Abstract
The pentose phosphate pathway (PPP) is a route that can work in parallel to glycolysis in glucose degradation in most living cells. It has a unidirectional oxidative part with glucose-6-phosphate dehydrogenase as a key enzyme generating NADPH, and a non-oxidative part involving the reversible transketolase and transaldolase reactions, which interchange PPP metabolites with glycolysis. While the oxidative branch is vital to cope with oxidative stress, the non-oxidative branch provides precursors for the synthesis of nucleic, fatty and aromatic amino acids. For glucose catabolism in the baker’s yeast Saccharomyces cerevisiae, where its components were first discovered and extensively studied, the PPP plays only a minor role. In contrast, PPP and glycolysis contribute almost equally to glucose degradation in other yeasts. We here summarize the data available for the PPP enzymes focusing on S. cerevisiae and Kluyveromyces lactis, and describe the phenotypes of gene deletions and the benefits of their overproduction and modification. Reference to other yeasts and to the importance of the PPP in their biotechnological and medical applications is briefly being included. We propose future studies on the PPP in K. lactis to be of special interest for basic science and as a host for the expression of human disease genes.
Highlights
For a long time investigations of central carbohydrate metabolism in yeast has raised comparatively little scientific interest
With respect to basic research, and in the light of the importance of the Phosphate Pathway (PPP) for carbohydrate metabolism in K. lactis as opposed to S. cerevisiae, it is surprising that very few studies have been dedicated to its genetics so far
This is probably due to the fact that genetic manipulations, while being basically similar to those of S. cerevisiae, are more timeconsuming and laborious in K. lactis [8], and our preliminary results indicate that many of the genes encoding PPP enzymes may be essential in this yeast (Figure 1)
Summary
For a long time investigations of central carbohydrate metabolism in yeast has raised comparatively little scientific interest This has changed in the last few years with their increasing relevance for novel biotechnological processes and the enormous potential of the new discipline of synthetic biology [1,2]. Yeast species have been intensively studied as alternative microbial models and production organisms [5,6,7]. In this context, we decided to give an overview of the role of the pentose phosphate pathway, further abbreviated as PPP, and its constituting enzymes in yeast sugar metabolism, as compared to glycolysis.
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