Protein acetylation and phosphorylation are key modifications that regulate both normal and pathological protein functions. The gel systems currently used for analyzing modified proteins require either expensive reagents or time-consuming second dimension electrophoresis. Here we present a neutral pH gel system that allows the analysis of acetylated and phosphorylated proteins. The neutral pH urea Triton-polyacrylamide gel electrophoresis (NUT-PAGE) system separates proteins based on their charge at pH 7.0 and generates discrete bands from each acetylated and/or phosphorylated species. In addition, the gel is composed of common and inexpensive laboratory reagents and requires only a single dimension of electrophoresis. We demonstrate the effectiveness of this system by analyzing the phosphorylated species of an acidic protein, α-synuclein, and both acetylated and phosphorylated species of a basic protein, histone H3. NUT-PAGE thus provides a cost-effective alternative for resolving acetylated and phosphorylated proteins, and potentially proteins with other post-translational modifications that alter net charge.
Keywords: acetylation; histone H3; phosphorylation; α-synuclein.