A modelling study on hydrolysis of whey lactose and stability of β-galactosidase

Elçin Demirhan; Dilek Kılıç Apar; Belma Özbek

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A modelling study on hydrolysis of whey lactose and stability of β-galactosidase

机译：乳清乳糖水解和β-半乳糖苷酶稳定性的模型研究

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In the present study, the effect of process conditions on whey lactose hydrolysis and enzyme inactivation were investigated. The experiments were carried out in 250 mL of 25 mM phosphate buffer solution by using β-galactosidase produced from Kluyveromyces marxianus lactis in a batch reactor system. The degree of lactose hydrolysis (%) and residual enzyme activity (%) against time were investigated versus lactose concentration, enzyme concentration, temperature and pH. The mathematical models were derived from the experimental data to show the effect of process conditions on lactose hydrolysis and residual enzyme activity (in the presence and absence of lactose). At the optimum process conditions obtained (50 g/L of lactose concentration, 1 mL/L of enzyme concentration, 37 °C of temperature and pH 6.5), 81% of lactose was hydrolyzed and enzyme lost its activity by 32%. The activation energy for hydrolysis reaction (E_A) and the enzymatic inactivation energy (E_D) were calculated as 52.7 kJ/mol and 96.7 kJ/mol. Mathematical models at various process conditions have been confirmed with the experimental results.

机译：在本研究中，研究了工艺条件对乳清乳糖水解和酶失活的影响。通过使用在间歇反应器系统中从马克斯克鲁维酵母产生的β-半乳糖苷酶在250 mL的25 mM磷酸盐缓冲溶液中进行实验。相对于乳糖浓度，酶浓度，温度和pH，研究了乳糖水解度（％）和残留酶活性（％）随时间的变化。从实验数据得出数学模型，以显示工艺条件对乳糖水解和残留酶活性（存在和不存在乳糖）的影响。在获得的最佳工艺条件下（乳糖浓度50 g / L，酶浓度1 mL / L，温度37°C和pH 6.5），水解了81％的乳糖，酶的活性降低了32％。水解反应的活化能（E _{A ）和酶失活能（E _{D ）经计算为52.7 kJ / mol和96.7 kJ / mol。实验结果证实了在各种工艺条件下的数学模型。}}

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《Korean Journal of Chemical Engineering》 |2010年第2期|p.536-545|共10页
作者
Elçin Demirhan; Dilek Kılıç Apar; Belma Özbek;
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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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A modelling study on hydrolysis of whey lactose and stability of β-galactosidase

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