连续培养方法在微生物重组蛋白生产中的应用。
Application of Continuous Culture Methods to Recombinant Protein Production in Microorganisms.
作者信息
Peebo Karl, Neubauer Peter
机构信息
Center of Food and Fermentation Technologies, Akadeemia tee 15a, 12618 Tallinn, Estonia.
Department of Chemistry and Biotechnology, Tallinn University of Technology, Akadeemia tee 15, 12618 Tallinn, Estonia.
出版信息
Microorganisms. 2018 Jun 21;6(3):56. doi: 10.3390/microorganisms6030056.
Abstract
Depending on the environmental conditions, cells adapt their metabolism and specific growth rate. Rearrangements occur on many different levels such as macromolecular composition, gene and protein expression, morphology and metabolic flux patterns. As the interplay of these processes also determines the output of a recombinant protein producing system, having control over specific growth rate of the culture is advantageous. Continuous culture methods were developed to grow cells in a constant environment and have been used for decades to study basic microbial physiology in a controlled and reproducible manner. Our review summarizes the uses of continuous cultures in cell physiology studies and process development, with a focus on recombinant protein-producing microorganisms.
摘要
根据环境条件,细胞会调整其代谢和特定生长速率。在许多不同层面会发生重排,例如大分子组成、基因和蛋白质表达、形态以及代谢通量模式。由于这些过程之间的相互作用也决定了重组蛋白生产系统的产出,控制培养物的特定生长速率是有利的。连续培养方法被开发出来用于在恒定环境中培养细胞,并且已经被用于以可控且可重复的方式研究基础微生物生理学数十年了。我们的综述总结了连续培养在细胞生理学研究和工艺开发中的应用,重点是生产重组蛋白的微生物。
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