A Biomimetic Heteroditopic Receptor for Zwitterions in Protic Media

The efficient synthesis of calix[6]cryptothiourea 6 was achieved through a two‐step sequence that involves a key [1+1] macrocyclization step. It was shown by NMR spectroscopy that this heteroditopic receptor can bind zwitterions in protic media with an outstanding selectivity for β‐alanine betaine G...

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Veröffentlicht in:	Chemistry, an Asian journal an Asian journal, 2015-02, Vol.10 (2), p.440-446
Hauptverfasser:	Cornut, Damien, Moerkerke, Steven, Wouters, Johan, Bruylants, Gilles, Jabin, Ivan
Format:	Artikel
Sprache:	eng
Schlagworte:	beta-Alanine - analogs & derivatives beta-Alanine - chemistry Betaine - analogs & derivatives Betaine - chemical synthesis Betaine - chemistry Binding sites biomimetic synthesis Biomimetics calixarenes Calixarenes - chemical synthesis Calixarenes - chemistry Carnitine - chemical synthesis Carnitine - chemistry Chemistry Crystallography, X-Ray Cyclization host-guest systems Magnetic Resonance Spectroscopy Molecular Conformation Picrates - chemistry Quaternary Ammonium Compounds - chemistry supramolecular chemistry zwitterions
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container_title	Chemistry, an Asian journal
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creator	Cornut, Damien Moerkerke, Steven Wouters, Johan Bruylants, Gilles Jabin, Ivan
description	The efficient synthesis of calix[6]cryptothiourea 6 was achieved through a two‐step sequence that involves a key [1+1] macrocyclization step. It was shown by NMR spectroscopy that this heteroditopic receptor can bind zwitterions in protic media with an outstanding selectivity for β‐alanine betaine G5, which is likely due to a high complementarity between the two partners. This result constitutes a rare example of cavity complexation of a zwitterion by a calix[6]arene. In comparison with the parent urea‐based receptors, 6 behaves as a much more efficient host for betaines. This strengthening of the binding properties is due to the better preorganization of the tripodal hydrogen‐bonding cap as well as to the higher acidity of the thiourea groups and their poor ability to self‐associate. Remarkably, host 6 is able to perform solid–liquid as well as liquid–liquid extraction of G5. Finally, 6 provides an excellent structural model for the binding site of glycine betaine G4 encountered in natural systems. Selective and biomimetic: The synthesis and unique recognition properties of a new host that combines a calix[6]arene pocket to a tris‐thiourea cap are described (see figure). This heteroditopic receptor binds zwitterions in protic media with an outstanding selectivity for β‐alanine betaine and nicely mimics the binding site of glycine betaine encountered in natural systems.
doi_str_mv	10.1002/asia.201403082
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Asian J</addtitle><description>The efficient synthesis of calix[6]cryptothiourea 6 was achieved through a two‐step sequence that involves a key [1+1] macrocyclization step. It was shown by NMR spectroscopy that this heteroditopic receptor can bind zwitterions in protic media with an outstanding selectivity for β‐alanine betaine G5, which is likely due to a high complementarity between the two partners. This result constitutes a rare example of cavity complexation of a zwitterion by a calix[6]arene. In comparison with the parent urea‐based receptors, 6 behaves as a much more efficient host for betaines. This strengthening of the binding properties is due to the better preorganization of the tripodal hydrogen‐bonding cap as well as to the higher acidity of the thiourea groups and their poor ability to self‐associate. Remarkably, host 6 is able to perform solid–liquid as well as liquid–liquid extraction of G5. 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subjects	beta-Alanine - analogs & derivatives beta-Alanine - chemistry Betaine - analogs & derivatives Betaine - chemical synthesis Betaine - chemistry Binding sites biomimetic synthesis Biomimetics calixarenes Calixarenes - chemical synthesis Calixarenes - chemistry Carnitine - chemical synthesis Carnitine - chemistry Chemistry Crystallography, X-Ray Cyclization host-guest systems Magnetic Resonance Spectroscopy Molecular Conformation Picrates - chemistry Quaternary Ammonium Compounds - chemistry supramolecular chemistry zwitterions
title	A Biomimetic Heteroditopic Receptor for Zwitterions in Protic Media
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