To efficiently provide recombinant protein of the major house dust mite allergen Der p 2 from a transgenic plant system for development of an edible vaccine to reduce asthma allergy, clones of recombinant Der p 2 (rDer p 2) producing tobacco suspension cell lines had been established in our previous study. However, the browning of tobacco cells caused the low cell growth as well as low rDer p 2 production yield in the culture period. In this study, by examining the relationship between aeration rate and the biomass accumulation, the aeration rate at 0.06 vvm was considered adequate for cell growth without browning of cells. Based on the data revealed from flask cultures, evaluating the ratio of rDer p 2 to carbon source, 3% sucrose was used as the initial carbon source. In batch cultures, the rDer p 2 production yield in the 5 L bioreactor reached 4.85 mg/L on the 19th day, which is 2.3 times the yield of flask batch cultures. In fed-batch cultures, the rDer p 2 production yield in the 5 L bioreactor reached 7.00 mg/L on the 14th day, which is 1.4 times the yield of fed-batch cultures in flasks. Furthermore, the rDer p 2 produced by tobacco suspension cells was purified approximately 2.1-fold by ammonium sulfate fractionation, gel filtration through Sephacryl S-100 and ion-exchange on DEAE-sepharose, with the recovery yield about 8.1%.