
pmid: 31266898
pmc: PMC6751124
Abstract Ribosomal RNA genes are arranged in large arrays with hundreds of rDNA units in tandem. These highly repetitive DNA elements pose a risk to genome stability since they can undergo non-allelic exchanges. During meiosis DNA double strand breaks (DSBs) are induced as part of the regular program to generate gametes. Meiotic DSBs initiate homologous recombination (HR) which subsequently ensures genetic exchange and chromosome disjunction. In Arabidopsis thaliana we demonstrate that all 45S rDNA arrays become transcriptionally active and are recruited into the nucleolus early in meiosis. This shields the rDNA from acquiring canonical meiotic chromatin modifications, meiotic cohesin and meiosis-specific DSBs. DNA breaks within the rDNA arrays are repaired in a RAD51-independent, but LIG4-dependent manner, establishing that it is non-homologous end joining (NHEJ) that maintains rDNA integrity during meiosis. Utilizing ectopically integrated rDNA repeats we validate our findings and demonstrate that the rDNA constitutes a HR-refractory genome environment.
DNA End-Joining Repair, DNA Ligases, DNA Repair, DNA, Plant, Chromosomal Proteins, Non-Histone, Arabidopsis, Cell Cycle Proteins, DNA, Ribosomal, Genomic Instability, 106023 Molekularbiologie, DNA Breaks, Double-Stranded, 106052 Cell biology, Homologous Recombination, Cohesins, Arabidopsis Proteins, 106023 Molecular biology, Plants, Genetically Modified, Chromatin, Meiosis, Rad51 Recombinase, 106052 Zellbiologie, CRISPR-Cas Systems, Cell Nucleolus
DNA End-Joining Repair, DNA Ligases, DNA Repair, DNA, Plant, Chromosomal Proteins, Non-Histone, Arabidopsis, Cell Cycle Proteins, DNA, Ribosomal, Genomic Instability, 106023 Molekularbiologie, DNA Breaks, Double-Stranded, 106052 Cell biology, Homologous Recombination, Cohesins, Arabidopsis Proteins, 106023 Molecular biology, Plants, Genetically Modified, Chromatin, Meiosis, Rad51 Recombinase, 106052 Zellbiologie, CRISPR-Cas Systems, Cell Nucleolus
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