RESUMO
Saccharomyces cerevisiae can utilize a wide range of carbon sources; however, in the presence of glucose the use of alternate carbon sources would be repressed. Several genes involved in the metabolic pathways exert these effects. Among them, the zinc finger protein, Mig1 (multicopy inhibitor of GAL gene expression) plays important roles in glucose repression of Saccharomyces cerevisiae. To investigate whether the alleviation of glucose effect would result in a switch to oxidative production pathway, MIG1 were disrupted in a haploid laboratory strain (2805) of S. cerevisiae. The impact of this disruption was studied under fully aerobic conditions when glucose was the sole carbon source. Our results showed that glucose repression was partly alleviated; i.e., ethanol, as a significant fermentation marker, and acetate productions were respectively decreased by 14.13% and 43.71% compared to the wild type. In ΔMIG1 strain, the metabolic shifting on the aerobic pathway and a significant increase in pyruvate and glycerol production suggested it as an optimally productive industrial yeast strain. However, further studies are needed to confirm these findings.
