The spatio-temporal organization of DNA replication sites is identical in primary, immortalized and transformed mammalian cells

doi:10.1242/jcs.00087

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Journal of Cell Science 115, 4037-4051 (2002)
Copyright © 2002 The Company of Biologists Limited
doi: 10.1242/jcs.00087

Research Article

The spatio-temporal organization of DNA replication sites is identical in primary, immortalized and transformed mammalian cells

Daniela S. Dimitrova and Ronald Berezney^*

Department of Biological Sciences, State University of New York at Buffalo, Buffalo, NY 14260, USA

^* Author for correspondence (e-mail: berezney{at}acsu.buffalo.edu)

Accepted 1 August 2002

We investigated the organization of DNA replication sites inprimary (young or presenescent), immortalized and transformedmammalian cells. Four different methods were used to visualizereplication sites: in vivo pulse-labeling with 5-bromo-2'-deoxyuridine(BrdU), followed by either acid depurination, or incubationin nuclease cocktail to expose single-stranded BrdU-substitutedDNA regions for immunolabeling; biotin-dUTP labeling of nascentDNA by run-on replication within intact nuclei and stainingwith fluorescent streptavidin; and, finally, immunolabelingof the replication fork proteins PCNA and RPA. All methods producedidentical results, demonstrating no fundamental differencesin the spatio-temporal organization of replication patterns betweenprimary, immortal or transformed mammalian cells. In addition,we did not detect a spatial coincidence between the early firingreplicons and nuclear lamin proteins, the retinoblastoma proteinor the nucleolus in primary human and rodent cells. The retinoblastomaprotein does not colocalize in vivo with members of the Mcmfamily of proteins (Mcm2, 3 and 7) at any point of the cellcycle and neither in the chromatin-bound nor in the solublenucleoplasmic fraction. These results argue against a directrole for the retinoblastoma or nuclear lamin proteins in mammalianDNA synthesis under normal physiological conditions.

Key words: DNA replication patterns, Primary and transformed mammalian cells, Senescence, Retinoblastoma protein, Minichromosome maintenance proteins, Nuclear lamin proteins

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