Mossie K G, Jones D T, Robb F T, Woods D R
Antimicrob Agents Chemother. 1979 Dec;16(6):724-30. doi: 10.1128/AAC.16.6.724.
A Bacteroides fragilis strain produces a low-molecular-weight (13,500 to 18,700), proteinaceous bacteriocin during the stationary growth phase. The extracellular bacteriocin is not inducible by ultraviolet light or mitomycin C and is stable between pH 7.5 and 8.2. The majority of the bacteriocin is thermolabile, but a small proportion (3%) of the bacteriocin is stable after autoclaving at 121 degrees C for 15 min. Killing of sensitive bacteroides cells follows single-hit kinetics, and the interaction of a single molecule of bacteriocin with a target cell occurs in two stages. The killing of susceptible cells is affected by temperature and the growth state of the susceptible cells. The bacteriocin is unusual in that the primary event in its mode of action is the inhibition of RNA synthesis. The bacteriocin inhibits RNA synthesis immediately but has no effect on DNA synthesis or intracellular ATP levels. Protein synthesis is inhibited after a delay of 20 min, presumably as a result of the initial inhibition of RNA synthesis.
一株脆弱拟杆菌在稳定生长期产生一种低分子量(13,500至18,700)的蛋白质类细菌素。细胞外细菌素不能被紫外线或丝裂霉素C诱导,在pH 7.5至8.2之间稳定。大部分细菌素对热不稳定,但一小部分(3%)的细菌素在121℃高压灭菌15分钟后仍稳定。敏感拟杆菌细胞的杀灭遵循单 hit 动力学,单个细菌素分子与靶细胞的相互作用分两个阶段进行。易感细胞的杀灭受温度和易感细胞生长状态的影响。这种细菌素的不同寻常之处在于其作用方式的主要事件是抑制RNA合成。细菌素立即抑制RNA合成,但对DNA合成或细胞内ATP水平没有影响。蛋白质合成在延迟20分钟后受到抑制,推测是由于最初对RNA合成的抑制。