用于生物传感器的重组生物发光细菌的稳定性研究

Cell Preservation Technology Pub Date : 2004-12-01 DOI:10.1089/CPT.2004.2.260

R. Pedahzur, R. Rosen, S. Belkin

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引用次数: 12

摘要

研究了生长介质、干燥方案和储存条件对大肠杆菌长期存活和活性的影响。大肠杆菌含有对细菌发光(lux)基因有诱导反应启动子的基因融合体。细菌在常规或高盐度(0.5 M NaCl)复合培养基(Luria-Bertani, LB)或微量培养基(M-9)中培养，常温下冷冻干燥或真空干燥，-20°C或37°C保存。在LB中培养的真空干燥菌和冻干菌的存活率分别为1% ~ 2%和19% ~ 20%，培养基盐度对其存活率影响不大。在M-9培养基中培养的真空干燥菌和冻干菌的存活率分别为22% ~ 75%和45% ~ 63%。然而，高盐度促进了真空干燥细菌的生存，而对冷冻干燥细菌的生存产生了负面影响。在37°C条件下，真空干燥细菌的存活率明显高于冷冻干燥细菌。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Stabilization of Recombinant Bioluminescent Bacteria for Biosensor Applications

The effects of growth media, drying protocols, and storage conditions on the long-term survival and activity of Escherichia coli, which harbors genetic fusions of inducer-responsive promoters to bacterial luminescence (lux) genes, were evaluated. Bacteria were grown in a regular or high-salinity (0.5 M NaCl) complex medium (Luria–Bertani, LB) or minimal medium (M-9), freeze-dried or dried by vacuum under ambient temperatures, and stored at –20°C or 37°C. The survival rates of vacuum-dried and freeze-dried bacteria grown in LB ranged from 1% to 2% and 19% to 20%, respectively, and were not as affected by medium salinity. Survival rates of vacuum-dried and freeze-dried bacteria grown in M-9 ranged from 22% to 75% and 45% to 63%, respectively. Here, however, high salinity promoted survival of vacuum-dried bacteria but negatively affected the survival of freeze-dried bacteria. Survival rates of vacuum-dried bacteria stored at 37°C were substantially higher than those of freeze-dried bacteria and were maximal ...

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Cell Preservation Technology

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