Induction of petite mutation and inhibition of synthesis of respiratory enzymes in various yeasts

It is generally accepted since PAsteur's studies of fermentation (1876) that a yeast, at least one capable of degrading sugars along a fermentative as well as a respiratory pathway, will make use of the energy provided by fermentative dissimilation when respiration is stopped by lack of oxygen. Neve

When growing cultures of S. cerevisiae are treated with high concentrations of ethidium bromide (greater than 50 mug/ml), three phases of petite induction may be observed: I. the majority of cells are rapidly converted to petite, II. subsequently a large proportion of cells recover the ability to fo

The induction of lethal events and cytoplasmic "petite" mutations in random and synchronously dividing cultures of haploid and diploid cells of Saccharomyces cerevisiae was determined after treatment with 8-Methoxypsoralen plus 365 nm light. Diploid cells were always more resistant than haploid cel

Hydroxyurea (HU) inhibits the premeiotic DNA replication and the meiotic events that followed, namely readiness, recombination commitment, haploidisation, sporulation commitment and ascus formation. Short incubations with HU (2-4 hrs) during the premeiotic replication (i.e. starting between 3 and 6.