Helical twists and ß-turns in structures at serine-proline sequences: Stabilization of cis-proline and type VI ß-turns via C-H/O interactions.

ABSTRACT

Structures at serine-proline sites in proteins were analyzed using a combination of peptide synthesis with structural methods and bioinformatics analysis of the PDB. Dipeptides were synthesized with the proline derivative (2S,4S)-(4-iodophenyl)hydroxyproline [hyp(4-I-Ph)]. The crystal structure of Boc-Ser-hyp(4-I-Ph)-OMe had two molecules in the unit cell. One molecule exhibited cis-proline and a type VIa2 ß-turn (BcisD). The cis-proline conformation was stabilized by a C-H/O interaction between Pro C-Hα and the Ser side-chain oxygen. NMR data were consistent with stabilization of cis-proline by a C-H/O interaction in solution. The other crystallographically observed molecule had trans-Pro and both residues in the PPII conformation. Two conformations were observed in the crystal structure of Ac-Ser-hyp(4-I-Ph)-OMe, with Ser adopting PPII in one and the ß conformation in the other, each with Pro in the δ conformation and trans-Pro. Structures at Ser-Pro sequences were further examined via bioinformatics analysis of the PDB and via DFT calculations. Ser-Pro versus Ala-Pro sequences were compared to identify bases for Ser stabilization of local structures. C-H/O interactions between the Ser side-chain Oγ and Pro C-Hα were observed in 45% of structures with Ser-cis-Pro in the PDB, with nearly all Ser-cis-Pro structures adopting a type VI ß-turn. 53% of Ser-trans-Pro sequences exhibited main-chain COi•••HNi+3 or COi•••HNi+4 hydrogen bonds, with Ser as the i residue and Pro as the i + 1 residue. These structures were overwhelmingly either type I ß-turns or N-terminal capping motifs on α-helices or 310-helices. These results indicate that Ser-Pro sequences are particularly potent in favoring these structures. In each, Ser is in either the PPII or ß conformation, with the Ser Oγ capable of engaging in a hydrogen bond with the amide N-H of the i + 2 (type I ß-turn or 310-helix; Ser χ1 t) or i + 3 (α-helix; Ser χ1 g+) residue. Non-proline cis amide bonds can also be stabilized by C-H/O interactions.