AI Article Synopsis
- Chromosome fusions pose risks to genome integrity and are linked to cancer by initiating catastrophic mutations such as breakage-fusion-bridge cycles and chromothripsis.
- A new genetic assay, called the chromosome fusion capture (CFC) assay, was developed to detect and measure rare chromosome fusions in budding yeast, revealing the baseline rate of these fusions in healthy cells.
- The study found that the stability of chromosome ends is influenced by certain proteins at telomeres that have both positive and negative effects, and the CFC assay also highlights the role of ionizing radiation in causing NHEJ-dependent chromosome fusions.
Article Abstract
Chromosome fusions threaten genome integrity and promote cancer by engaging catastrophic mutational processes, namely chromosome breakage-fusion-bridge cycles and chromothripsis. Chromosome fusions are frequent in cells incurring telomere dysfunctions or those exposed to DNA breakage. Their occurrence and therefore their contribution to genome instability in unchallenged cells is unknown. To address this issue, we constructed a genetic assay able to capture and quantify rare chromosome fusions in budding yeast. This chromosome fusion capture (CFC) assay relies on the controlled inactivation of one centromere to rescue unstable dicentric chromosome fusions. It is sensitive enough to quantify the basal rate of end-to-end chromosome fusions occurring in wild-type cells. These fusions depend on canonical nonhomologous end joining (NHEJ). Our results show that chromosome end protection results from a trade-off at telomeres between positive effectors (Rif2, Sir4, telomerase) and a negative effector partially antagonizing them (Rif1). The CFC assay also captures NHEJ-dependent chromosome fusions induced by ionizing radiation. It provides evidence for chromosomal rearrangements stemming from a single photon-matter interaction.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8266670 | PMC |
| http://dx.doi.org/10.1093/nar/gkab502 | DOI Listing |
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