Affiliation:
1. Department of Chemistry & Biochemistry Texas Christian University Fort Worth TX 76129 USA
2. Department of Chemistry University of North Texas Denton TX 76203 USA
3. Department of Chemistry Texas A&M University College Station TX 77845 USA
Abstract
AbstractHinge motion is observed in macrocyclic, mortise‐type molecular hinges using variable temperature NMR spectroscopy. The data is consistent with dynamic hinging from a folded‐to‐extended‐to‐folded enantiomeric state. Crystallographic and solution structures of the folded states are reported. Chemical shift predictions derived from crystallographic data corroborate fully revolute hinge motion. The rate of hinging is affected by steric congestion at the hinge axis. A macrocycle containing glycine, 1, hinges faster than one comprising aminoisobutyric acid, 2. The free energies of activation, ΔG≠, for 1 and 2 were determined to be 13.3±0.3 kcal/mol and 16.3±0.3 kcal/mol, respectively. This barrier is largely independent of solvent across those surveyed (CD3OD, CD3CN, DMSO‐d6, pyridine‐d5, D2O). Experiment and computation predict energy barriers that are consistent with disruption of an intramolecular network of hydrogen bonds. DFT calculations reveal a pathway for hinge motion.
Funder
Welch Foundation
National Institute of General Medical Sciences
Subject
General Chemistry,Catalysis,Organic Chemistry
Cited by
2 articles.
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