Abstract
Replisomes are multiprotein complexes that unzip the parental helix and duplicate the separated strands during genome replication. The antiparallel structure of DNA poses unique geometric constraints to the process, and the replisome has evolved unique dynamic features that solve this problem. Interestingly, the solution to duplex DNA replication has been co-opted to solve many other important problems that replisomes must contend with during the duplication of long chromosomes. For example, along its path the replisome will encounter lesions and DNA-bound proteins. Recent studies show that the replisome can circumvent lesions on either strand, using the strategy normally applied to the lagging strand synthesis. Circumventing lesions can also be assisted by other proteins that transiently become a part of the replisome. The replisome must also contend with DNA-binding proteins and recent studies reveal a fascinating process that enables it to bypass RNA polymerase without stopping.