유전자 재조합된 동물 세포의 유가 배양시 $1.85 imes 10^{-10}$(mmole/cell/h)의 비 glucose 소비속도와 $4.7 imes 10^{-7}(mu g/ceil/h)$의 erythropoetin (EPO)비 생산속도를 유지할 수 있었다. 또한 이같은 배양에서 회분 및 연속배양에서 보다 높은 세포수를 얻었으며 전 배양이 유사 안정상태에 도달하는 배양 후기에는 glutamolysis가 생육 공정에 매우 중요한 역활을 하고 있음이 확이됐다. 유가 배양시 13(mmloe/l)의 glucose 농도에서 생육 제한 현상이 일어났으며, 이같은 농도에 도달할 때까지는 glucose의 농도가 증가함에 따라 배양시간의 경과와 함께 EPO 생산성이 증가했다.
$1.85 imes 10^{-10}$ (mmole/cell/h) of specific glucose consumption rate was obtained under fed-batch cultivation of recombinant mamalian ce11s with maintaining $4.7 imes 10^{-7}(mu g/ceil/h)$ of average specific erythropoeitin production rate. Higher maximum cell density was also achieved than for both cases of batch and perfusion cultivations. It proves that glutamolysis dominates metaboiic pathways at latter period of cultivation where quasi steady state was maintained. Substrate limitation of glucose concentration was estimated as 13 (mmole/l) under fed-batch conditions. while specific product production rate was decreased according to cultivation time, erythropoeitin production was increased as glucose concentration in the media increased up
