Physicochemical characterization of the dimeric lanthanide complexes [en{Ln(DO3A)(H2O)}2] and [pi{Ln(DTTA)(H2O)}2]2−: a variable-temperature 17O NMR study

The Gd(III) complexes of the two dimeric ligands [en(DO3A)2] {N,N′‐bis[1,4,7‐tris(carboxymethyl)‐1,4,7,10‐tetraazacyclododecan‐10‐yl‐methylcarbonyl]‐N,N′‐ethylenediamine} and [pi(DTTA)2]8− [bisdiethylenetriaminepentaacetic acid (trans‐1,2‐cyclohexanediamine)] were synthesized and characterized. The...

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Bibliographic Details
Published in:Magnetic resonance in chemistry 2004-03, Vol.42 (3), p.329-336
Main Authors: Lee, Tzu-Ming, Cheng, Tsan-Hwang, Ou, Ming-Hung, Chang, C. Allen, Liu, Gin-Chung, Wang, Yun-Ming
Format: Article
Language:English
Subjects:
17O NMR
1H NMR
2H NMR
Algorithms
Chemical Phenomena
Chemistry, Physical
Deuterium
Dysprosium
Edetic Acid - analogs & derivatives
Electron Spin Resonance Spectroscopy
EPR
Gadolinium
Gd(III) complexes
Heterocyclic Compounds, 1-Ring - chemistry
Hydrogen
Indicators and Reagents
Lanthanoid Series Elements - chemistry
Ligands
Magnetic Resonance Spectroscopy
NMR
Organometallic Compounds - chemistry
Oxygen Isotopes
paramagnetic complexes
proton relaxation
Protons
Temperature
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Summary:The Gd(III) complexes of the two dimeric ligands [en(DO3A)2] {N,N′‐bis[1,4,7‐tris(carboxymethyl)‐1,4,7,10‐tetraazacyclododecan‐10‐yl‐methylcarbonyl]‐N,N′‐ethylenediamine} and [pi(DTTA)2]8− [bisdiethylenetriaminepentaacetic acid (trans‐1,2‐cyclohexanediamine)] were synthesized and characterized. The 17O NMR chemical shift of H2O induced by [en{Dy(DO3A)}2] and [pi{Dy(DTTA)}2]2− at pH 6.80 proved the presence of 2.1 and 2.2 inner‐sphere water molecules, respectively. Water proton spin–lattice relaxation rates for [en{Gd(DO3A)(H2O)}2] and [pi{Gd(DTTA)(H2O)}2]2− at 37.0 ± 0.1° C and 20 MHz are 3.60 ± 0.05 and 5.25 ± 0.05 mM−1 s−1 per Gd, respectively. The EPR transverse electronic relaxation rate and 17O NMR transverse relaxation time for the exchange lifetime of the coordinated H2O molecule and the 2H NMR longitudinal relaxation rate of the deuterated diamagnetic lanthanum complex for the rotational correlation time were thoroughly investigated, and the results were compared with those reported previously for other lanthanide(III) complexes. The exchange lifetimes for [en{Gd(DO3A)(H2O)}2] (769 ± 10 ns) and [pi{Gd(DTTA)(H2O)}2]2− (910 ± 10 ns) are significantly higher than those of [Gd(DOTA)(H2O)]− (243 ns) and [Gd(DTPA)(H2O)]2− (303 ns) complexes. The rotational correlation times for [en{Gd(DO3A)(H2O)}2] (150 ± 11 ps) and [pi{Gd(DTTA)(H2O)}2]2− (130 ± 12 ps) are slightly greater than those of [Gd(DOTA)(H2O)]− (77 ps) and [Gd(DTPA)(H2O)]2− (58 ps) complexes. The marked increase in relaxivity (r1) of [en{Gd(DO3A)(H2O)}2] and [pi{Gd(DTTA)(H2O)}2]2− result mainly from their longer rotational correlation time and higher molecular weight. Copyright © 2004 John Wiley & Sons, Ltd.
ISSN:0749-1581
1097-458X
DOI:10.1002/mrc.1315