Huntington's disease (HD) is a fatal neurodegenerative disease characterized by the expression of huntingtin protein (htt) that has a polyglutamine (CAG
polyQ) repeat domain consisting of 36 or more glutamines (mhtt). Historically, mhtt is more broadly associated with HD severity, as are elevated metal levels observed in HD patients. The depletion of wild-type (WT) htt (fewer than 36Qs) is also recognized as a contributing factor to HD progression
however, many questions remain about the interactions of biorelevant metals with WT htt and the impact of the interactions on protein aggregation. In the present work, we utilize a combination of biochemical assays and spectroscopic techniques to provide insights into the interaction of copper with an