The influence of immobilization and reduced water activity on gaseous‐alkene oxidation by Mycobacterium PY1 and Xanthobacter PY2 in a gas–solid bioreactor
- 1 May 1987
- journal article
- research article
- Published by Wiley in Biotechnology & Bioengineering
- Vol. 29 (7), 884-891
- https://doi.org/10.1002/bit.260290710
Abstract
Immobilization of Mycobacterium PY1 and Xanthobacter PY2 in alginate and in or on hydroculture has a minor influence on the maximum rate of oxidation of propene and ethane. The apparent Km values of the immobilized cells are slightly higher than those of the free cells, indicating the presence of diffusion limitation in the immobilized systems. Both bacterial strains rapidly lose their alkene-oxidizing activity when the water activity is decreased. This decrease in activity is so rapid that most of the activity is lost already when the pores of the pertinent supports are still filled with water. Therefore, it is not possible with this system to study the transition of mass transfer of substrates entirely in the water phase to mass transfer to substrates entirely through the gas phase.This publication has 13 references indexed in Scilit:
- Inactivation of alkene oxidation by epoxides in alkene-and alkane-grown bacteriaApplied Microbiology and Biotechnology, 1985
- Engineering aspects of solid state fermentationEnzyme and Microbial Technology, 1985
- Production of epoxides from gaseous alkenes by resting-cell suspensions and immobilized cells of alkene-utilizing bacteriaApplied Microbiology and Biotechnology, 1984
- Ethylene oxide production by immobilized Mycobacterium Py1 in a gas-solid bioreactorEnzyme and Microbial Technology, 1983
- Metabolism of ethylene by Mycobacterium E 20FEMS Microbiology Letters, 1978
- Thermodynamic properties of strong electrolytes in aqueous solutionsAIChE Journal, 1973
- Studies on the ecology of actinomycetes in soil—VI. The influence of moisture tension on growth and survivalSoil Biology and Biochemistry, 1972
- Effect of Water Activity on Enterotoxin B Production and Growth of Staphylococcus aureusApplied Microbiology, 1971
- An equation for the activity coefficients and equilibrium relative humidities of water in confectionery syrupsInternational Journal of Food Science & Technology, 1966
- Relative Humidity and the Killing of Bacteria: the Variation of Cellular Water Content with External Relative Humidity or OsmolalityJournal of General Microbiology, 1962