Roland Kanaar scite author profile

Genome stability is of primary importance for the survival and proper functioning of all organisms. Double-stranded breaks in DNA are important threats to genome integrity because they can result in chromosomal aberrations that can affect, simultaneously, many genes, and lead to cell malfunctioning and cell death. These detrimental consequences are counteracted by two mechanistically distinct pathways of double-stranded break repair: homologous recombination and non-homologous end-joining. Recently, unexpected links between these double-stranded break-repair systems, and several human genome instability and cancer predisposition syndromes, have emerged. Now, interactions between both double-stranded break-repair pathways and other cellular processes, such as cell-cycle regulation and replication, are being unveiled.

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Repair of DNA interstrand cross-links

Dronkert

Kanaar

2001

Mutation Research/DNA Repair

530

553

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DNA Double-Strand Break Repair: All's Well that Ends Well

Wyman

Kanaar²

2006

Annu. Rev. Genet.

718

563

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Breaks in both DNA strands are a particularly dangerous threat to genome stability. At a DNA double-strand break (DSB), potentially lost sequence information cannot be recovered from the same DNA molecule. However, simple repair by joining two broken ends, though inherently error prone, is preferable to leaving ends broken and capable of causing genome rearrangements. To avoid DSB-induced genetic disinformation and disruption of vital processes, such as replication and transcription, cells possess robust mechanisms to repair DSBs. Because all breaks are not created equal, the particular repair mechanism used depends largely on what is possible and needed based on the structure of the broken DNA. We argue that although categorizing different DSB repair mechanisms along pathways and subpathways can be conceptually useful, in cells flexible and reversible interactions among DSB repair factors form a web from which a nonpredetermined path to repair for any number of different DNA breaks will emerge.

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Growth inhibition and DNA damage induced by Cre recombinase in mammalian cells

Loonstra

Vooijs²,

Beverloo³

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

539

473

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The use of Cre͞loxP recombination in mammalian cells has expanded rapidly. We describe here that Cre expression in cultured mammalian cells may result in a markedly reduced proliferation and that this effect is dependent on the endonuclease activity of Cre. Chromosome analysis after Cre expression revealed numerous chromosomal aberrations and an increased number of sister chromatid exchanges. Titration experiments in mouse embryo fibroblasts with a ligand-regulatable Cre-ER T show that toxicity is dependent on the level of Cre activity. Prolonged, low levels of Cre activity permit recombination without concomitant toxicity. This urges for a careful titration of Cre activity in conditional gene modification in mammalian cells.genotoxicity ͉ conditional knockout

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Roland Kanaar

Chromosomal stability and the DNA double-stranded break connection

Repair of DNA interstrand cross-links

DNA Double-Strand Break Repair: All's Well that Ends Well

Growth inhibition and DNA damage induced by Cre recombinase in mammalian cells

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