Sonavane, Shrihari ; Chakrabarti, Pinak (2008) Cavities and atomic packing in protein structures and interfaces PLoS Computational Biology, 4 (9). e1000188_1-e1000188_15. ISSN 1553-734X
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Official URL: http://www.ploscompbiol.org/article/info%3Adoi%2F1...
Related URL: http://dx.doi.org/10.1371/journal.pcbi.1000188
Abstract
A comparative analysis of cavities enclosed in a tertiary structure of proteins and interfaces formed by the interaction of two protein subunits in obligate and non-obligate categories (represented by homodimeric molecules and heterocomplexes, respectively) is presented. The total volume of cavities increases with the size of the protein (or the interface), though the exact relationship may vary in different cases. Likewise, for individual cavities also there is quantitative dependence of the volume on the number of atoms (or residues) lining the cavity. The larger cavities tend to be less spherical, solvated, and the interfaces are enriched in these. On average 15 Å3 of cavity volume is found to accommodate single water, with another 40-45 Å3 needed for each additional solvent molecule. Polar atoms/residues have a higher propensity to line solvated cavities. Relative to the frequency of occurrence in the whole structure (or interface), residues in β-strands are found more often lining the cavities, and those in turn and loop the least. Any depression in one chain not complemented by a protrusion in the other results in a cavity in the protein-protein interface. Through the use of the Voronoi volume, the packing of residues involved in protein-protein interaction has been compared to that in the protein interior. For a comparable number of atoms the interface has about twice the number of cavities relative to the tertiary structure.
Item Type: | Article |
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Source: | Copyright of this article belongs to Public Library of Science. |
ID Code: | 89212 |
Deposited On: | 24 Apr 2012 12:39 |
Last Modified: | 19 May 2016 03:48 |
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