors

Ming Chya Wu, National Central University Taiwan
Mai Suan Li, Institute of Physics of the Polish Academy of Sciences
Wen Jong Ma, Academia Sinica, Institute Of Physics
Maksim Kouza, Institute of Physics of the Polish Academy of Sciences
Chin Kun Hu, Academia Sinica, Institute Of Physics

Document Type

Article

Publication Date

12-1-2011

Abstract

The biological activity and functional specificity of proteins depend on their native three-dimensional structures determined by inter- and intra-molecular interactions. In this paper, we investigate the geometrical factor of protein conformation as a consequence of energy minimization in protein folding. Folding simulations of 10 polypeptides with chain length ranging from 183 to 548 residues manifest that the dimensionless ratio (V/A〈r〉) of the van der Waals volume V to the surface area A and average atomic radius 〈r〉 of the folded structures, calculated with atomic radii setting used in SMMP (Eisenmenger F. et al., Comput. Phys. Commun., 138 (2001) 192), approach 0.49 quickly during the course of energy minimization. A large scale analysis of protein structures shows that the ratio for real and well-designed proteins is universal and equal to 0.4910.005. The fractional composition of hydrophobic and hydrophilic residues does not affect the ratio substantially. The ratio also holds for intrinsically disordered proteins, while it ceases to be universal for polypeptides with bad folding properties. Copyright © EPLA, 2011.

Publication Title

EPL

Recommended Citation

Wu, M., Li, M., Ma, W., Kouza, M., & Hu, C. (2011). Universal geometrical factor of protein conformations as a consequence of energy minimization. EPL, 96(6). http://doi.org/10.1209/0295-5075/96/68005
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/13126