嗜盐嗜盐杆菌生长对氯离子依赖性的定量与生理学分析。
Quantitative and physiological analyses of chloride dependence of growth of halobacillus halophilus.
作者信息
Roessler M, Muller V
机构信息
Lehrstuhl fur Mikrobiologie, Ludwig-Maximilians-Universitat Munchen, 80638 Munich, Germany.
出版信息
Appl Environ Microbiol. 1998 Oct;64(10):3813-7. doi: 10.1128/AEM.64.10.3813-3817.1998.
Abstract
A quantitative analysis of the Cl- dependence of growth of Halobacillus halophilus was performed. Optimal growth rates were obtained at Cl- concentrations of between 0.5 and 2.0 M, and the final yield was also strictly dependent on the Cl- concentration. Br- but not I-, SO42-, NO2-, SO2-, OCN-, SCN-, BO2-, or BrO3- could substitute for Cl-. To analyze the function of chloride, chloride concentration was determined. At low external Cl- (Cle-) concentrations, the growth rate was low and Cl- was excluded from the cytoplasm; increasing the Cle- concentration led to an increase in the growth rate and an energy-dependent uptake of Cl-, thus decreasing the Cle-/internal Cli- gradient from >/=10 at 0.1 M Cle- to a nearly constant value of 2 at Cle- concentrations which allowed optimal growth. Two membrane proteins with apparent molecular masses of 31 and 16 kDa which were identified to be specific for Cl--grown cultures are possible candidates for a chloride uptake system.
摘要
对嗜盐嗜盐芽孢杆菌生长的氯离子依赖性进行了定量分析。在氯离子浓度为0.5至2.0 M之间可获得最佳生长速率,最终产量也严格依赖于氯离子浓度。溴离子可以替代氯离子,而碘离子、硫酸根离子、亚硝酸根离子、二氧化硫、氰酸根离子、硫氰酸根离子、硼酸根离子或溴酸根离子则不能。为了分析氯离子的功能,测定了氯离子浓度。在低外部氯离子(Cle-)浓度下,生长速率较低,氯离子被排除在细胞质之外;增加Cle-浓度会导致生长速率增加以及氯离子的能量依赖性摄取,从而使Cle-/内部Cli-梯度从0.1 M Cle-时的≥10降低到在允许最佳生长的Cle-浓度下接近恒定的值2。两种表观分子量分别为31 kDa和16 kDa的膜蛋白被鉴定为氯离子生长培养物所特有的,它们可能是氯离子摄取系统的候选者。
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