N‐ and C‐capping preferences for all 20 amino acids in α‐helical peptides

Abstract

We have determined the N‐ and C‐capping preferences of all 20 amino acids by substituting residue X in the peptides NH₂‐XAKAAAAKAAAAKAAGY‐CONH₂ and in Ac‐YGAAKAAAAKAAAAKAX‐CO₂H. Helix contents were measured by CD spectroscopy to obtain rank orders of capping preferences. The data were further analyzed by our modified Lifson‐Roig helix‐coil theory, which includes capping parameters (n and c), to find free energies of capping (‐RT In n and —RT In c), relative to Ala. Results were obtained for charged and uncharged termini and for different charged states of titratable side chains. N‐cap preferences varied from Asn (best) to Gin (worst). We find, as expected, that amino acids that can accept hydrogen bonds from otherwise free backbone NH groups, such as Asn, Asp, Ser, Thr, and Cys generally have the highest N‐cap preference. Gly and the acetyl group are favored, as are negative charges in side chains and at the N‐terminus. Our N‐cap preference scale agrees well with preferences in proteins. In contrast, we find little variation when changing the identity of the C‐cap residue. We find no preference for Gly at the C‐cap in contrast to the situation in proteins. Both N‐cap and C‐cap results for Tyr and Trp are inaccurate because their aromatic groups affect the CD spectrum. The data presented here are of value in rationalizing mutations at capping sites in proteins and in predicting the helix contents of peptides.