Recessive lethality of yeast strains carrying the SUP61 suppressor results from loss of a transfer RNA with a unique decoding function

Abstract

A serine-inserting ochre suppressor ( SUP61) and its amber allele ( SUP- RL1) in the yeast Saccharomyces cerevisiae can only be derived from or maintained in diploid strains heterozygous for the suppressor transfer RNA locus (Brandriss et al., 1975). Two models have been proposed to account for this recessive lethal phenotype. In one, lethality results from the presence of the altered gene product; excessive suppression could interfere with the proper termination of translation. In the second model, lethality is due to the loss of the wild-type function; the suppressor mutation could alter an essential gene that is present in only a single copy in the haploid genome. We have tested a set of specific genetic and biochemical predictions which uniquely distinguish these models. We first isolated several mutant strains carrying second-site mutations which lie within, or are closely linked to, the SUP61 locus. Despite the absence of any biologically detectable suppressor activity, these mutants still give rise to only two viable spores per tetrad. As in the parent, lethality is absolutely correlated with the segregation of the SUP61 allele, and thus it cannot be due solely to suppression. To demonstrate that the SUP61 mutation alters an essential function in haploid cells, a cloned copy of the wild-type gene ( sup +) was introduced into a diploid containing SUP61 by transformation. Following sporulation, the transformant gave rise to four viable spores per tetrad. We have shown by hybridization analysis that the two spores per tetrad which have suppressor function contain the cloned sup + gene and plasmid DNA integrated in tandem with the SUP61 gene. Piper (1978) has shown that the amber suppressor SUP- RL1 is derived from a tRNA UCG Ser gene. More recently, we and others (Etcheverry et al., 1979; Olson et al., 1981; Broach et al., 1981) have provided evidence that the gene coding for this tRNA species exists in only a single copy per haploid genome. Our ability to “cure” the recessive lethal phenotype of SUP61 now allows the conclusion that the gene altered by the suppressor mutation codes for the only isoaccepting species of tRNA Ser which can decode UCG codons in vivo.