| Abstract: | We introduce a new method for assessing the extent of residue exposure in proteins. For each atom of every residue a Gaussian-weighted atomic surroundings value (the G-neighborhood) is calculated. A normalized sum of G-neighborhood values over all the atoms of a residue is complementary to conventional surface accessibility characteristics. The G-0neighborhood value of a residue is a sensitive indicator of its location, strongly dependent on the 3D structure of a the protein. Correlations between secondary structures and patterns of G-neighborhood values for six different protein molecules are discussed. Comparison of the distribution of hydrophobic and charged residues in the 3D structure for the alcohol-soluble protein crambin and that of five water-soluble proteins (cytochrome c, flavodoxin, myoglobin, rhodanese, and Bence–Jones protein) shows striking differences in their G-neighborhood patterns. Contacts between the prosthetic group and the peptide portion of a protein as well as protein interdomain contacts and monomer–monomer contacts are characterized. © 1993 Wiley-Liss, Inc. |
