Estimating the Number of Bound Waters in Gd(III) Complexes Revisited. Improved Methods for the Prediction of q-Values
- 26 October 2004
- journal article
- research article
- Published by American Chemical Society (ACS) in Bioconjugate Chemistry
- Vol. 15 (6) , 1496-1502
- https://doi.org/10.1021/bc0498370
Abstract
Two literature computational methods for the prediction of the number of inner-sphere aqua ligands, q, have been applied to a test set of seven Gd(aminocarboxylate) complexes. The first method is based on the hypothesis that q should be proportional to the solvent-accessible surface area of the ligand-complexed Gd ion (Castonguay, L. A., Treasurywala, A. M., Caulfield, T. J., Jaeger, E. P., and Kellar, K. E. (1999) Prediction of q-Values and Conformations of Gadolinium Chelates for Magnetic Resonance Imaging. Bioconjugate Chem. 10, 958). The second method is based on the hypothesis that q-values can be deduced by examining series of steric energy versus ionic radii plots as a function of coordination number (Reichert, D. E., Hancock, R. D., and Welch, M. J. (1996) Molecular Mechanics Investigation of Gadolinium(III) Complexes. Inorg. Chem. 35, 7013). This study identifies deficiencies in these methods and, with respect to the first method, describes some apparent errors. Although neither method was reliable at predicting q, two alternate approaches based on either molecular mechanics strain thresholds or exposed Gd surface area thresholds are shown to predict observed q-values for all Gd aminocarboxylate complexes in the test set.Keywords
This publication has 36 references indexed in Scilit:
- A Combined Theoretical and Experimental Study of the Reaction Products of Laser-Ablated Thorium Atoms with CO: First Identification of the CThO, CThO-, OThCCO, OTh(η3-CCO), and Th(CO)n (n = 1−6) MoleculesInorganic Chemistry, 2001
- Lanthanide and alkaline-earth complexes of EDTA in water: a molecular dynamics study of structures and binding selectivities †Journal of the Chemical Society, Perkin Transactions 2, 2000
- Prediction of q-Values and Conformations of Gadolinium Chelates for Magnetic Resonance ImagingBioconjugate Chemistry, 1999
- Gadolinium(III) Chelates as MRI Contrast Agents: Structure, Dynamics, and ApplicationsChemical Reviews, 1999
- Metal complexes as diagnostic toolsCoordination Chemistry Reviews, 1999
- Using Molecular Dynamics to Predict Factors Affecting Binding Strength and Magnetic Relaxivity of MRI Contrast AgentsJournal of Molecular Modeling, 1996
- Molecular Mechanics Investigation of Gadolinium(III) ComplexesInorganic Chemistry, 1996
- Structure-stability relationships of gadolinium(III) ion complexes for magnetic resonance imagingJournal of Medicinal Chemistry, 1991
- Molecular Structure and Dynamics of Aminopolycarboxylates and their Lanthanide Ion Complexes.Acta Chemica Scandinavica, 1990
- Paramagnetic metal complexes as water proton relaxation agents for NMR imaging: theory and designChemical Reviews, 1987