Summary
This study concerns the chromosomal genes controlling the synthesis of cytochrome c in yeast. In the wild type there are two molecular species of cytochrome c : iso-1 (major from) and iso-2 (minor form) which differ in many positions of their amino-acid sequence. A mutation, CY1→cy1-1, in the structural gene for iso-1, leads to iso-1 deficiency, while retaining a normal albeit small amount of iso-2-cytochrome c.
The cyI-1 mutant does not grow on DL-lactate as sole carbon source, while the wild type does. This property was used for selecting cytochrome c rich revertants (CYT) from cytochrome c deficient strains cy1-1; ca 200 revertants were isolated after extensive nitrous acid mutagenesis from a haploid cy1-1 strain or from a diploid cy1-1/cy1-1 strain and ca 30 of them were analyzed genetically and biochemically. The cytochrome c of seven (CYT) revertants was extracted and characterized; none of them contained iso-1-cytochrome c, but all contained large amount of iso-2-cytochrome csufficient to compensate for the deficiency. It was concluded that none of the revertants resulted from back mutation of cy1-1 and that the cy1-1 mutation is a deletion or some other irreversible aberration. These conclusions were corroborated by genetic analysis. It was shown that every reversion is due to a chromosomal mutation segregating as a single gene. Five unlinked gene loci, CY2A, CY2B, CY2C, CY2D, CY2E, were uncovered in this way. None of them were linked to the CY1 locus. Revertants selected in the diploid strain were dominant or semi-dominant while those selected in the haploid strain were recessive. To the first class belong alleles at loci CY2A, CY2B, CY2C, while to the latter belong alleles at loci CY2D and CY2E.
Five unlinked loci are implicated in iso-2-cytochrome c synthesis. Mutations selected at these loci act as suppressors of cytochrome c deficiency caused by a deletion of the CY1 locus. In fact the muations do not restore the synthesis of the deficient protein (iso-1-cytochrome c), but increase the synthesis of an another protein, structurally alike (iso-2-cytochrome c), and having very similar if not identical physiological activity. We propose the term of compensator genes to define this type of mutations. We discuss some possible mechanisms to explain the rarity of compensator mutations and the hypothesis that the locus CY2A could correspond not only to the regulatory gene for iso-2-cytochrome c but also to the structural one.
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Communicated by F. Kaudewitz and W. Maas
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Clavilier, L., Péré, G. & Slonimski, P.P. Mise en évidence de plusieurs loci indépendants impliqués dans la synthèse de l'iso-2-cytochrome c chez la levure. Molec. Gen. Genet. 104, 195–218 (1969). https://doi.org/10.1007/BF00272801
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DOI: https://doi.org/10.1007/BF00272801