Selective recognition of choline phosphate by tripodal hexa-urea receptors with dual binding sites: crystal and solution evidence

Wei Zuo; Chuandong Jia; Huizheng Zhang; Yanxia Zhao; Xiao Juan Yang; Biao Wu

doi:10.1039/C8SC04338H

Selective recognition of choline phosphate by tripodal hexa-urea receptors with dual binding sites: crystal and solution evidence

Wei Zuo, Chuandong Jia, Huizheng Zhang, Yanxia Zhao, Xiao Juan Yang^*, Biao Wu

^*Corresponding author for this work

Northwest University China

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

Two tripodal hexa-urea receptors functionalized with aromatic terminal groups are capable of binding choline phosphate (CP). Crystal structures of the host-guest complexes reveal that the zwitterion CP is efficiently encapsulated in the tripodal hosts in a dual-site binding mode. The phosphate tail of CP is coordinated by the urea groups and the quaternary ammonium head is bound in a ‘composite aromatic box' through cation-π and hydrogen-bonding interactions. Such a partial aromatic binding environment for the Me₃N-⁺ cation mimics that of most enzymes catalyzing the conversion of quaternary ammonium substrates. Moreover, NMR, ESI-MS, and fluorescence studies demonstrate the selective binding and sensing of CP over other competing species such as ADP, ATP, choline and derivatives.

Original language	English
Pages (from-to)	2483-2488
Number of pages	6
Journal	Chemical Science
Volume	10
Issue number	8
DOIs	https://doi.org/10.1039/C8SC04338H
Publication status	Published - 2019
Externally published	Yes

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title = "Selective recognition of choline phosphate by tripodal hexa-urea receptors with dual binding sites: crystal and solution evidence",

abstract = "Two tripodal hexa-urea receptors functionalized with aromatic terminal groups are capable of binding choline phosphate (CP). Crystal structures of the host-guest complexes reveal that the zwitterion CP is efficiently encapsulated in the tripodal hosts in a dual-site binding mode. The phosphate tail of CP is coordinated by the urea groups and the quaternary ammonium head is bound in a {\textquoteleft}composite aromatic box' through cation-π and hydrogen-bonding interactions. Such a partial aromatic binding environment for the Me3N-+ cation mimics that of most enzymes catalyzing the conversion of quaternary ammonium substrates. Moreover, NMR, ESI-MS, and fluorescence studies demonstrate the selective binding and sensing of CP over other competing species such as ADP, ATP, choline and derivatives.",

author = "Wei Zuo and Chuandong Jia and Huizheng Zhang and Yanxia Zhao and Yang, {Xiao Juan} and Biao Wu",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

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language = "English",

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T1 - Selective recognition of choline phosphate by tripodal hexa-urea receptors with dual binding sites

T2 - crystal and solution evidence

AU - Zuo, Wei

AU - Jia, Chuandong

AU - Zhang, Huizheng

AU - Zhao, Yanxia

AU - Yang, Xiao Juan

AU - Wu, Biao

PY - 2019

Y1 - 2019

N2 - Two tripodal hexa-urea receptors functionalized with aromatic terminal groups are capable of binding choline phosphate (CP). Crystal structures of the host-guest complexes reveal that the zwitterion CP is efficiently encapsulated in the tripodal hosts in a dual-site binding mode. The phosphate tail of CP is coordinated by the urea groups and the quaternary ammonium head is bound in a ‘composite aromatic box' through cation-π and hydrogen-bonding interactions. Such a partial aromatic binding environment for the Me3N-+ cation mimics that of most enzymes catalyzing the conversion of quaternary ammonium substrates. Moreover, NMR, ESI-MS, and fluorescence studies demonstrate the selective binding and sensing of CP over other competing species such as ADP, ATP, choline and derivatives.

AB - Two tripodal hexa-urea receptors functionalized with aromatic terminal groups are capable of binding choline phosphate (CP). Crystal structures of the host-guest complexes reveal that the zwitterion CP is efficiently encapsulated in the tripodal hosts in a dual-site binding mode. The phosphate tail of CP is coordinated by the urea groups and the quaternary ammonium head is bound in a ‘composite aromatic box' through cation-π and hydrogen-bonding interactions. Such a partial aromatic binding environment for the Me3N-+ cation mimics that of most enzymes catalyzing the conversion of quaternary ammonium substrates. Moreover, NMR, ESI-MS, and fluorescence studies demonstrate the selective binding and sensing of CP over other competing species such as ADP, ATP, choline and derivatives.

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DO - 10.1039/C8SC04338H

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VL - 10

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EP - 2488

JO - Chemical Science

JF - Chemical Science

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Selective recognition of choline phosphate by tripodal hexa-urea receptors with dual binding sites: crystal and solution evidence

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