Very alkaline immobilized pH gradients for two‐dimensional electrophoresis of ribosomal and nuclear proteins

Basic proteins normally lost by the cathodic drift of carrier ampholyte focusing, or separated by NEPHGE with limited reproducibility, could be well separated by two-dimensional (2-D) electrophoresis under equilibrium conditions using immobilized pH gradients (IPGs) 4–10 and 6–10 using a previously published protocol (Gorg et al., Electrophoresis 1988, 9, 531–546). In the present study we have extended the pH gradient to pH 12 with IPGs 8–12, 9–12 and 10–12 for the analysis of very basic proteins. Different optimization steps with respect to pH engineering, gel composition and running conditions, such as substitution of acrylamide by dimethylacrylamide and addition of isopropanol with and without methylcellulose to the IPG rehydration solution (in order to suppress the reverse electroosmotic flow) were necessary to obtain highly reproducible 2-D patterns of ribosomal proteins from HeLa cells and mouse liver. Histones from chicken erythrocyte nuclei as well as total cell extracts of erythrocytes were also successfully separated under steady-state conditions. Due to the selectivity of isoelectric focusing in IPG 9–12, where the more acidic proteins abandon the gel, the tedious procedure of nuclei preparation prior to histone extraction can be omitted.