Weak Exchange Interaction Supported by a Biologically Relevant Long Chemical Bridge in a Cu−Peptide Model Compound
The copper complex of the dipeptide l-alanyl-l-phenylalanine, catena-(l-alaninate-l-phenylalaninate-copper(II) monohydrate), identified as Cu(II)Ala-Phe, provides a convenient system to study a weak exchange interaction between unpaired spins transmitted through a biologically relevant long chemical...
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| Veröffentlicht in: | Inorganic chemistry 2006-04, Vol.45 (7), p.2942-2947 |
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| container_title | Inorganic chemistry |
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| creator | Vieira, Ernanni D Casado, Nieves M. C Facchin, Gianella Torre, Maria H Costa-Filho, Antonio J Calvo, Rafael |
| description | The copper complex of the dipeptide l-alanyl-l-phenylalanine, catena-(l-alaninate-l-phenylalaninate-copper(II) monohydrate), identified as Cu(II)Ala-Phe, provides a convenient system to study a weak exchange interaction between unpaired spins transmitted through a biologically relevant long chemical bridge (18.34 Å). In this complex, the copper ions are arranged in two symmetry-related anisotropic layers parallel to the ab plane at 13.17 Å, separated by a double layer of water molecules. The equatorial−equatorial bridge considered as the most relevant path for exchange interactions between copper ions in neighbor layers contains 11 diamagnetic atoms (including three hydrogens), with two covalent amidate bridges plus three weak and moderate H bonds that go across the water layer. This interaction was studied using electron paramagnetic resonance in single-crystal samples, at 9.5 and 34.5 GHz. The measured magnitude of the interlayer interaction, |J 3|/k B = 1.7(2) × 10-3 K, is discussed in terms of values obtained for similar paths in other model compounds and in proteins. These results in model systems provide information that may be important in understanding biological functions at the molecular level. |
| doi_str_mv | 10.1021/ic051957b |
| format | Article |
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The equatorial−equatorial bridge considered as the most relevant path for exchange interactions between copper ions in neighbor layers contains 11 diamagnetic atoms (including three hydrogens), with two covalent amidate bridges plus three weak and moderate H bonds that go across the water layer. This interaction was studied using electron paramagnetic resonance in single-crystal samples, at 9.5 and 34.5 GHz. The measured magnitude of the interlayer interaction, |J 3|/k B = 1.7(2) × 10-3 K, is discussed in terms of values obtained for similar paths in other model compounds and in proteins. 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The equatorial−equatorial bridge considered as the most relevant path for exchange interactions between copper ions in neighbor layers contains 11 diamagnetic atoms (including three hydrogens), with two covalent amidate bridges plus three weak and moderate H bonds that go across the water layer. This interaction was studied using electron paramagnetic resonance in single-crystal samples, at 9.5 and 34.5 GHz. The measured magnitude of the interlayer interaction, |J 3|/k B = 1.7(2) × 10-3 K, is discussed in terms of values obtained for similar paths in other model compounds and in proteins. 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| source | MEDLINE; American Chemical Society Journals |
| subjects | Copper - chemistry Crystallization Electron Spin Resonance Spectroscopy Models, Biological Models, Molecular Organometallic Compounds - chemistry Peptides - chemistry Sensitivity and Specificity |
| title | Weak Exchange Interaction Supported by a Biologically Relevant Long Chemical Bridge in a Cu−Peptide Model Compound |
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