2018
DOI: 10.1007/s00412-017-0658-1
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Main steps in DNA double-strand break repair: an introduction to homologous recombination and related processes

Abstract: DNA double-strand breaks arise accidentally upon exposure of DNA to radiation and chemicals or result from faulty DNA metabolic processes. DNA breaks can also be introduced in a programmed manner, such as during the maturation of the immune system, meiosis, or cancer chemo- or radiotherapy. Cells have developed a variety of repair pathways, which are fine-tuned to the specific needs of a cell. Accordingly, vegetative cells employ mechanisms that restore the integrity of broken DNA with the highest efficiency a… Show more

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Cited by 284 publications
(301 citation statements)
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References 329 publications
(397 reference statements)
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“…While unrepaired DSBs may result in cell death, their inaccurate repair can lead to mutagenesis and inappropriate chromosomal translocations (Ranjha et al, 2018). DNA doublestrand breaks (DSBs) are difficult to repair due to the loss of genetic information in both DNA strands.…”
Section: Introductionmentioning
confidence: 99%
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“…While unrepaired DSBs may result in cell death, their inaccurate repair can lead to mutagenesis and inappropriate chromosomal translocations (Ranjha et al, 2018). DNA doublestrand breaks (DSBs) are difficult to repair due to the loss of genetic information in both DNA strands.…”
Section: Introductionmentioning
confidence: 99%
“…DNA doublestrand breaks (DSBs) are difficult to repair due to the loss of genetic information in both DNA strands. The sister chromatid serves as an HR template in most cases in vegetative cells, explaining why recombination can only function in the cell cycle phases when sister chromatids are available (Ranjha et al, 2018). Cells possess two main mechanisms for DSB repair.…”
Section: Introductionmentioning
confidence: 99%
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“…DSBs are the most deleterious form of DNA damage and are repaired by homologous recombination using, in most cases, a stretch of intact homologous DNA on the sister chromatid as a template [74]. The Mre11 nuclease, as part of the MRN complex, is the first detector of DSBs and initiates DNA resection in coordination with the actions of other nucleases and helicases, creating ssDNA overhangs at DSB sites [74]. This ssDNA region serves as a loading platform for the Rad51 recombinase to initiate homologous paring of the ssDNA and intact dsDNA template, which is followed by DNA synthesis [75].…”
Section: Implications For Sister Chromatid Cohesionmentioning
confidence: 99%
“…A key intermediate in the complex choreography of the DNA strands underlying HR is single-stranded DNA (ssDNA), generated near the lesion, bound by RAD51 protein. Initial nucleation of RAD51 on the ssDNA is followed by binding of additional protomers, resulting in a dynamic nucleoprotein filament with homology search and DNA strand exchange capabilities 2 . The product of the breast cancer–associated gene 2 ( BRCA2 ) acts as a molecular scaffold (mediator) in this process by chaperoning RAD51 onto replication protein A (RPA)-coated ssDNA 3 .…”
Section: Introductionmentioning
confidence: 99%