Phenomenological Background and Some Preliminary Trials of Automated Substrate Supply in pH-Stat Modal Fed-Batch Culture Using a Setpoint of High Limit

First, by considering all possible combination of methanol (as a carbon-energy source), peptone (as an organic carbon-nitrogen source), and ammonium sulfate (as an inorganic nitrogen source), five batch cultures of a methanol-assimilating bacterium, Protomonas extorquens, were done to elucidate the cause(s) of pH variations during the microbial cultivations. The batch cultures have been classified into five types in terms of stoichiometric equations of cell growth which involve the elements, C, H, O, and N. The equations explained the pH variation (drop and rise) of the batch cultures on the basis of the consumption and liberation of ammonium ion. Then, six fed-batch cultures using a setpoint of high limit were done by feeding either methanol only or methanol plus peptone. Growth rates could be controlled by the amount of substrate(s) fed per pulse. Supplying peptone in addition to methanol enhanced cell growth. Characteristic differences between pH-stat modal fed-batch cultures using a low limit and those using a high limit, and advantages of the pH-stat modal fed-batch culture using a setpoint of high limit are discussed.