Preferential accessibility to specific genomic loci for the repair of double-strand breaks in human cells

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Abstract

The dynamic organization of the human genome in the nucleus is gaining recognition as a determining factor in its functional regulation. In order to be expressed, replicated or repaired, a genomic locus has to be present at the right place at the right time. In the present study, we have investigated the choice of a double-strand break (DSB) repair partner for a given genomic loci in an ATM-deficient human fibroblast cell line. We found that partner choice is restricted such that a given genomic locus preferentially uses certain sites in the genome to repair itself. These preferential sites can be in the vicinity of the damage site or megabases away or on other chromosomes entirely, while potential sites closer to the break along the length of the chromosome can be ignored. Moreover, there can be more than a 10-fold difference in usage between repair sites located only 10 kb apart. Interestingly, arms of a given chromosome are less accessible to one another than to other chromosomes. Altogether, these results indicate that the accessibility between genomic sites in the human genome during DSB repair is specific and conserved in a cell population. © Oxford University Press 2004; all rights reserved.

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D’Anjou, H., Chabot, C., & Chartrand, P. (2004). Preferential accessibility to specific genomic loci for the repair of double-strand breaks in human cells. Nucleic Acids Research, 32(20), 6136–6143. https://doi.org/10.1093/nar/gkh952

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