保护酶免受应激诱导失活。
Protecting Enzymes from Stress-Induced Inactivation.
出版信息
Biochemistry. 2019 Sep 17;58(37):3825-3833. doi: 10.1021/acs.biochem.9b00675. Epub 2019 Sep 5.
Abstract
The pharmaceutical and chemical industries depend on additives to protect enzymes and other proteins against stresses that accompany their manufacture, transport, and storage. Common stresses include vacuum-drying, freeze-thawing, and freeze-drying. The additives include sugars, compatible osmolytes, amino acids, synthetic polymers, and both globular and disordered proteins. Scores of studies have been published on protection, but the data have never been analyzed systematically. To spur efforts to understand the sources of protection and ultimately develop more effective formulations, we review ideas about the mechanisms of protection, survey the literature searching for patterns of protection, and then compare the ideas to the data.
摘要
制药和化工行业依赖添加剂来保护酶和其他蛋白质免受制造、运输和储存过程中伴随的压力。常见的压力包括真空干燥、冻融和解冻干燥。添加剂包括糖、相容渗透物、氨基酸、合成聚合物以及球状和无规蛋白质。已经发表了大量关于保护的研究,但这些数据从未进行过系统分析。为了促进对保护机制的理解,并最终开发更有效的配方,我们回顾了关于保护机制的观点,调查了文献中寻找保护模式的情况,然后将这些观点与数据进行了比较。
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