Emerging role of carbonyl-carbonyl interactions in the classification of beta turns

Protein Sci. 2024 Feb;33(2):e4868. doi: 10.1002/pro.4868.

Abstract

Carbonyl-carbonyl interactions in peptides and proteins attracted considerable interest in recent years. Here, we report a survey of carbonyl-carbonyl interactions in cyclic peptides, depsipeptides, peptoids and discuss the relationship between backbone torsion angles and CO∙∙∙CO distances. In general, φ values in the range between -40° and -90° and between 40° and 90° correspond to CO∙∙∙CO distances below 3.22 Å. By extending the analysis of carbonyl-carbonyl interactions in different types of beta turns in proteins, we also highlight the role of direct or reciprocal carbonyl-carbonyl interactions in stabilizing the beta turn conformation for each specific type. We confirmed the new type II beta turn, detected by Dunbrack and coworkers, and named Pa, and detect the presence of a direct carbonyl-carbonyl interaction between the second and third residues of the turn. We also evidenced the existence of another new type II beta turn, named pA (following Dunbrack's notation), which represents the alternative conformation of Pa with opposite φ and ψ values and is characterized by a direct carbonyl-carbonyl interaction between the second and third residues of the turn. Finally, we show that the occurrence of CO∙∙∙CO interactions could be also advocated to explain from a chemical point of view the diversity of turn types.

Keywords: backbone torsion angles; beta turns; carbonyl-carbonyl interactions; peptoids; protein structure; secondary structures.

MeSH terms

  • Hydrogen Bonding
  • Peptides* / chemistry
  • Peptides, Cyclic
  • Protein Conformation
  • Proteins* / chemistry

Substances

  • Peptides
  • Proteins
  • Peptides, Cyclic