Topoisomerases provide the unlinking activity necessary for replication fork movement during DNA replication. It is uncertain, however, whether topoisomerases are also required for the initiation of replication. To investigate this point, we have performed pulse-chase experiments with SV40 minichromosomes as template to distinguish between the initiation and the elongation of replication. Using an unfractionated cytosolic extract as a source of replication functions, we found that the addition of topoisomerases at the initiation step significantly increased the number of active chromatin templates, whereas addition of topoisomerases at the elongation step had only minor effects. Minichromosomes with an extended chromatin structure as well as protein-free DNA required less topoisomerase for effective replication initiation. We could exclude the possibility that topoisomerases enhance the origin binding of T antigen, the SV40 replication initiator, and propose instead that the arrangement of nucleosomes influences the diffusion of supercoils during initial DNA unwinding. Efficient initiation therefore requires a high local concentration of topoisomerases to relax the torsional stress.