International Journal of Pharma and Bio Sciences V1(1)2010 EXPLORING THE ROLE OF C–H….Π INTERACTIONS ON THE STRUCTURAL STABILITY OF MEMBRANE PROTEINS 1 www.ijpbs.net Bioinformatics * Bioinformatics Division, School of Biosciences and Technology, Vellore Institute of Technology, Vellore 632014, Tamil Nadu, India. * Corresponding author rsethumadhavan@vit.ac.in C–H...π interactions are known to be important contributors to protein stability. In this study, we have analyzed the influence of C–H…π interactions on the structural stability of membrane proteins. In the data set, a total of 408 C–H….π interactions were observed. The most prominent representatives are the interactions between aromatic C–H donor groups and aromatic π acceptors. Ninety four percent of the C–H….π interactions between side chain to side chain and remaining six percent of the C–H….π interactions were observed between side- chain to side-chain five-membered aromatic ring. Long-range C–H….π interactions are the predominant type of interactions in membrane proteins data set. The secondary structure preference, solvent accessibility and stabilization centers of C–H….π interacting residues were estimated. Moreover, the study shows that 72% of the donor residues and 68% of the acceptor residues are highly conserved. . It is concluded that the C–H….π interaction can, indeed, be categorized as a true stabilizing force in membrane proteins. C–H….π interactions; Secondary structure; Interactions range; Solvent accessibility; Conservation.