Inoue K, Aoki M, Fujiwara K. Protein cohesion induced by metal ions observed with fluorescence correlation spectroscopy.
JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH. PART A, TOXIC/HAZARDOUS SUBSTANCES & ENVIRONMENTAL ENGINEERING 2013;
48:1311-1317. [PMID:
23705606 DOI:
10.1080/10934529.2013.781861]
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Abstract
Nine metal ions were evaluated in the point of denaturating action of proteins. When some metal ions were added to the diluted protein solutions, aggregates appear: stronger denaturation causes the appearance of the larger-size aggregate. The size of the aggregatates are determined by fluorescence correlation spectroscopy (FCS). Green fluorescent protein (ZsGreen) and PE(phycoerythrin)-conjugated human-antibody monoclonal protein were employed as the target protein, of which solution was diluted 100-500 times and mixed with metal ions. According to this process, the denaturation power of metal ions is in the order of Mn(2+)≈ Fe(2+)< Co(2+)< Ni(2+)< Tl(+)< Cd(2+)< Cu(+)< Cu(2+)< Pb(2+)for ZsGreen, and Tl(+)≈ Ni(2+)< Cd(2+)< Fe(2+)< Cr(3+)≪ Pb(2+)for PE-conjugated antibody protein. Pb(2+)exhibits the strongest power of denaturation. In the case of ZsGreen, the denaturation power of metal ions is on the order of the Irving-Williams series, which provide the coordination tendency against ligands possessing nitrogen and oxygen. The present method with FCS is effective to evaluate the denaturation power of metal ions against proteins.
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