Beyond ERCs: exploring catastrophic forms of rDNA instability in aging yeast
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Single-celled organisms grown in identical conditions have variable life spans. Identifying the factors that drive the inherent variability in life span is crucial for our understanding of aging at a fundamental level. Here, we revisit the role of chromosome XII instability as a source of life span variability in aging populations of the budding yeast, Saccharomyces cerevisiae . We followed populations of mother cells as they aged and quantified changes in karyotype, DNA content, and aberrant DNA structures, including the production of extrachromosomal rDNA circles (ERCs). We found that cells massively amplified their rDNA both as ERCs and as a structural form that could not be resolved on CHEF gels. We propose a model describing how these unresolved structures are generated. Our model, which we call CICR (Catastrophic IntraChromosomal Recombination), describes the consequences of recombination between repeats of different replication status. At the completion of replication, when all other replication forks have successfully terminated, CICR events leave behind a single, unopposed replication fork in a branched form of Chr XII that has profound consequences during mitosis and/or subsequent cycles. This form of instability within the ribosomal DNA can lead to a myriad of toxic recombination products that may contribute to the life span variability in isogenic populations of aging yeast.
AUTHOR SUMMARY
Aging is an uphill battle against entropy. The wear and tear on biological processes in cells require surveillance mechanisms and repair processes to stave off the inevitable. A cell’s genome is constantly under external and internal insults that can ultimately lead to death. Known events that impact a cell’s DNA are damage from free radicals (produced by the very oxygen needed for survival), shortening of the caps on chromosomes (called telomeres) every time a cell divides, and mutations that accumulate over time that affect essential cell processes. Yeast is an excellent tool to examine specific causes of aging because of its asymmetric mode of cell division: a mother cell can divide a limited, but variable number of times before senescing. We have isolated cohorts of mother cells, examined their genomes over the course of their life span and find a new intrinsic insult that the genome must endure. We find, in addition to the accumulation of extrachromosomal copies of the genes that encode the RNA portion of ribosomes (rDNA), that cells accumulate a toxic product of genetic recombination within the rDNA. The chromosome that contains the rDNA becomes branched and/or fragmented which leads to cell death.
