Werner Mailinger scite author profile

Knowledge of concentrations of intracellular metabolites is important for quantitative analysis of metabolic networks. As far as the very fast response of intracellular metabolites in the millisecond range is concerned, the frequently used pulse technique shows an inherent limitation. The time span between the disturbance and the first sample is constrained by the time necessary to obtain a homogeneous distribution of the pertubation within the bioreactor. For determination of rapid changes, a novel sampling technique based on the stopped-flow method has been developed. A continuous stream of biosuspension leaving the bioreactor is being mixed with a glucose solution in a turbulent mixing chamber. Through computer-aided activation of sequentially positioned three-way valves, different residence times and thus reaction times can be verified. The application of this new sampling method is illustrated with examples including measurements of adenine nucleotides and glucose-6-phosphate in Saccharomyces cerevisiae as well as measurements related to the PTS system in Escherichia coli.

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Rapid and highly automated determination of adenine and pyridine nucleotides in extracts of Saccharomyces cerevisiae using a micro robotic sample preparation-HPLC system1We dedicate this contribution to the loving memory of Prof. Manfred Rizzi, one of the authors, who died after submission of the final version.1

Mailinger

Baumeister

Reuß

et al. 1998

Journal of Biotechnology

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Werner Mailinger

In vivo analysis of metabolic dynamics inSaccharomyces cerevisiae : I. Experimental observations

In Vivo Analysis of Glucose-Induced Fast Changes in Yeast Adenine Nucleotide Pool Applying a Rapid Sampling Technique

New bioreactor‐coupled rapid stopped‐flow sampling technique for measurements of metabolite dynamics on a subsecond time scale

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