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A persistent double-strand break destabilizes human DNA in yeast and can lead to G2 arrest and lethality.

Authors :
Bennett CB
Snipe JR
Resnick MA
Source :
Cancer research [Cancer Res] 1997 May 15; Vol. 57 (10), pp. 1970-80.
Publication Year :
1997

Abstract

Double-strand breaks (DSBs) are an important source of genomic change in many organisms. We have examined the consequences of a persistent versus a rapidly repaired DSB on cell progression, viability, and stability of human DNA contained in dispensable yeast artificial chromosomes (YACs) within the yeast Saccharomyces cerevisiae. An Alu-URA3-YZ integrating plasmid was used to target the YZ sequence to repetitive Alu sequences within the human YAC. The YZ site can be cut by an inducible HO-endonuclease resulting in a DSB. Two classes of DSBs had been identified previously: those that could be rapidly repaired (RR-DSB), through recombination between flanking Alus; and persistent DSBs (C. B. Bennett et al., Mol. Cell. Biol., 16: 4414-4425, 1996). These persistent DSBs (type 1) resulted in G2 delay and lethality. A third class of DSB is now identified corresponding to a persistent DSB that does not lead to G2 arrest or lethality (type 2). Unlike YACs in which the DSB was rapidly repaired, the two types of persistent DSBs destabilized the human YAC DNA, resulting in a high likelihood of YAC loss (approximately 85% of surviving colonies). Furthermore, both types of persistent DSBs could be misrepaired, resulting in mostly large internal or terminal deletions in the retained YACs. Therefore, recovery of these altered YACs can occur regardless of the effect of the DSBs on G2 arrest and cell lethality. If similar events occur in mammalian cells, persistent DSBs could be the initiating events that lead to a loss of heterozygosity and the expression of recessive oncogenes seen in malignant cells.

Details

Language :
English
ISSN :
0008-5472
Volume :
57
Issue :
10
Database :
MEDLINE
Journal :
Cancer research
Publication Type :
Academic Journal
Accession number :
9157993