Add to ORKGThe propensity of segmental duplications (SDs) to promote genomic instability is of increasing interest since their involvement in numerous human genomic diseases and cancers was revealed. However, the mechanism(s) responsible for their appearance remain mostly speculative. Here, we show that in budding yeast, replication accidents, which are most likely transformed into broken forks, play a causal role in the formation of SDs. The Pol32 subunit of the major replicative polymerase Pold is required for all SD formation, demonstrating that SDs result from untimely DNA synthesis rather than from unequal crossing-over. Although Pol32 is known to be required for classical (Rad52-dependant) break-induced replication, only half of the SDs can be a...
Microhomology (MH) flanking a DNA double-strand break (DSB) drives chromosomal rearrangements but it...
Maintenance of genome stability is carried out by a suite of DNA repair pathways that ensure the rep...
Timely completion of DNA replication in each cell cycle is crucial for maintaining genomic integrity...
International audienceThe propensity of segmental duplications (SDs) to promote genomic instability ...
Abstract Replication fork stalling can provoke fork reversal to form a four-way DNA junction. This r...
In budding yeast, one-ended DNA double-strand breaks (DSBs) and damaged replication forks are repair...
In budding yeast, one-ended DNA double-strand breaks (DSBs) and damaged replication forks are repair...
Recombinational repair processes multiple types of DNA lesions. Though best understood in the repair...
<div><p>Homologous recombination is a universal mechanism that allows repair of DNA and provides sup...
DNA suffers constant damage, leading to a variety of lesions that require repair. One of the most de...
International audienceGenome duplication is essential for cell proliferation, and the mechanisms reg...
<div><p>DNA sequences capable of adopting non-canonical secondary structures have been associated wi...
Eukaryotic chromosomes are duplicated during S phase and transmitted to progeny during mitosis with ...
DNA sequences capable of adopting non-canonical secondary structures have been associated with gross...
Duplication is thought to be one of the main pro-cesses providing a substrate on which the effects o...
Microhomology (MH) flanking a DNA double-strand break (DSB) drives chromosomal rearrangements but it...
Maintenance of genome stability is carried out by a suite of DNA repair pathways that ensure the rep...
Timely completion of DNA replication in each cell cycle is crucial for maintaining genomic integrity...
International audienceThe propensity of segmental duplications (SDs) to promote genomic instability ...
Abstract Replication fork stalling can provoke fork reversal to form a four-way DNA junction. This r...
In budding yeast, one-ended DNA double-strand breaks (DSBs) and damaged replication forks are repair...
In budding yeast, one-ended DNA double-strand breaks (DSBs) and damaged replication forks are repair...
Recombinational repair processes multiple types of DNA lesions. Though best understood in the repair...
<div><p>Homologous recombination is a universal mechanism that allows repair of DNA and provides sup...
DNA suffers constant damage, leading to a variety of lesions that require repair. One of the most de...
International audienceGenome duplication is essential for cell proliferation, and the mechanisms reg...
<div><p>DNA sequences capable of adopting non-canonical secondary structures have been associated wi...
Eukaryotic chromosomes are duplicated during S phase and transmitted to progeny during mitosis with ...
DNA sequences capable of adopting non-canonical secondary structures have been associated with gross...
Duplication is thought to be one of the main pro-cesses providing a substrate on which the effects o...
Microhomology (MH) flanking a DNA double-strand break (DSB) drives chromosomal rearrangements but it...
Maintenance of genome stability is carried out by a suite of DNA repair pathways that ensure the rep...
Timely completion of DNA replication in each cell cycle is crucial for maintaining genomic integrity...