화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.118, No.30, 8935-8944, 2014
ESEEM Analysis of Multi-Histidine Cu(II)-Coordination in Model Complexes, Peptides, and Amyloid-beta
We validate the use of ESEEM to predict the number of N-14 nuclei known Cu(II) coordination. We apply this method to gain new insight into less explored coupled to a Cu(II) ion by the use of model complexes and two small peptides with well-aspects of Cu(II) coordination in amyloid-beta (A beta). A beta has two coordination modes of Cu(II) at physiological pH. A controversy has existed regarding the number of histidine residues coordinated to the Cu(II) ion in component II, which is dominant at high pH (similar to 8.7) values. Importantly, with an excess amount of Zn(II) ions, as is the case in brain tissues affected by Alzheimer's disease, component II becomes the dominant coordination mode, as Zn(II) selectively substitutes component I bound to Cu(II). We confirm that component II only contains single histidine coordination, using ESEEM and set of model complexes. The ESEEM experiments carried out on systematically N-15-labeled peptides reveal that, in component II, His 13 and His 14 are more favored as equatorial ligands compared to His 6. Revealing molecular level details of subcomponents in metal ion coordination is critical in understanding the role of metal ions in Alzheimer's disease etiology.