International audienceMeiotic recombination is essential for fertility and allelic shuffling. Canonical recombination models fail to capture the observed complexity of meiotic recombinants. Here, by combining genome-wide meiotic heteroduplex DNA patterns with meiotic DNA double-strand break (DSB) sites, we show that part of this complexity results from frequent template switching during synthesis-dependent strand annealing that yields noncrossovers and from branch migration of double Holliday junction (dHJ)-containing intermediates that mainly yield crossovers. This complexity also results from asymmetric positioning of crossover intermediates relative to the initiating DSB and Msh2-independent conversions promoted by the suspected dHJ reso...
Meiotic recombination gives rise to crossovers, which are required in most organisms for the faithfu...
Homologous recombination (HR) is required to promote both correct chromosome segregation and genetic...
<p>(<b>A</b>) A double-strand break (DSB) is processed to form 3′ single strand overhangs. (<b>B</b>...
International audienceMeiotic recombination is essential for fertility and allelic shuffling. Canoni...
DNA breaks may arise accidentally in vegetative cells or in a programmed manner in meiosis. The usag...
Crossovers (COs) play a critical role in ensuring proper alignment and segregation of homologous chr...
SummaryCrossing-over between homologous chromosomes facilitates their accurate segregation at the fi...
International audienceMeiotic DNA double-strand breaks (DSBs) initiate crossover (CO) recombination,...
International audienceDNA double-strand breaks (DSBs) are introduced in meiosis to initiate recombin...
AbstractUnitary models of meiotic recombination postulate that a central intermediate containing Hol...
AbstractDuring meiosis, branched DNA molecules containing information from both parental chromosomes...
In most meiotic systems, recombination is essential to form connections between homologs that ensure...
Crossovers (COs) play a critical role in ensuring proper alignment and segregation of homologous chr...
Homologous recombination is a dynamic process by which DNA sequences and strands are exchanged. In m...
Meiotic recombination gives rise to crossovers, which are required in most organisms for the faithfu...
Homologous recombination (HR) is required to promote both correct chromosome segregation and genetic...
<p>(<b>A</b>) A double-strand break (DSB) is processed to form 3′ single strand overhangs. (<b>B</b>...
International audienceMeiotic recombination is essential for fertility and allelic shuffling. Canoni...
DNA breaks may arise accidentally in vegetative cells or in a programmed manner in meiosis. The usag...
Crossovers (COs) play a critical role in ensuring proper alignment and segregation of homologous chr...
SummaryCrossing-over between homologous chromosomes facilitates their accurate segregation at the fi...
International audienceMeiotic DNA double-strand breaks (DSBs) initiate crossover (CO) recombination,...
International audienceDNA double-strand breaks (DSBs) are introduced in meiosis to initiate recombin...
AbstractUnitary models of meiotic recombination postulate that a central intermediate containing Hol...
AbstractDuring meiosis, branched DNA molecules containing information from both parental chromosomes...
In most meiotic systems, recombination is essential to form connections between homologs that ensure...
Crossovers (COs) play a critical role in ensuring proper alignment and segregation of homologous chr...
Homologous recombination is a dynamic process by which DNA sequences and strands are exchanged. In m...
Meiotic recombination gives rise to crossovers, which are required in most organisms for the faithfu...
Homologous recombination (HR) is required to promote both correct chromosome segregation and genetic...
<p>(<b>A</b>) A double-strand break (DSB) is processed to form 3′ single strand overhangs. (<b>B</b>...