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Journal article

Aerobic physiology of redox-engineered Saccharomyces cerevisiae strains modified in the ammonium assimilation for increased NADPH availability

By Santos, Maria Margarida M. dos1,2; Thygesen, G.; Kotter, P.; Olsson, Lisbeth1,2; Nielsen, Jens1,2

From

Center for Microbial Biotechnology, Department of Systems Biology, Technical University of Denmark1

Department of Systems Biology, Technical University of Denmark2

Recombinant strains altered in the ammonium assimilation pathways were constructed with the purpose of increasing NADPH availability. The NADPH-dependent glutamate dehydrogenase encoded by GDH1, which accounts for a major fraction of the NADPH consumption during growth on ammonium, was deleted, and alternative pathways for ammonium assimilation were overexpressed: GDH2 (NADH-consuming) or GLN1 and GLT1 (the GS-GOGAT system).

The flux through the pentose phosphate pathway during aerobic growth on glucose decreased to about half that of the reference strain Saccharomyces cerevisiae CEN.KK113-7D, indicating a major redox alteration in the strains. The basic growth characteristics of the recombinant strains were not affected to a great extent, but the dilution rate at which the onset of aerobic fermentation occurred decreased, suggesting a relation between the onset of the Crabtree effect and the flux through the Embden-Meyerhof-Parnas pathway downstream of glucose 6-phosphate.

No redox effect was observed in a strain containing a deletion of GLR1, encoding glutathione reductase, an enzyme that is NADPH-consuming.

Language: English
Year: 2003
Pages: 59-68
ISSN: 15671364 and 15671356
Types: Journal article
DOI: 10.1016/S1567-1356(03)00155-7
Keywords

Aerobiosis Ammonia Ammonium assimilation Critical dilution rate Fermentation Gene Expression Genes, Fungal Genetic Engineering Glutamate dehydrogenase Glutathione reductase Glycolysis Metabolic engineering NADP Oxidation-Reduction Productostat Redox metabolism Saccharomyces cerevisiae

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