Summary
This is a description of a new class of temperature sensitive pet mutants in Saccharomyces cereviase that lose all or part of their mitochondrial RNA at the restrictive temperature. These mutants fall into 8 different complementation groups, mna1 to mna8, and 2 different classes based on their phenotype. Class I mutations, mna1-1 through mna5-1, cause complete or partial loss of mitochondrial RNA at the restrictive temperature. The mutation, mna1-1, is especially interesting since it causes a loss of both mitochondrial DNA and RNA when the mutant is grown on a fermentable carbon source at the restrictive temperature. However, when this mutant is grown at the permissive temperature on a non-fermentable carbon source then shifted to the restrictive temperature, only the mitochondrial RNA is lost. This indicates that the primary cause for the pet phenotype is due to the loss of mitochondrial RNA and not DNA. Class II mutations, mna6-1 through man8-1, cause complete loss of the 14S rRNA after growth at the restrictive temperature in a fermentable carbon source. This loss appears to be specific for the 14S rRNA, since all other transcripts probed by Northern analysis are normal.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Berg PE, Lewin A, Christianson T, Rabinowitz M (1979) Nucleic Acids Res 6:2133–2150
Biswas TK, Edwards JC, Rabinowitz M, Getz GS (1985) Proc Natl Acad Sci USA 82:1954–1958
Borst P, Grivell LA (1978) Cell 15:708–723
Christianson T, Rabinowitz M (1983) J Biol Chem 258:14025–14033
Christianson T, Edwards JC, Mueller DM, Rabinowitz M (1983) Proc Natl Acad Sci USA 80:5564–5568
Cobon GS, Beilharz MW, Linnane AW, Nagley P (1982) Curr Genet 5:97–107
Dujardin G, Jacq C, Slonimski PP (1982) Nature 298:628–632
Edwards JC, Levens D, Rabinowitz M (1982) Cell 31:337–346
Edwards JC, Osinga KA, Christianson T, Hensgens LAM, Janssens PM, Rabinowitz M, Tabak HF (1983) Nucleic Acids Res 11:8269–8282
Grivell LA (1983) Sci Am 248:78–89
Gross G, Fields DA, Bautz EKF (1976) Mol Gen Genet 147:337–341
Henry SA, Donahue TF, Culbertson MR (1975) Mol Gen Genet 143:5–11
Kirschbaum JB, Claeys IV, Nasi S, Molholt B, Miller JH (1975) Proc Natl Acad Sci USA 72:2375–2379
Klapholz S, Esposito RE (1982) Genetics 100:387–412
Lazoswka J, Jacq C, Slonimski PP (1980) Cell 22:333–348
Levens D, Lustig A, Rabinowitz M (1981) J Biol Chem 256:1474–1481
Locker J, Rabinowitz M (1978) Methods Enzymol 56:3–16
Locker J (1979) Anal Biochem 133:511–514
Mason T, Breitbart M, Meyers J (1979) Methods Enzymol 56:131–139
Mortimer RK, Hawthorne DC (1969) Yeast genetics. In: Rose AH, Harrison JS (eds) The yeast, vol 1. Academic Press, London New York, p 385
Mueller DM, Getz GS (1986a) J Biol Chem 261:11756–11764
Mueller DM, Getz GS (1986b) J Biol Chem 261:11816–11822
Mueller DM, Getz GS (1986c) unpublished results
Myers AM, Pape LK, Tzagoloff A (1985) EMBO J 4:2087–2092
Netter P, Jacq C, Carignani G, Slonimski PP (1982) Cell 28:733–738
Ogur H, St. John R, Nagai S (1957) Science 125:928–929
Osinga KA, DeVries E, Van der Horst GTJ, Tabak HF (1984) Nucleic Acids Res 12:1889–1900
Osinga K, Tabak HF (1982) Nucleic Acids Res 10:3617–3626
Rigby PJW, Dieckmann M, Rhodes C, Berg P (1977) J Mol Biol 113:237–251
Thomas PS (1980) Proc Natl Acad Sci USA 77:5201–5205
Travers AA, Bucklano R, Goman M, LeGrice SSG, Scaife JB (1978) Nature 273:354–358
Tzagoloff A, Akai A, Needleman RB (1975) J Bacteriol 122:826–831
Author information
Authors and Affiliations
Additional information
This work was supported by Research Grant HL04442 from the National Institutes of Health
Deceased on October 18, 1983
Rights and permissions
About this article
Cite this article
Mueller, D.M., Biswas, T.K., Backer, J. et al. Temperature sensitive pet mutants in yeast Saccharomyces cerevisiae that lose mitochondrial RNA. Curr Genet 11, 359–367 (1987). https://doi.org/10.1007/BF00378178
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00378178