Genetic evidence for inducibility of recombination competence in yeast.

AUTOR(ES)

Fabre, F

RESUMO

Recombination between unirradiated chromosomes was induced by UV or x-ray irradiation of haploids followed by a mating with heteroallelic diploids of Saccharomyces cerevisiae. The selected event of intragenic recombination did not involve the participation of the irradiated chromosome and apparently was not caused by lesions introduced into the unirradiated chromosomes by some indirect process. The results favor the idea that recombination is repressed in the majority of vegetative cells and that one effect of radiation is the release of some factor(s) necessary for recombination. Consequently, the proportion of competent cells (i.e., cells able to recombine) in the population increases. This competent state seems necessary not only for the recombinational repair of radiation-induced lesions but also, since recombinants are produced in the absence of such lesions, for spontaneous recombination. Photoreactivation of the UV-irradiated haploids led to a decrease in the production of recombinants. Hence, lesions in the DNA appear to be responsible for the induction of the recombinational ability.

Documentos Relacionados

• Evidence for two pathways of meiotic intrachromosomal recombination in yeast.
• Genetic Evidence for Preferential Strand Transfer during Meiotic Recombination in Yeast
• Transcriptional induction of Ty recombination in yeast.
• Evidence that a single DNA ligase is involved in replication and recombination in yeast.
• Genetic control of chromosome length in yeast.