Charlotte Audoynaud scite author profile

Changes in environmental temperature influence cellular processes and their dynamics, and thus affect the life cycle of organisms that are unable to control their cell/body temperature. Meiotic recombination is the cellular process essential for producing healthy haploid gametes by providing physical links (chiasmata) between homologous chromosomes to guide their accurate segregation. Additionally, meiotic recombination-initiated by programmed DNA doublestrand breaks (DSBs)-can generate genetic diversity and, therefore, is a driving force of evolution. Environmental temperature influencing meiotic recombination outcome thus may be a crucial determinant of reproductive success and genetic diversity. Indeed, meiotic recombination frequency in fungi, plants and invertebrates changes with temperature. In most organisms, these temperature-induced changes in meiotic recombination seem to be mediated through the meiosis-specific chromosome axis organization, the synaptonemal complex in particular. The fission yeast Schizosaccharomyces pombe does not possess a synaptonemal complex. Thus, we tested how environmental temperature modulates meiotic recombination frequency in the absence of a fully-fledged synaptonemal complex. We show that intragenic recombination (gene conversion) positively correlates with temperature within a certain range, especially at meiotic recombination hotspots. In contrast, crossover recombination, which manifests itself as chiasmata, is less affected. Based on our observations, we suggest that, in addition to changes in DSB frequency, DSB processing could be another temperaturesensitive step causing temperature-induced recombination rate alterations. Keywords meiosis. meiotic recombination. environmental temperature. Schizosaccharomyces pombe Abbreviations aim artificially introduced marker DSB(s) DNA double-strand break(s) DNA deoxyribonucleic acid CO(s) crossover(s) GC-CO gene conversion associated with a crossover Chromosome Res

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Non-homologous end-joining at challenged replication forks: an RNA connection?

Audoynaud

Vagner

Lambert

2021

Trends in Genetics

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Charlotte Audoynaud

Intragenic meiotic recombination in Schizosaccharomyces pombe is sensitive to environmental temperature changes

Non-homologous end-joining at challenged replication forks: an RNA connection?

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