Juri M. Seletzky scite author profile

Scale-up from shake flasks to fermenters has been hampered by the lack of knowledge concerning the influence of operating conditions on mass transfer, hydromechanics, and power input. However, in recent years the properties of shake flasks have been described with empirical models. A practical scale-up strategy for everyday use is introduced for the scale-up of aerobic cultures from shake flasks to fermenters in batch and continuous mode. The strategy is based on empirical correlations of the volumetric mass transfer coefficient (k(L) a) and the pH. The accuracy of the empirical k(L) a correlations and the assumptions required to use these correlations for an arbitrary biological medium are discussed. To determine the optimal pH of the culture medium a simple laboratory method based on titration curves of the medium and a mechanistic pH model, which is solely based on the medium composition, is applied. The effectiveness of the scale-up strategy is demonstrated by comparing the behavior of Corynebacterium glutamicum on lactic acid in shake flasks and fermenters in batch and continuous mode. The maximum growth rate (micro(max) = 0.32 h(-1)) and the oxygen substrate coefficient (Y O2 /S= 0.0174 mol/l) of C. glutamicum on lactic acid were equal for shake flask, fermenter, batch, and continuous cultures. The biomass substrate yield was independent of the scale, but was lower in batch cultures (Y(X/S) = 0.36 g/g) than in continuous cultures (Y(X/S) = 0.45 g/g). The experimental data (biomass, respiration, pH) could be described with a simple biological model combined with a mechanistic pH model.

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Effect of elevated dissolved carbon dioxide concentrations on growth of Corynebacterium glutamicum on d-glucose and l-lactate

Bäumchen

Knoll

Husemann

et al. 2007

Journal of Biotechnology

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An experimental comparison of respiration measuring techniques in fermenters and shake flasks: exhaust gas analyzer vs. RAMOS device vs. respirometer

Seletzky

Noack

Hahn

et al. 2006

J Ind Microbiol Biotechnol

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Respiration measurement is applied as a universal tool to determine the activity of biological systems. The measurement techniques are difficult to compare, due to the vast variety of devices and analytical procedures commonly in use. They are used in fields as different as microbiology, gene engineering, toxicology, and industrial process monitoring to observe the physiological activity of living systems in environments as diverse as fermenters, shake flasks, lakes and sewage plants. A method is introduced to determine accuracy, quantitation limit, range and precision of different respiration measurement devices. Corynebacterium glutamicum cultures were used to compare an exhaust gas analyzer (EGA), a RAMOS device (respiration measurement in shake flasks) and a respirometer. With all measuring devices it was possible to determine the general culture characteristics. The EGA and the RAMOS device produced almost identical results. The scatter of the respirometer was noticeably higher. The EGA is the technique of choice, if the reaction volume is high or a short reaction time is required. The possibility to monitor cultures simultaneously makes the RAMOS device an indispensable tool for media and strain development. If online monitoring is not compulsive, the respiration of the investigated microbial system extremely low, or the sample size small, a respirometer is recommended.

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Juri M. Seletzky

High cell density cultivation of recombinant yeasts and bacteria under non-pressurized and pressurized conditions in stirred tank bioreactors

Scale‐up from shake flasks to fermenters in batch and continuous mode with Corynebacterium glutamicum on lactic acid based on oxygen transfer and pH

Effect of elevated dissolved carbon dioxide concentrations on growth of Corynebacterium glutamicum on d-glucose and l-lactate

An experimental comparison of respiration measuring techniques in fermenters and shake flasks: exhaust gas analyzer vs. RAMOS device vs. respirometer

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