Enrichment of DNA replication intermediates by EdU pull down

Analysis of replication fork structures in electron microscopy (EM) can provide important mechanistic insights in DNA replication studies. A major challenge in this type of analysis is the paucity of replication intermediates. At any given time only a small fraction of the restriction fragments of genomic DNA will contain a replication fork. To address this issue, we have developed an EdU-pull-down procedure to enrich for replicating DNA. Cells are exposed to a brief pulse of EdU, a cleavable biotin moiety is attached to EdU by copper-catalyzed azide-alkyne cycloaddition (CuAAC), in conditions that minimize the damage to DNA. Biotinylated DNA is purified with streptavidin beads, in conditions that facilitate association of long DNA filaments. Finally, the DNA is eluted by cleaving the biotin moiety. This approach can enrich over 150-times for replicating DNA and about 50-times in replication fork structures, as verified by EM. This procedure could benefit analysis of replication intermediates in EM as well as other techniques for the study of replicating DNA.