2016
DOI: 10.1002/chem.201504684
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Rules of Macrocycle Topology: A [13]‐Macrodilactone Case Study

Abstract: Shape is an inherent trait of a molecule that dictates how it interacts with other molecules, either in binding events or intermolecular reactions. Large-ring macrocyclic compounds in particular leverage their shape when they are selectively bound by biomolecules and also when they exhibit macrocyclic diastereoselectivity. Nonetheless, rules that link structural parameters to the conformation of a macrocycle are still rudimentary. Here we use a structural investigation of a family of [13]-macrodilactones as a … Show more

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Cited by 10 publications
(12 citation statements)
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“…We have previously relied on X-ray crystallography to understand how planar units and stereogenic centers at key centers affect the solid-state conformations of these macrocycles. [11][12][13] We expected that the carbon with the aryl ring, at the terminus of the alkene planar unit, would guide the adoption of a ribbon conformation by the macrocyclic backbone, as we had observedf or other monosubstituted [13]-macrodilactones.B ecause compound 3 was racemic, we furthera nticipated that two complementary enantiomers would be found in the unit cell of 7;e ach configuration of the stereogenicc arbon (R or S) would dictate the planarc hirality (pR or pS)o ft he macrocycle. The X-ray structure of 7 we obtained, therefore, allowed us to comparei twith our previously studied ring systems.…”
Section: Solid-state Conformations Of [13]-macrodilactonementioning
confidence: 84%
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“…We have previously relied on X-ray crystallography to understand how planar units and stereogenic centers at key centers affect the solid-state conformations of these macrocycles. [11][12][13] We expected that the carbon with the aryl ring, at the terminus of the alkene planar unit, would guide the adoption of a ribbon conformation by the macrocyclic backbone, as we had observedf or other monosubstituted [13]-macrodilactones.B ecause compound 3 was racemic, we furthera nticipated that two complementary enantiomers would be found in the unit cell of 7;e ach configuration of the stereogenicc arbon (R or S) would dictate the planarc hirality (pR or pS)o ft he macrocycle. The X-ray structure of 7 we obtained, therefore, allowed us to comparei twith our previously studied ring systems.…”
Section: Solid-state Conformations Of [13]-macrodilactonementioning
confidence: 84%
“…Ap articularf amily of [13]-macrodilactones, typified by the macrocycle depicted in Figure1,h as provided am odel system for the investigation of parameters that drive to the structure and conformation of macrocycles. [11][12][13][14] Several factors contrib-ute to the rigidification of this family of macrocycles; of which the primary ones are the two ester units and the alkene. The esters, for example, organize four ring atoms each.…”
Section: Introductionmentioning
confidence: 99%
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“…We envisioned the design of carbohydrate‐based macrocycles that can be reversibly switched between two defined structural shapes by external stimuli. As the shape of a functional molecule can be correlated with its properties, switching the molecular shape of a carbohydrate‐based macrocycle is expected to induce a change of its physicochemical properties, chirality, supramolecular features, and of the spatial arrangement of attached functionalities. To achieve such shape switching we planned to incorporate a photoresponsive hinge into the cycle, like an azobenzene derivative (Figure ).…”
Section: Introductionmentioning
confidence: 99%