Interaction between Cu and Thiols of Biological and Environmental Importance: Case Study Using Combined Spectrophotometric/Bathocuproine Sulfonate Disodium Salt Hydrate (BCS) Assay

Abstract: Considering the biological and ecological importance of Cu–thiol interactions and the discrepancies in previous research, this study focuses on Cu interactions with biologically and ecologically relevant thiols: glutathione (GSH), L-cysteine (L-cys), 3-mercaptopropionic acid (MPA), and thioacetic acid (TAA) in aqueous solution. The addition of Cu(II) to a thiol-containing solution led to a rapid reduction of Cu(II) and the formation of a Cu(I)–thiol complex. The mechanism of Cu(II) reduction and Cu(I) complex … Show more

“…The reduction of the Cu­(II) species can be triggered by concomitant oxidation of the ligand itself. As reported for the GSH , and other small thiol-containing molecules such as l -cysteine or 3-mercaptopropionic acid, Cu­(II) might be reduced by the ligand itself forming the L S–S following the equation as follows …”

Rationally Designed Cu(I) Ligand to Prevent CuAβ-Generated ROS Production in the Alzheimer’s Disease Context

“…The reduction of the Cu­(II) species can be triggered by concomitant oxidation of the ligand itself. As reported for the GSH , and other small thiol-containing molecules such as l -cysteine or 3-mercaptopropionic acid, Cu­(II) might be reduced by the ligand itself forming the L S–S following the equation as follows …”

Rationally Designed Cu(I) Ligand to Prevent CuAβ-Generated ROS Production in the Alzheimer’s Disease Context

The underestimated and important role of thiol moieties in predicting the fate of toxic metals in the environment?

Electronic and photophysical properties of copper (II) Complexes: Insights into solvatochromic Effects, Photoreduction, and fluorescence behavior