The &mu opioid heptapeptide Dermorphin (DRM) is under 70% of trans forms for the Tyr⁵-Pro⁶ peptide bond in solution (CDCl₃/DMSO-d₆ 1/1 vol/vol). Variations of NOE integrals at 5 temperatures show apparent correlation times of 0.8 to 0.9 ns (at 280 K) in that mixed solvent. Four NOE between non-adjacent residues reveal a large population of folded structures. However, in trans DRM, 4 adjacent NOE Phe³/Gly⁴ can only be explained by an equilibrium between folded (ψ³ < 0) and extended (ψ³ > 0) conformations. Simulated annealing modeling gave about 60% (ψ³ < 0) and 40% (ψ³ > 0) of these conformer populations.

Trans DRM study and previous studies on the heptapeptide opioids, dermenkephalin (DREK) and deltorphin-I (δ selective), and DREK(1-4)-DRM(5-7) hybrid (μ selective), show in folded structures more backbone bending of the first 4 residues in the μ opioids than in the δ peptides. Also, the main difference between μ- and δ-opioid peptides is a large fraction of extended conformations in μ heptapeptides. Either bending of the N-terminus, or extension of the C-terminal part in μ-opioid heptapeptides prevent the head-to-tail interactions which allow δ-opioid peptides to bind selectively to the δ-opioid receptor.