压力下二氧化碳对右旋白糖酵母失活的影响

Ho-mu Lin, Zhiying Yang, Li Fu Chen
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引用次数: 119

摘要

加压二氧化碳在超临界和亚临界温度下对微生物的失活进行了研究。这种方法在概念上与其他方法不同,因为细胞失活的作用主要是通过从细胞或细胞膜中提取细胞内物质来促进的。对细胞生物系统平衡的干扰或破坏可以导致死亡,而不会破坏细胞壁。实验结果表明,在- 2中1000和3000 lbf的CO2压力下,在35°C下15和20 min, Leuconostoc dextranicum细胞的失活率至少为108倍。亚临界二氧化碳的效果较差,在这些压力下需要大约40到35分钟才能使相同数量的细胞失活。灭活率基本上是由二氧化碳渗透到微生物细胞中来控制的,在足够的水平上,二氧化碳可以提取脂质或其他重要成分来达到致死效果。探讨了失活过程的各种重要参数。
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Inactivation of Leuconostoc dextranicum with carbon dioxide under pressure

Inactivation of micro-organisms with pressurized carbon dioxide at both supercritical and subcritical temperatures has been studied recently. This method differs conceptually from other processes in that the action of cell inactivation is prompted primarily by the extraction of intracellular substances from cells or cell membranes. Disturbance or damage to the balance of the biological system of the cell can cause death without rupture of the cell wall. Experimental results showed that Leuconostoc dextranicum cells were inactivated at least 108-fold at 35 °C in 15 and 20 min under CO2 pressures of 1000 and 3000 lbf in−2 respectively. Subcritical carbon dioxide is less effective, requiring about 40 and 35 min at these pressures to inactivate the same amount of cells. The inactivation rate is controlled essentially by the penetration of CO2 into the microbial cells, which at a sufficient level extracts lipids or other vital constituents to achieve the lethal effect. Various important parameters of the inactivation process are explored.

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