Máthéné Szigeti, ZsuzsaBatzorig, Khuslen2022-05-062022-05-062022-05-05http://hdl.handle.net/2437/332476The baker's yeast, Saccharomyces cerevisiae, has been at the forefront of post- genomic research and the development of high-throughput techniques, making global expression straightforward to execute.Saccharomyces cerevisiaeis also known as a top-fermenting yeast because, in the presence of sugars and other essential nutrients like amino acids, minerals, and vitamins,S. cerevisiaewill conduct fermentative metabolism to ethanol and carbon-dioxide as the cells strive to make energy and regenerate the coenzyme NAD+ under anaerobic conditions.However, little is known about molybdenum treatment's transport, translocation, and potential cumulative effects in woody perennials like grapevines. A dry red wine yeast was utilized in this experiment. In a microbiology lab, Saccharomyces cerevisiae was used to examine the impact of heavy metal ions on cell development. According to the results of the experiment, molybdenum has a less toxic effect on cell growth than other metals. At 20 mg/L, molybdenum ion produces a higher number of CFU/ml than other metals. The effect of molybdenum on fermentation, on the other hand, remains unaffected because all different varieties of molybdenum concentration effect on alcohol yields were lower than control agents.35enfermentationSaccharomyces cerevisiaeMolybdenummolybdeum cofactormolybdenum deficiencymolybdenum toxicityalcohol yieldcell growthwell plate testyeast speciesalcohol beverageswineDEENK Témalista::Biológiai tudományok