Kinetic model of DNA replication in eukaryotic organisms

Avrami; Avrami; Avrami; Ben-Naim; Bensimon; Berezney; Blow; Blow; Blow; Blow; Blumenthal; Brewer; Buongiorno-Nardelli; Cahn; Cairns; Christian; Coverley; Friedman; Gilbert; Gomez; Hand; Herrick; Herrick; Huberman; Hyrien; Jackson; Jasny; Johnson; Kolmogorov; Laskey; Lu; Lucas; Mahbubani; Marheineke; Michalet; Mills; Pasero; Pierron; Plischke; Press; Raghuraman; Rowles; Sekimoto; Shinomiya; Shivashankar; Simon; Walter; Wu

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Kinetic model of DNA replication in eukaryotic organisms

Authors: Avrami
Avrami
Avrami
Ben-Naim
Bensimon
Berezney
Blow
Blow
Blow
Blow
Blumenthal
Brewer
Buongiorno-Nardelli
Cahn
Cairns
Christian
Coverley
Friedman
Gilbert
Gomez
Hand
Herrick
Herrick
Huberman
Hyrien
Jackson
Jasny
Johnson
Kolmogorov
Laskey
Lu
Lucas
Mahbubani
Marheineke
Michalet
Mills
Pasero
Pierron
Plischke
Press
Raghuraman
Rowles
Sekimoto
Shinomiya
Shivashankar
Simon
Walter
Wu
Publication date: 17 September 2003
Publisher: 'Elsevier BV'
Doi

Abstract

We formulate a kinetic model of DNA replication that quantitatively describes recent results on DNA replication in the in vitro system of Xenopus laevis prior to the mid-blastula transition. The model describes well a large amount of different data within a simple theoretical framework. This allows one, for the first time, to determine the parameters governing the DNA replication program in a eukaryote on a genome-wide basis. In particular, we have determined the frequency of origin activation in time and space during the cell cycle. Although we focus on a specific stage of development, this model can easily be adapted to describe replication in many other organisms, including budding yeast.Comment: 10 pages, 6 figures: see also cond-mat/0306546 & physics/030615

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