RRC ID 67373
Author Shimizu N, Hashizume T, Shingaki K, Kawamoto JK.
Title Amplification of plasmids containing a mammalian replication initiation region is mediated by controllable conflict between replication and transcription.
Journal Cancer Res
Abstract We previously showed that plasmids containing both a mammalian replication initiation region and a matrix attachment region were efficiently amplified in human cancer cells and that they were either integrated into preexisting extrachromosomal double minutes (DMs) or induced the generation of a chromosomal homogeneously staining region (HSR). In this article, we elucidated the mechanism by which such plasmids mimic gene amplification. Hybridization experiments using chromatin fiber, metaphase spread, and genomic Southern blot analysis suggested that a circular molecule comprising a plasmid direct repeat was generated initially. Recombination between this molecule and the preexisting DMs led to the apparent stabilization of the plasmid repeat. If the plasmid repeat was integrated into the chromosome, it initiated the breakage-fusion-bridge cycle, which generated HSR. Importantly, we found that HSR formation was blocked by inserting a poly(A) signal or the orientation-specific replication fork barrier downstream of the drug-resistance gene, where the transcription would meet head to head with the supposed replication fork from the initiation region. The matrix attachment region enhanced HSR formation if it was inserted at the same site. These data suggested that strand breakage generated by the conflict between replication and transcription might trigger the breakage-fusion-bridge cycle. This is the first study suggesting that such a conflict leads to genomic instability in higher eukaryotes.
Volume 63(17)
Pages 5281-90
Published 2003-9-1
PMID 14500359
MeSH Animals CHO Cells Cricetinae DNA Replication* Gene Amplification* Genes, myc / genetics Globins / genetics Humans In Situ Hybridization, Fluorescence Plasmids / genetics* Replication Origin Tetrahydrofolate Dehydrogenase / genetics Transcription, Genetic* Tumor Cells, Cultured
IF 9.727
Resource
DNA material pdeltaBN.AR1 (RDB18705)