Characterization and application of an on-line flow injection analysis/wall-jet electrode system for glucose monitoring during fermentation

An on-line system for glucose monitoring during fermentation was developed. The system employed flow-injection analysis coupled with a wall-jet electrode. Glucose was converted enzymatically in a tubular reactor packed with controlled pore glass beads containing immobilized glucose oxidase. The hydr...

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Bibliographic Details
Published in:Analytica chimica acta 1995-12, Vol.317 (1), p.223-232
Main Authors: Huang, Yu Liang, Foellmer, Titus J., Ang, Koon Chye, Khoo, Soo Beng, Yap, Miranda G.S.
Format: Article
Language:English
Subjects:
Biological and medical sciences
Biotechnology
Fermentation
Flow injection
Fundamental and applied biological sciences. Psychology
Glucose
Methods. Procedures. Technologies
Microbial engineering. Fermentation and microbial culture technology
Wall-jet electrode system
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Summary:An on-line system for glucose monitoring during fermentation was developed. The system employed flow-injection analysis coupled with a wall-jet electrode. Glucose was converted enzymatically in a tubular reactor packed with controlled pore glass beads containing immobilized glucose oxidase. The hydrogen peroxide produced was detected amperometrically. A filtration/sampling module operated by a peristaltic pump enabled sample withdrawal from the fermenter. The system was interfaced to a programmable language controller which was in turn linked to a microcomputer. The dual injection valve of the flow system was operated in a novel configuration to achieve sample dilution, by dispersion, and standardization simultaneously. The developed system was characterized for dilution factor, stability and linearity of response. After conditioning of the reactor, sample peak heights were found to have a precision of 1.07% (R.S.D., 25 determinations) when the glucose concentration was 1.32 g l −1. Under the conditions studied, linear response to glucose concentration from 0.062 to 4.0 g l −1 was obtained. Sample throughput was about 7 per hour. Interferences from the fermentation media were negligible after filtration through the sampling module and dilution. The on-line system was applied to glucose monitoring during E. coli fermentation. Good results were obtained as shown by the high cell density (OD 600nm = 168 in 9 h fermentation), constant specific growth rate ( μ = 0.66) and lower acetate accumulation (less than 2 g l −1 when OD 600nm was over 50).
ISSN:0003-2670
1873-4324
DOI:10.1016/0003-2670(95)00388-6