Summary
Alterations in the physical characteristics of mitochondrial DNA accompanied increased spontaneous mutability to cytoplasmic respiratory-deficiency in yeast. Two systems were used to modify mutation rates, one physiological, the other genetic. Cells in log phase were shown to be more mutable than cells in stationary phase, and glucose-repressed cells were shown to be more mutable than unrepressed cells. A nuclear gene which acts as a mitochondrial mutator was found to increase spontaneous mutation rate by a factor of ten. An increase in endogenous formation of G+C-rich fragments of mt-DNA accompanied a physiological state conducive to higher mutability, and it is proposed that increasedin vivo digestion of A+T-rich regions is involved in these alterations. Greater nuclease(s) activity accompanied the presence of the mutator gene, and it is proposed that this gene is concerned with the regulation of nuclease activity or with repair mechanisms.
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References
Bernardi, G., Faures, M., Piperno, G., Slonimski, P.P.: Mitochondrial DNA's from respiratory-sufficient and cytoplasmic respiratory-deficient mutant yeast. J. molec. Biol.48, 23–42 (1970)
Dujon, B., Slonimski, P.P., Weill, L.: Mitochondrial genetics IX: A model for recombinations and segregation of mitochondrial genomes inSaccharomyces cerevisiae. Genetics78, 415–437 (1974)
Ephrussi, B., Hottinguer, H.: On an unstable cell state in yeast. Cold Spr. Harb. Symp. quant. Biol.16, 75–85 (1951)
Goldthwaite, C.D., Cryer, D.R., Marmur, J.: Effect of carbon source on the replication and transmission of yeast mitochondrial genomes. Molec. Gen. Genet.133, 87–104 (1974)
James, A.P., Johnson, B.F., Inhaber, E.R., Gridgeman, N.T.: A kinetic analysis of spontaneousρ − mutations in yeast. Mutation Res.30, 199–208 (1975)
Michaelis, G., Douglass, S., Tsai, M., Criddle, R.S.: Mitochondrial DNA and suppressiveness of petite mutants inSaccharomyces cerevisiae. Biochem. Genet.5, 487–495 (1971)
Prunell, A., Bernardi, G.: The mitochondrial genome of wild-type yeast cells IV. Genes and Spacers. J. molec. Biol.86, 825–841 (1974)
Stevens, W.L.: Accurary of mutation rates. J. Genet.43, 301–307 (1942)
Storti, R.V., Sinclair, J.H.: Sequence homology between mitochondrial DNA and nuclear DNA in years. Biochemistry13, 4447–4455 (1974)
Williamson, D.H., Fenell, D.J.: Apparent dispersive replication of yeast mitochondrial DNA as revealed by density labelling experiments. Molec. gen. Genet.131, 193–207 (1974)
Zeman, L., Lusena, C.V.: DNA synthesis in isolated yeast mitochondria. Canad. J. Biochem.52, 941–949 (1974)
Zeman, L., Lusena, C.V.: Preferential digestion of A+T-rich stretches of yeast mitochondrial DNA in isolated mitochondria. Europ. J. Biochem.57, 561–567 (1975)
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Communicated by F. Kaudewitz
N.R.C.C. Publication No. 15211
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Lusena, C.V., James, A.P. Alterations in mitochondrial DNA of yeast which accompany genetically and environmentally controlled changes inρ − mutabilitymutability. Molec. Gen. Genet. 144, 119–125 (1976). https://doi.org/10.1007/BF02428099
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DOI: https://doi.org/10.1007/BF02428099