Formation of p-cresol:piperazine complex in solution monitored by spin–lattice relaxation times and pulsed field gradient NMR diffusion measurements

A study of the nature of the anthelmintic p-cresol:piperazine complex in chloroform solution has been conducted using different NMR techniques: self-diffusion coefficients using DOSY; NOE, NULL, and double-selective T 1 measurements to determine inter-molecular distances; and selective and non-selec...

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Veröffentlicht in:	Journal of magnetic resonance (1997) 2003-10, Vol.164 (2), p.197-204
Hauptverfasser:	de Carvalho, Erika Martins, Velloso, Marcia Helena Rodrigues, Tinoco, Luzineide Wanderley, Figueroa-Villar, José Daniel
Format:	Artikel
Sprache:	eng
Schlagworte:	Binding Sites Carbon Isotopes Chloroform - chemistry Cresols - chemistry Crystallography - methods Diffusion coefficients Hydrogen Bonding Inter-molecular distances Longitudinal relaxation Macromolecular Substances Magnetic Resonance Spectroscopy - methods Molecular complexes Molecular Conformation Piperazines - chemistry Protons Selective T1 Solutions Spin Labels
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container_title	Journal of magnetic resonance (1997)
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creator	de Carvalho, Erika Martins Velloso, Marcia Helena Rodrigues Tinoco, Luzineide Wanderley Figueroa-Villar, José Daniel
description	A study of the nature of the anthelmintic p-cresol:piperazine complex in chloroform solution has been conducted using different NMR techniques: self-diffusion coefficients using DOSY; NOE, NULL, and double-selective T 1 measurements to determine inter-molecular distances; and selective and non-selective T 1 measurements to determine correlation times. The experimental results in solution and CP-MAS were compared to literature X-ray diffraction data using molecular modeling. It was shown that the p-cresol:piperazine complex exists in solution in a very similar manner as it does in the solid state, with one p-cresol molecule hydrogen bonded through the hydroxyl hydrogen to each nitrogen atom of piperazine. The close correspondence between the X-ray diffraction data and the inter-proton distances obtained by NULL and double selective excitation techniques indicate that those methodologies can be used to determine inter-molecular distances in solution.
doi_str_mv	10.1016/S1090-7807(03)00252-0
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subjects	Binding Sites Carbon Isotopes Chloroform - chemistry Cresols - chemistry Crystallography - methods Diffusion coefficients Hydrogen Bonding Inter-molecular distances Longitudinal relaxation Macromolecular Substances Magnetic Resonance Spectroscopy - methods Molecular complexes Molecular Conformation Piperazines - chemistry Protons Selective T1 Solutions Spin Labels
title	Formation of p-cresol:piperazine complex in solution monitored by spin–lattice relaxation times and pulsed field gradient NMR diffusion measurements
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