Aneuploidy alleviates the cell proliferation defect caused by mutations affecting origin licensing in Saccharomyces cerevisiae
Christophe de La Roche Saint-André

TL;DR
Extra chromosomes can help yeast cells with DNA replication defects by extending a key cell cycle phase.
Contribution
Aneuploidy compensates for DNA replication licensing defects by prolonging the G1 phase in yeast.
Findings
An extra chromosome III copy improves growth in orc5–1 mutants.
Growth enhancement is not gene-specific but depends on G1 phase extension.
Cln3 deletion mimics the growth benefit of aneuploidy in replication mutants.
Abstract
Although aneuploidy is generally detrimental to the survival and growth of normal cells, it can be beneficial under certain stress conditions, such as those caused by harmful mutations. In Saccharomyces cerevisiae, we find that duplication of chromosome III accelerates cell proliferation in the orc5–1 mutant. Enhanced proliferation is also observed when a fragment from a different chromosome is introduced, demonstrating that the benefit is not simply due to extra copies of specific genes. A comparable growth-enhancing effect of an extra chromosome is observed for mutations affecting other proteins involved in DNA replication licensing. The suppression of orc5–1 growth defect is also observed in the absence of the G1 cyclin Cln3, which lengthens the G1 phase, while overexpressing CLN3, which shortens G1, has the opposite effect. Additionally, Cln3 loss mirrors the effect of an extra…
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Taxonomy
TopicsMicrotubule and mitosis dynamics · DNA Repair Mechanisms · Bacterial Genetics and Biotechnology
