MIG1 Antibody

1. 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 DeltaMIG1 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. PMID: 29921394
2. The authors find that the repressor operates in clusters, which upon extracellular signal detection, translocate from the cytoplasm, bind to nuclear targets and turnover. PMID: 28841133
3. study reports that Mig1 is dephosphorylated by Glc7-Reg1 in an apparently glucose-dependent mechanism but also by a mechanism independent of glucose and Glc7-Reg1 PMID: 28854669
4. with decreasing levels of post-shift glucose, the transient response of Mig1 tend to be faster, more extended, and displays an increased cell-to-cell variability PMID: 25893847
5. The impact of Mig1p on two well-known glucose-repression systems, SUC2 and GAL gene expression systems is reported. PMID: 15698380
6. Mig1 expressed in yeast binds to SUC2 B; sucrose gradient sedimentation resolved a larger molecular weight form of Mig1 in whole-cell extracts that was not seen in purified samples and may represent a complex with another protein PMID: 17133623
7. Upon derepression all three subunits (alpha, beta, and gamma) of the positively acting Snf1 kinase complex localize to the nuclear periphery, resulting in phosphorylation of Mig1 and its export to the cytoplasm. PMID: 17237508
8. The presence of normal levels of MIG1 mRNA in the mutant and its association with the polysome fraction suggests that depletion of Mig1p is the result of protein degradation PMID: 18022394
9. Hap4, Cat8 and Mig1 activities are not affected by different glucose concentrations in this respirator y yeast strain. PMID: 18671860
10. gene expression by the yeast repressor Mig1 PMID: 19087243

Show More

Hide All

KEGG: sce:YGL035C

STRING: 4932.YGL035C