A computer simulation study of water drying at the interface of protein chains |
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Authors: | Huang Qiang Ding Shangwu Hua Chih-Yu Yang Hsiao-Ching Chen Cheng-Lung |
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Affiliation: | Department of Chemistry, National Sun Yat-sen University, Kaohsiung 80424, Taiwan, Republic of China. |
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Abstract: | This study investigated the water drying (cavitation) in the interfacial region of two chains of a dimeric protein by nanosecond molecular dynamics simulations using explicit water representation. Separation-induced cavity of water was directly observed in the region. We evaluated the separation length scale of two chains on which the drying transition occurs, and the average number of water molecules that are expelled from the interfacial region during the transition. The obtained values can be rationalized by Kelvin equation for finite lateral size of confinement [K. Lum and A. Luzar, Phys. Rev. E 56, R6283 (1997)]. Also, we found that the drying transition is accompanied by an exponential reduction in the average hydrogen-bond number per interfacial water molecule. The results of this study may deepen the understanding of how hydrophobic interaction drives the assembly of protein chains. |
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