Quantifying the accessible surface area of protein residues in their local environment

doi:10.1093/protein/15.8.659

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Protein Engineering, Vol. 15, No. 8, 659-667, August 2002
© 2002 Oxford University Press

Quantifying the accessible surface area of protein residues in their local environment

Uttamkumar Samanta¹^,2, Ranjit P. Bahadur²^,3 and Pinak Chakrabarti¹^,3^,4

¹ Bioinformatics Centre and ³ Department of Biochemistry, Bose Institute,P-1/12 CIT Scheme VIIM, Calcutta 700 054, India

The quantification of the packing of residues in proteins anddocking of ligands to macromolecules is important in understandingprotein stability and drug design. The number of atoms in contact(within a distance of 4.5 Å) can be used to describe thelocal environment of a residue. As this number increases, theaccessible surface area (ASA) of the residue decreases exponentiallyand the variation can be described in terms of an exponentialequation of the form y = a₁exp(–x/a₂), each residue havingits own set of parameters a₁ and a₂, which also depend on whetherthe whole residue or just the side chain is considered. Hydrophobicand hydrophilic residues can be distinguished on the basis ofboth the average number of surrounding atoms and the variationof ASA. For a given number of partner atoms, a comparison ofthe observed ASA with the expected value obtained from the equationprovides a method of assessing the goodness of packing of theresidue in a protein structure or its importance in the bindingof a ligand. The equation provides a method to estimate theASA of a protein molecule and the average relative accessibilitiesof different residues, the latter being inversely correlatedwith hydrophobicity values.

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Quantifying the accessible surface area of protein residues in their local environment