大肠杆菌对四环素的积累。
Accumulation of tetracyclines by Escherichia coli.
作者信息
De Zeeuw J R
出版信息
J Bacteriol. 1968 Feb;95(2):498-506. doi: 10.1128/jb.95.2.498-506.1968.
Abstract
The net accumulation of tetracyclines by Escherichia coli as a function of concentration was shown to be biphasic. At concentrations less than the bacteriostatic levels, the mode of uptake was not azide-sensitive and was considered to be physical adsorption on the cell surface. At concentrations above the minimal inhibitory level, a second, azide-sensitive, uptake component was functional in addition to the surface adsorption process. This second energy-requiring mode was judged to represent penetration of the cytoplasmic membrane by tetracycline molecules to their sites of inhibitory action. Each mode for a given tetracycline and culture is expressed algebraically by a characteristic Freundlich equation. Resistance in E. coli is shown to be a result of diminished transport of antibiotic. However, this resistance was due not to a reduction or loss of a transport mechanism but rather to a requirement for higher antibiotic concentrations before the second mode of uptake could become operative.
摘要
大肠杆菌对四环素的净积累量随浓度变化呈双相性。在低于抑菌水平的浓度下,摄取方式对叠氮化物不敏感,被认为是细胞表面的物理吸附。在高于最低抑菌水平的浓度下,除了表面吸附过程外,第二种对叠氮化物敏感的摄取成分也起作用。这种第二种需要能量的方式被认为代表四环素分子穿透细胞质膜到达其抑制作用位点。给定四环素和培养物的每种摄取方式都由一个特征性的弗罗因德利希方程代数表示。大肠杆菌中的耐药性表明是抗生素转运减少的结果。然而,这种耐药性并非由于转运机制的减少或丧失,而是由于在第二种摄取方式能够起作用之前需要更高的抗生素浓度。
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