酵母对过程扰动的生理反应:一种微型生物反应器方法

Annick Lejeune, Frank Delvigne, Philippe Thonart
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引用次数: 7

摘要

大规模生产酵母(Saccharomyces cerevisiae)是难以控制的,考虑到在放大过程中混合和传质效率的下降。大型生物反应器中流体动力效率的下降导致了非均质性的形成,即在工艺条件下主要是底物和溶解氧。这些细胞外波动在微生物的生理水平上有几个影响,从代谢转变到特定基因表达(应激反应)。微生物细胞对细胞外波动的反应实际上尚未完全了解。在这项工作中,我们建议在微型生物反应器平台的水平上再现主要的细胞外波动。这些微型反应器是装有溶解氧探针的摇瓶。采用不同的进料批控制策略来实现培养。通过考虑缓释技术和间歇进料,开发了一种缩小规模的方法,以重现大型反应器中经历的葡萄糖和溶解氧波动。该微型反应器已用于筛选几种绿色荧光蛋白(GFP)报告菌株(adh2、tps2、pdc6和hxt2)的反应。为了考虑群体异质性,用流式细胞术测定细胞中GFP的含量。在这些结果之前,本工作中提出的方法可以作为缩小规模的工具提出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological response of yeast to process perturbations: A mini-bioreactor approach

Large-scale production of yeast (Saccharomyces cerevisiae) is difficult to control, considering the drop of mixing and mass transfer efficiency during scale-up. The drop of hydrodynamic efficiency in large-scale bioreactors induces the formation of heterogeneities, i.e. mainly substrate and dissolved oxygen in process conditions. These extracellular fluctuations have several impacts at the level of the physiology of microorganisms, from metabolic shift to specific gene expression (stress response). Microbial cell responses to extracellular fluctuations are actually not fully understood. In this work, we propose to reproduce the main extracellular fluctuations at the level of a mini bioreactor platform. These mini-reactors are shake flasks equipped with dissolved oxygen probes. The cultures are realized with different fed-batch control strategies. A scale-down approach has been developed by considering slow release techniques and intermittent feeding, in order to reproduce the glucose and dissolved oxygen fluctuations experienced in large-scale reactors. The mini-reactor has been used to screen the response of several green fluorescent protein (GFP) reporter strains (adh2, tps2, pdc6 and hxt2). The GFP content of cells has been determined by flow cytometry in order to take into account population heterogeneity. In front of these results, the methodology presented in this work can be proposed as a scale-down tool.

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