M
Manfred Rizzi
Researcher at University of Stuttgart
Publications - 19
Citations - 2191
Manfred Rizzi is an academic researcher from University of Stuttgart. The author has contributed to research in topics: Saccharomyces cerevisiae & Yeast. The author has an hindex of 12, co-authored 19 publications receiving 2111 citations.
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Journal ArticleDOI
An interlaboratory comparison of physiological and genetic properties of four Saccharomyces cerevisiae strains.
J.P. Van Dijken,J. Bauer,Luca Brambilla,P Duboc,Jean Marie François,Carlos Gancedo,M. L. F. Giuseppin,J. J. Heijnen,Mike Hoare,H.C Lange,E.A Madden,Peter Niederberger,Jens Nielsen,Jean Luc Parrou,Thomas Petit,Danilo Porro,Matthias Reuss,N.A.W. van Riel,Manfred Rizzi,H. Y. Steensma,H. Y. Steensma,CT Verrips,J Vindeløv,Jack T. Pronk +23 more
TL;DR: On the basis of physiological as well as genetic properties, strains from the CEN.PK family were selected as a platform for cell-factory research on the stoichiometry and kinetics of growth and product formation.
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In vivo analysis of metabolic dynamics in Saccharomyces cerevisiae: II. Mathematical model.
TL;DR: A mathematical model of glycolysis in Saccharomyces cerevisiae is presented and predicts changes in the levels of intra- and extracellular metabolites after a glucose pulse, except for pyruvate and adenine nucleotides.
Journal ArticleDOI
In vivo analysis of metabolic dynamics in Saccharomyces cerevisiae : I. Experimental observations
TL;DR: Significant differences between the adenine nucleotide concentrations in the cytoplasm and mitochondria indicated the importance of compartmentation for the regulation of the glycolysis.
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In Vivo Analysis of Glucose-Induced Fast Changes in Yeast Adenine Nucleotide Pool Applying a Rapid Sampling Technique
TL;DR: A fast sampling technique was developed to determine rapid changes of in vivo concentrations of yeast metabolites, occurring in the range of seconds after a glucose injection, and found a significant decrease in ATP concentration and a coincident rise of ADP and AMP values were found.
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In vivo dynamics of the pentose phosphate pathway in Saccharomyces cerevisiae.
TL;DR: In the case of 6-phosphogluconate dehydrogenase an ordered Bi-Ter mechanism with a competitive inhibition by MgATP 2− has been found and this regulation phenomenon guarantees the balance of fluxes through glycolysis and pentose phosphate pathway during the dynamic time period.