Fed-batch cultivation of Saccharomyces cerevisae is the dominating technique in high cell density cultures of processes such as the production of Baker's yeast [l] and recombinant proteins [2]. Due to the high oxygen demand of these cultures, the oxygen supply to the culture is an important and difficult task. The use of hyperbaric air, e.g., air at increased pressure, for oxygen mass transfer improvement has been proved to be applicable to several microbial strains [3,4]. In this study, the effects of hyperbaric air up to 1.5 MPa on the viability and morphology of S. cerevisiae cells grown in fed-batch cultures were investigated. Fed-batch experiments were performed in a stainless steel stirred tank reactor. Exponential feeding at dil...
Baker’s yeast suspensions were incubated at different pressures (from 1 bar to 6 bar) and different ...
Increase air pressure for aeration of microbial cell cultures can prevent oxygen limitation but cau...
To study the cellular growth and morphology of Yarrowia lipolytica W29 and its lipase and protease p...
Fed-batch is the dominating mode of operation in high-cell-density cultures of Saccharomyces cerevis...
Fed-batch cultivation of Saccharomyces cerevisae is the dominating technique in high cell density c...
Fed-batch is the dominating mode of operation in high-cell-density cultures of Saccharomyces cerevi...
The yeast Candida utilis (fodder yeast) is a popular microorganism for physiological studies and is...
Increase in air or oxygen pressure in microbial cell cultures can cause oxidative stress and consequ...
For many years pressure was disregarded by biotechnologists when considering processes based on micr...
The effects of hyperbaric stress on the morphology of Saccharomyces cerevisiae were studied in batc...
The effects of hyperbaric stress on the morphology of Saccharomyces cerevisiae were studied in batch...
Batch cultures of C. utilis CBS 621 were carried out in a pressurized reactor under increased air pr...
The use of air pressure as a way of improving oxygen transfer in aerobic bioreactors was investigate...
The effect of pressure (0.1–1.5 MPa) and oxygen concentration on the growth and viability of Sacchar...
Saccharomyces cerevisiae, in a pressure batch reactor, coped with higher air (1.2–3 bar) pressures b...
Baker’s yeast suspensions were incubated at different pressures (from 1 bar to 6 bar) and different ...
Increase air pressure for aeration of microbial cell cultures can prevent oxygen limitation but cau...
To study the cellular growth and morphology of Yarrowia lipolytica W29 and its lipase and protease p...
Fed-batch is the dominating mode of operation in high-cell-density cultures of Saccharomyces cerevis...
Fed-batch cultivation of Saccharomyces cerevisae is the dominating technique in high cell density c...
Fed-batch is the dominating mode of operation in high-cell-density cultures of Saccharomyces cerevi...
The yeast Candida utilis (fodder yeast) is a popular microorganism for physiological studies and is...
Increase in air or oxygen pressure in microbial cell cultures can cause oxidative stress and consequ...
For many years pressure was disregarded by biotechnologists when considering processes based on micr...
The effects of hyperbaric stress on the morphology of Saccharomyces cerevisiae were studied in batc...
The effects of hyperbaric stress on the morphology of Saccharomyces cerevisiae were studied in batch...
Batch cultures of C. utilis CBS 621 were carried out in a pressurized reactor under increased air pr...
The use of air pressure as a way of improving oxygen transfer in aerobic bioreactors was investigate...
The effect of pressure (0.1–1.5 MPa) and oxygen concentration on the growth and viability of Sacchar...
Saccharomyces cerevisiae, in a pressure batch reactor, coped with higher air (1.2–3 bar) pressures b...
Baker’s yeast suspensions were incubated at different pressures (from 1 bar to 6 bar) and different ...
Increase air pressure for aeration of microbial cell cultures can prevent oxygen limitation but cau...
To study the cellular growth and morphology of Yarrowia lipolytica W29 and its lipase and protease p...
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