Sakofsky, Cynthia J.Roberts, Steven A.Malc, EwaMieczkowski, Piotr A.Resnick, Michael A.Gordenin, Dmitry A.Malkova, Anna2016-03-042016-03-042014-06Sakofsky, C. J., Roberts, S. A., Malc, E., Mieczkowski, P. A., Resnick, M. A., Gordenin, D. A., & Malkova, A. (2014). Break-Induced Replication is a Source of Mutation Clusters Underlying Kataegis. Cell Reports, 7(5), 1640–1648. http://doi.org/10.1016/j.celrep.2014.04.053https://hdl.handle.net/1805/8696Clusters of simultaneous multiple mutations can be a source of rapid change during carcinogenesis and evolution. Such mutation clusters have been recently shown to originate from DNA damage within long single-strand (ss) DNA formed at resected double-strand breaks and dysfunctional replication forks. We identify here double-strand break (DSB)-induced replication (BIR) as another powerful source of mutation clusters that formed in nearly half of wild-type yeast cells undergoing BIR in the presence of alkylating damage. Clustered mutations were primarily formed along the track of DNA synthesis and were frequently associated with additional breakage and rearrangements. Moreover, the base specificity, strand coordination and strand bias of the mutation spectrum was consistent with mutations arising from damage in persistent ssDNA stretches within unconventional replication intermediates. Together, these features closely resemble kataegic events in cancers, suggesting that replication intermediates during BIR may be the most prominent source of mutation clusters across species.en-USPublisher PolicyDNA Breaks, Double-StrandedDNA, Single-StrandedGenome, FungalMutagenesisMutation RateSaccharomyces cerevisiaeDNA ReplicationArticle