Meiotic and mitotic fine-structure maps of two efficient UGA suppressors of Schizosaccharomyces pombe which are known (sup3-e) or inferred (sup9-e) to code for two serine tRNAs carrying the mutant anticodon U*CA (Kohli et al. 1979a, b, Rafalski et al. 1979) are presented. Maps based on spontaneous meiotic, spontaneous mitotic and MMS induced mitotic recombination between the primary site of the anticodon mutation and a number of inactivating second-site mutations are similar. Specific marker effects, which drastically increase the frequency of spontaneous meiotic and mitotic recombination in crosses involving one or the other of four exceptional sites (including the anticodon sites of both sup3-e and sup9-e), disappear when mapping is based on MMS induced mitotic recombination. The meiotic marker effect characterizing the anticodon site of one of the two efficient UGA suppressors (sup3-e) also disappears upon further mutation to an inefficient UAA suppressor allele (sup3-i), as shown by its absence in a fine-structure map based on meiotic recombination between the anticodon mutation of this ochre suppressor allele and a new set of inactivating second-site mutations derived from it.
Meiotic fine-structure maps of two efficient UGA suppressors of Schizosaccharomyces pombe which are known (sup8-e) or inferred (sup10-e) to code for two leucine tRNAs carrying the mutant anticodon U(*)CA (Kohli et al. 1979, 1980a, b; Wetzel et al. 1979; Mao et al. 1981) are presented. In both cases, the recombination frequencies given by the primary site of the anticodon mutation fitwell into the map defined by the sites of a number of inactivating secondary mutations. This contrasts the corresponding situation found in the serine tRNA genes sup3 and sup9 where the anticodon site exhibits a specific marker effect which strongly increases recombination frequencies in crosses with all revertant sites, due to a decrease in the efficiency of excision repair of base-pair mismatches whenever the anticodon site is included in hybrid-DNA (Hofer et al. 1979; Munz and Leupold 1979; Thuriaux et al. 1980). A pronounced specific marker effect which leads to a several fold increase of the recombination frequencies over those expected is observed, however, at one of the secondary inactivating sites mapping in the leucine tRNA gene sup8.
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