Abstract
AbstractEnkephalins are efficient pain‐relief drugs that bind to transmembrane opioid receptors. One key structural parameter that governs the pharmacological activity of these opioid peptides and is typically determined from condensed‐phase structures is the distance between the aromatic rings of their Tyr and Phe residues. We use resonance energy transfer, detected by a combination of cold ion spectroscopy and mass spectrometry, to estimate the Tyr–Phe spacing for enkephalins in the gas phase. In contrast to the condensed‐phase structures, these distances appear to differ substantially in enkephalins with different pharmacological efficiencies, suggesting that gas‐phase structures might be a better pharmacophoric metric for ligand peptides.
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