Abstract
In DNA replication, the antiparallel nature of the parental duplex imposes certain constraints on the activity of the DNA polymerases that synthesize new DNA. The leading-strand polymerase advances in a continuous fashion, but the lagging-strand polymerase is forced to restart at short intervals. In several prokaryotic systems studied so far, this problem is solved by the formation of a loop in the lagging strand of the replication fork to reorient the lagging-strand DNA polymerase so that it advances in parallel with the leading-strand polymerase. The replication loop grows and shrinks during each cycle of Okazaki fragment synthesis. The timing of Okazaki fragment synthesis and loop formation is determined by a subtle interplay of enzymatic activities at the fork. Recent developments in single-molecule techniques have enabled the direct observation of these processes and have greatly contributed to a better understanding of the dynamic nature of the replication fork. Here, we will review recent experimental advances, present the current models, and discuss some of the exciting developments in the field.
Highlights
The replisome operates according to a set of highly conserved principles
The T7 DNA polymerase consists of a 1:1 complex of the T7 gene 5 protein and the E. coli thioredoxin (Trx) processivity factor; this complex will be referred to as gp5-Trx
The helicase activity is located in the C-terminal half, and the primase activity resides in the N-terminal half
Summary
The replisome operates according to a set of highly conserved principles (reviewed in Refs. 1–3). The replication loop contains both the nascent Okazaki fragment produced by the lagging-strand DNA polymerase and the single-stranded product of the helicase. In one mechanism called the signaling model, the synthesis of a primer triggers the immediate release of the replication loop whether or not the nascent
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