Oxidative stress and aggregation of the protein α-synuclein are thought to be key factors in Parkinson’s disease. Previous work shows that cytochrome c plus H2O2 causes tyrosine-dependent in vitro peroxidative aggregation of proteins, including α-synuclein. Here, we examine the role of each of α-synuclein’s four tyrosine residues and how the protein’s conformation affects covalent oxidative aggregation. When α-synuclein adopts a collapsed conformation, tyrosine 39 is essential for wild-type-like covalent aggregation. This lone N-terminal tyrosine, however, is not required for wild type-like covalent aggregation in the presence of a denaturant or when α-synuclein is present in non-covalent fibrils. We also show that pre-formed oxidative aggregates are not incorporated into non-covalent fibrils. These data provide insight as to how dityrosine may be formed in Lewy bodies seen in Parkinson’s disease
