Bo Sun
To prevent replication failure due to fork barriers, several mechanisms have evolved to restart arrested forks independent of the origin of replication. Our understanding of these mechanisms that underlie replication reactivation has been aided through unique dynamic perspectives offered by single-molecule techniques. These techniques, such as optical tweezers, magnetic tweezers, and fluorescence-based methods, allow researchers to monitor the unwinding of DNA by helicase, nucleotide incorporation during polymerase synthesis, and replication fork progression in real time. In addition, they offer the ability to distinguish DNA intermediates after obstacles to replication at high spatial and temporal resolutions, providing new insights into the replication reactivation mechanisms. These and other highlights of single-molecule techniques and remarkable studies on the recovery of the replication fork from barriers will be discussed in this review.
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