An Undergraduate Experiment To Explore Cu(II) Coordination Environment in Multihistidine Compounds through Electron Spin Resonance Spectroscopy

• Eugene P. Wagner ^[1] ; Kai C. Gronborg ^[1] ; Shreya Ghosh ^[1] ; Sunil Saxena ^[1]
  1. [1] University of Pittsburgh

     University of Pittsburgh

     City of Pittsburgh, Estados Unidos

     
• Localización: Journal of chemical education, ISSN 0021-9584, Vol. 96, Nº 8, 2019, págs. 1752-1759
• Idioma: inglés
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• Resumen

  • Electron spin resonance (ESR) or electron paramagnetic resonance (EPR) spectroscopy is an incisive technique for the characterization of paramagnetic centers in inorganic, bioinorganic, and organic molecules and materials. These measurements are enabled with the help of paramagnetic species, such as organic free radicals and ions, electronically excited states, and metal–ligand compounds, some of which with biological importance. In this experiment, analogues of histidine–copper coordination compounds are investigated to show students how ESR line shapes depend on the complexed copper ion electronic structure as well as how the spectral features elucidate the coordination environment of copper. These coordinated compounds play an important role in metal ion coordination in proteins and peptides. The experiment has two parts. First, three copper–imidazole complexes that mimic copper–histidine compounds in the human body are synthesized. Second, the ESR spectrum of each complex is obtained at 77 K from frozen chloroform/methanol and acetonitrile/methanol matrixes and used to elucidate the ligand arrangement of the Cu2+ ion and the effect on the unpaired electron density.