Summary
This communication describes the construction and operation of an airlift fermenter for the photoautotrophic growth of cell suspension cultures fromChenopodium rubrum. The basic batch culture unit provides a culture of 1.51 volume, sufficient to permit frequent aseptic sampling. It can be maintained at any desired temperature and aerated to different extents. Using an initial cell density of about 400,000 cells per ml suspension, the increase in cell number is 270% after a 14 days' growth period, although the stationary phase of growth is not yet reached. The transfer of photoautotrophic cell suspensions fromChenopodium rubrum from stationary growth into the large volume of fresh culture medium in the airlift fermenter results in an immediate protein formation, followed by an exponential phase of cell division, whereas rapid chlorophyll accumulation is delayed by 2 days.
The growth capacities of photoautotrophic fermenter cultures including protein and chlorophyll formation as well asin vitro activities of the ribulosebisphosphate carboxylase and the phosphoenolpyruvate carboxylase are greatly lower as compared to photoautotrophic cells propagated in standard two-tier culture vessels using 30 ml culture medium. However the pattern of change in the activities of carboxylation enzymes is quite similar in both culture systems.
Photoautotrophic cell suspensions fromChenopodium rubrum grown in an airlift fermenter assimilate about 90 μmol CO2/mg chlorophyll × hour. Dark CO2 fixation is about 1.5% of the light values.
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Abbreviations
- PEF :
-
phosphoenolpyruvate
- RuDP :
-
ribulosebisphosPhate
- NS :
-
ground glass joints of standardized size made from Duran glass, Schott, Germany
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Hüsemann, W. Photoautotrophic growth of cell suspension cultures fromChenopodium rubrum in an airlift fermenter. Protoplasma 113, 214–220 (1982). https://doi.org/10.1007/BF01280910
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DOI: https://doi.org/10.1007/BF01280910