Oxygen transfer effects in serine alkaline protease fermentation by Bacillus licheniformis: use of citric acid as the carbon source

The effects of oxygen transfer on serine alkaline protease (SAP) production by Bacillus licheniformis on a defined medium with C c = 9.0 kg m −3 citric acid as sole carbon source were investigated in 3.5 dm 3 batch bioreactor systems. The concentrations of the product (SAP) and by-products, i.e., ne...

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Bibliographic Details
Published in:Enzyme and microbial technology 1998-01, Vol.23 (7), p.451-461
Main Authors: CALIK, P, CALIK, G, ÖZDAMAR, T. H
Format: Article
Language:English
Subjects:
Bacteria
Biological and medical sciences
Biomass
Bioreactors
Biotechnology
Catalyst activity
Diffusion
Enzyme engineering
Enzymes
Fermentation
Fundamental and applied biological sciences. Psychology
Methods. Procedures. Technologies
Organic acids
Oxygen
oxygen transfer
oxygen transfer coefficient
oxygen uptake rate
Production of selected enzymes
Serine alkaline protease fermentation
serine alkaline protease fermentation by-products
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Summary:The effects of oxygen transfer on serine alkaline protease (SAP) production by Bacillus licheniformis on a defined medium with C c = 9.0 kg m −3 citric acid as sole carbon source were investigated in 3.5 dm 3 batch bioreactor systems. The concentrations of the product (SAP) and by-products, i.e., neutral protease, amylase, amino acids, and organic acids were determined in addition to SAP activities. At Q o/V = 1 vvm air flow rate, the effect of agitation rate on DO concentration, pH, product, and by-product concentrations and SAP activity were investigated at N = 150, 500, and 750 min −1; these are named as low-(LOT), medium-(MOT), and high oxygen transfer (HOT) conditions. LOT conditions favor biomass concentration; however, substrate consumption was highest at HOT conditions. MOT was optimum for maximum SAP activity which was 441 U cm −3 at t = 37 h. The total amino acid concentration was maximum in LOT and minimum in MOT conditions; lysine had the highest concentration under all oxygen transfer conditions. Among organic acids, acetic acid had the highest concentration and its concentration increased with oxygen transfer rate. The oxygen transfer coefficient increases with the agitation rate and the oxygen consumption rate increased almost linearly with the biomass concentration.
ISSN:0141-0229
1879-0909
DOI:10.1016/S0141-0229(98)00069-6