Stabilization of local structures by {pi}-CH and aromatic-backbone amide interactions involving prolyl and aromatic residues

doi:10.1093/protein/14.8.543

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Protein Engineering, Vol. 14, No. 8, 543-547, August 2001
© 2001 Oxford University Press

Stabilization of local structures by ${pi}$ –CH and aromatic–backbone amide interactions involving prolyl and aromatic residues

Gergely Tóth, Richard F. Murphy and Sándor Lovas^,1

Department of Biomedical Sciences, School of Medicine, Creighton University, 2500 California Plaza, Omaha, NE 68178, USA

Weakly polar interactions between the side-chain aromatic ringsand hydrogens of backbone amides (Ar–HN) and CHn of aliphaticgroups ( ${pi}$ –CH) are known to form local structures and tostabilize secondary structure in peptides and proteins. To investigatethe existence of these interactions and to explore their possiblerole in constraining the structures of Pro–Xaa and Xaa–Profragments in proteins, a database search was performed in anon-redundant set of proteins from the Brookheaven Protein DataBank for ${pi}$ –CH and Ar–HN interactions in Pro–Xaaand Xaa–Pro fragments (where Xaa is either Phe, Tyr orTrp). In Xaa–Pro fragments, the percentage of ${pi}$ –CHinteractions and Ar–HN interactions, respectively, was20.6 and 3.2%, in Pro–Xaa fragments 26.8, 8.6 and 4.0%of the Pro–Xaa fragments contained both interactions,while no Xaa–Pro fragments had both. The protein fragmentscontaining Ar–HN and/or ${pi}$ –CH interactions were clusteredon the basis of similarity of selected torsion angles. The clusteringresulted in well defined clusters. Thus, ${pi}$ –CH and Ar(i)–HN(i)interactions were able to constrain individual conformationsof the Pro–Xaa and Xaa–Pro fragments. These localstructures were found to be independent of the secondary structureof the polypeptide chains in which the fragments were found.

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Stabilization of local structures by –CH and aromatic–backbone amide interactions involving prolyl and aromatic residues

Stabilization of local structures by ${pi}$ –CH and aromatic–backbone amide interactions involving prolyl and aromatic residues