Self-Assembled Multi-Component Catenanes: Structural Insights into an Adaptable Class of Molecular Receptors and [2]-Catenanes

Under acidic conditions (50 equiv of TFA), combinations of hydrazide A-B monomers self-assemble into octameric [2]-catenanes with high selectivity for [1 3 2]2, where 1 is a d-Pro-X (X = Aib, Ac4c, Ac6c, l-4-Cl-PhGly)-derived monomer and 2 is an l-Pro′-l-arylGly (Pro′ = Pro, trans-F-Pro, trans-HO-Pr...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2012-07, Vol.134 (28), p.11415-11429
Main Authors: Chung, Mee-Kyung, White, Peter S, Lee, Stephen J, Waters, Marcey L, Gagné, Michel R
Format: Article
Language:English
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Summary:Under acidic conditions (50 equiv of TFA), combinations of hydrazide A-B monomers self-assemble into octameric [2]-catenanes with high selectivity for [1 3 2]2, where 1 is a d-Pro-X (X = Aib, Ac4c, Ac6c, l-4-Cl-PhGly)-derived monomer and 2 is an l-Pro′-l-arylGly (Pro′ = Pro, trans-F-Pro, trans-HO-Pro, aryl = naphthyl, phenyl)-derived monomer. Five different combinations of monomers were studied by X-ray crystallography. In each case, the unique aryl glycine unit is located in the core of the structure where the aryl ring templates a CH−π–CH sandwich. Analysis of metrical parameters indicates that this core region is highly conserved, while the more peripheral zones are flexible. 1H NMR spectroscopy indicate that the solid-state structures are largely retained in solution, though several non-C 2-symmetric compounds have a net C 2-symmetry that indicates accessible dynamic processes. Catenane dynamic processes were additionally probed through H/D exchange, with the core being inflexible relative to the peripheral structure. Mass spectrometry was utilized to identify the constitutional isomerism in the minor asymmetric [1 5 2 3] catenanes.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja302345n