用加速失活法设计固定化葡萄糖异构体的操作温度

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY
V. Illeová, M. Polakovič
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引用次数: 2

摘要

摘要在83–95°C的温度范围内,在分批模式下研究了固定化葡萄糖异构酶在浓缩葡萄糖溶液中的热失活,该温度大大高于高果糖玉米糖浆工业生产中使用的温度。对所有失活数据的同时评估表明,在所研究的条件下,具有速率常数的阿伦尼斯温度依赖性的一级动力学提供了生物催化剂稳定性的良好近似。然后,基于生物催化剂的设定操作寿命,使用模型参数来预测该生物催化剂在生产高果糖玉米糖浆中的操作温度。模拟预测了60–65°C的操作温度窗口,这与这种生物催化剂的工业应用非常吻合。这一观察结果表明,酶失活的多温度方法可以很好地评估生物催化剂过程的稳定性,因此是开发生物催化过程的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of operational temperature for immobilized glucose isomerise using an accelerated inactivation method
Abstract Thermal inactivation of immobilized glucose isomerase in a concentrated glucose solution was investigated in the batch mode and temperature range of 83–95 °C, which is substantially higher than the temperature used in the industrial production of high-fructose corn syrup. Simultaneous evaluation of all inactivation data showed that first-order kinetics with the Arrhenius temperature dependence of the rate constant provided a good approximation of the biocatalyst stability under the investigated conditions. The model parameters were then used to predict the operational temperature for this biocatalyst in the production of high-fructose corn syrup based on the set operational life-time of the biocatalyst. The simulation predicted a window of operational temperature of 60–65 °C, which corresponds very well with the industrial applications of this biocatalyst. This observation demonstrates that the multi-temperature method of enzyme inactivation can provide a good estimate of biocatalyst process stability and is thus a useful tool in the development of biocatalytic processes.
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来源期刊
Acta Chimica Slovaca
Acta Chimica Slovaca CHEMISTRY, MULTIDISCIPLINARY-
自引率
12.50%
发文量
11
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