Electrophoretic Analysis of Replication Through Structure-Prone DNA Repeats Within the SV40-Based Human Episome

Two-dimensional neutral/neutral gel-electrophoresis (2DGE) emerged as a benchmark technique to analyze DNA replication through natural impediments. This protocol describes how to analyze replication fork progression through structure-prone, expandable DNA repeats within the simian virus 40 (SV40)-based episome in human cells. In brief, upon plasmid transfection into human cells, replication intermediates are isolated by the modified Hirt protocol and treated with the DpnI restriction enzyme to remove non-replicated DNA. Intermediates are then digested by appropriate restriction enzymes to place the repeat of interest within the origin-distal half of a 3-5 kb-long DNA fragment. The replication intermediates are separated into two perpendicular dimensions, first by size and then by shape. Following Southern blot hybridization, this approach allows researchers to observe fork stalling at various structure-forming repeats on the descending half of the replication Y-arc. Furthermore, this positioning of the stall site allows the visualization of various outcomes of repeat-mediated fork stalling, such as fork reversal, the advent of a converging fork, and recombinational fork restart.