Israeli E, Shaffer B T, Lighthart B
U.S. Environmental Protection Agency, Environmental Research Laboratory, Corvallis, Oregon.
Cryobiology. 1993 Oct;30(5):519-23. doi: 10.1006/cryo.1993.1052.
Freeze-dried cultures of wild-type and genetically engineered strains of Escherichia coli lost their colony-forming ability upon exposure to air, visible light, and certain relative humidity levels. Both strains could be maximally protected from these lethal effects with 100 mM trehalose, a concentration calculated to just saturate the interphospholipid spaces in the cell membrane, thus preserving the liquid-crystalline structure. The trehalose protection was observed for at least 96 h. Trehalose increased viability as much as 2000-4000% over nontreated populations. In all cases, exposure to environmental conditions was more damaging to the genetically engineered strain.
野生型和基因工程改造的大肠杆菌冻干培养物在暴露于空气、可见光和特定相对湿度水平时会丧失其菌落形成能力。两种菌株都可以用100 mM海藻糖最大程度地免受这些致死效应的影响,该浓度经计算刚好能使细胞膜中的磷脂间隙饱和,从而保留液晶结构。海藻糖的保护作用至少持续96小时。与未处理的菌群相比,海藻糖使存活率提高了2000 - 4000%。在所有情况下,暴露于环境条件对基因工程改造菌株的损害更大。