Fermentation Kinetics and Continuous Process of L-Asparaginase Production

F. S. Liu; J. E. Zajic

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Fermentation Kinetics and Continuous Process of L-Asparaginase Production

机译：L-天冬酰胺酶生产的发酵动力学和连续过程

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For the purpose of obtaining L-asparaginase in quantities from Erwinia aroideae, cell growth and enzyme formation were investigated in both batch and continuous fermentation. Using yeast extract as a growth-limiting substrate, the relationship between specific growth rate and substrate concentration was found to fit the Monod equation. The optimum temperature for enzyme production was 24 C, although cell growth was higher at 28 C. The enzyme yield reached its maximum of 4 IU/ml during the negative acceleration growth phase which occurs just prior to stationary growth. Compared to batch fermentations, the continuous fermentation process gave a lower enzyme yield except when the fermentation was conducted at a dilution rate of 0.1 hr-1. The graphical method frequently used for prediction of continuous fermentation does not apply to L-asparaginase production by E. aroideae. The optimum temperature for enzyme production in continuous process was 24 C, which was the same as in batch process. Increasing the temperature from 24 to 28 C resulted in a 20% loss of enzyme yield.

机译：为了从芳香欧文氏菌中获得大量的L-天冬酰胺酶，在分批发酵和连续发酵中研究了细胞生长和酶形成。使用酵母提取物作为生长限制底物，发现特定生长速率和底物浓度之间的关系符合Monod方程。酶生产的最佳温度为24 C，尽管细胞生长在28 C时更高。酶的产量在负加速度生长阶段达到了最高的4 IU / ml，这恰好发生在固定生长之前。与分批发酵相比，连续发酵过程的酶收率要低，除非以0.1 hr-1的稀释率进行发酵。经常用于预测连续发酵的图解方法不适用于阿德里亚肠杆菌生产L-天冬酰胺酶。连续过程中酶生产的最佳温度为24℃，与分批过程相同。将温度从24℃升高到28℃会导致20％的酶产率损失。

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《Applied Microbiology》 |1973年第1期|共5页
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F. S. Liu; J. E. Zajic;
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