Abstract: | Photosynthetic development of Spinacia oleracea L. (spinach)cells was triggered by halving the supply of sugarto a continuous culture. This was demonstrated between two steadystates at constant specific growth rate (4.2 ± 0.17 x103 h1). As a direct consequence of this triggerthe cells were in conditions of sugar famine, demonstrated byorganic carbon balance. Comparison of the biomass was made betweenthe two steady states. It was found that in sugar famine thebiomass contained 8 times as much chlorophyll and the ratioof photosynthesis to respiration in saturating conditions hadincreased 22 times, when compared to the biomass in conditionof sugar excess. All substrate carbon and organic factors were then removed fromthe fresh medium, carbon dioxide and photosynthetically activeradiation (PAR) were increased. In these photoautotrophic conditionsthree further steady states were established. The effects ofincreasing the dilution rate and then increasing PAR were examined.Growth was found to be limited by PAR. The photosynthetic yield Y of photoheterotrophic spinach cellsin fructose famine was estimated as 0.004 g kJ1 PAR.In photoautotrophic conditions the maximum Y was 0.0018 g kJ1.It was suggested that this lower yield was due to chloroplastdevelopment being arrested by an unknown factor. |