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DNA Replication: Keep Moving and Don't Mind the Gap

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Presentation on theme: "DNA Replication: Keep Moving and Don't Mind the Gap"— Presentation transcript:

1 DNA Replication: Keep Moving and Don't Mind the Gap
Lance D. Langston, Mike O'Donnell  Molecular Cell  Volume 23, Issue 2, Pages (July 2006) DOI: /j.molcel Copyright © 2006 Elsevier Inc. Terms and Conditions

2 Figure 1 The Cycle of Lagging Strand Synthesis on an Undamaged Template (A) As the lagging strand polymerase synthesizes an Okazaki fragment, the clamp loader opens a new clamp and the helicase recruits primase to the replication fork to initiate the next fragment. (B) After synthesis of the RNA primer, the clamp loader displaces primase and loads the clamp onto the new primer/template junction. (C) Completion of Okazaki fragment synthesis triggers recycling of the lagging strand polymerase to the newly loaded clamp, leaving the old clamp behind. (D) The lagging strand polymerase synthesizes the new Okazaki fragment, completing a full cycle. Fork unwinding and leading strand synthesis continue throughout the cycle. The authors are grateful to Dr. Nina Yao for the artwork. Molecular Cell  , DOI: ( /j.molcel ) Copyright © 2006 Elsevier Inc. Terms and Conditions

3 Figure 2 Replisomes Bypass Template Damage
(A) Upon encountering a lesion on the lagging strand template (stop sign), leading strand synthesis continues and the stalled lagging strand polymerase recycles (dotted arrow) to a new primer/template junction, leaving a single-strand gap with a template lesion (bottom). (B) The leading strand polymerase stalls upon encountering a lesion (top). The helicase recruits primase to reinitiate leading strand synthesis ahead of the lesion, leaving a single-strand gap (bottom). If stalling causes the replication fork to collapse, additional factors (e.g., PriA or PriC) are required to reload the helicase at the collapsed fork. For (A) and (B), gaps that are left behind in either strand can be repaired with high fidelity by recombination processes using the new sister chromatid as a template. Artwork by Dr. Nina Yao. Molecular Cell  , DOI: ( /j.molcel ) Copyright © 2006 Elsevier Inc. Terms and Conditions


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