Paradoxes of eukaryotic DNA replication: MCM proteins and the random completion problem
- 21 January 2003
- Vol. 25 (2) , 116-125
- https://doi.org/10.1002/bies.10208
Abstract
Eukaryotic DNA replication initiates at multiple origins. In early fly and frog embryos, chromosomal replication is very rapid and initiates without sequence specificity. Despite this apparent randomness, the spacing of these numerous initiation sites must be sufficiently regular for the genome to be completely replicated on time. Studies in various eukaryotes have revealed that there is a strict temporal separation of origin “licensing” prior to S phase and origin activation during S phase. This may suggest that replicon size must be already established at the licensing stage. However, recent experiments suggest that a large excess of potential origins are assembled along chromatin during licensing. Thus, a regular replicon size may result from the selection of origins during S phase. We review single molecule analyses of origin activation and other experiments addressing this issue and their general significance for eukaryotic DNA replication. BioEssays 25:116–125, 2003.Keywords
This publication has 82 references indexed in Scilit:
- Initiation Sites Are Distributed at Frequent Intervals in the Chinese Hamster Dihydrofolate Reductase Origin of Replication but Are Used with Very Different EfficienciesMolecular and Cellular Biology, 2002
- Identification of a Binding Region for Human Origin Recognition Complex Proteins 1 and 2 That Coincides with an Origin of DNA ReplicationMolecular and Cellular Biology, 2002
- Aphidicolin Triggers a Block to Replication Origin Firing inXenopus Egg ExtractsPublished by Elsevier ,2001
- Dispersive Initiation of Replication in the Chinese Hamster Rhodopsin LocusExperimental Cell Research, 2000
- Human Minichromosome Maintenance Proteins and Human Origin Recognition Complex 2 Protein on ChromatinPublished by Elsevier ,1998
- Regulation of Replicon Size in Xenopus Egg ExtractsScience, 1997
- Interaction between the Origin Recognition Complex and the Replication Licensing Systemin XenopusCell, 1996
- A Distinct G 1 Step Required to Specify the Chinese Hamster DHFR Replication OriginScience, 1996
- Purification of an MCM-containing complex as a component of the DNA replication licensing systemNature, 1995
- ATP-dependent recognition of eukaryotic origins of DNA replication by a multiprotein complexNature, 1992