产气克雷伯菌生长过程中呼吸与代谢的调控。腺嘌呤核苷酸的作用。
Control of respiration and metabolism in growing Klebsiella aerogenes. The role of adenine nucleotides.
作者信息
Harrison D E, Maitra P K
出版信息
Biochem J. 1969 May;112(5):647-56. doi: 10.1042/bj1120647.
Abstract
- A rapid-sampling technique was used to obtain perchloric acid extracts of cells growing in a chemostat culture, so that meaningful values for ATP content could be obtained in spite of the fact that the turnover time for the total ATP content was about 1sec. 2. For steady-state growth, it was found that, in a glucose-limited chemostat culture, the ATP/ADP concentration ratio was approximately constant with changes in dissolved-oxygen tensions above the critical value, but fell when the culture was grown under oxygen-limited conditions and was at a minimum in anaerobically grown cultures. The steady-state ATP content was lower in cells growing under nitrogen-limited conditions with glucose in excess than in glucose-limited cells. The steady-state ATP content was independent of growth rate at growth rates over 0.1hr.(-1). 3. When the respiration rate of the cells was stimulated by lowering the oxygen tension the ATP content did not increase, indicating either an increased turnover rate of ATP or a fall in the P/O ratio. The sudden addition of extra glucose or succinate to a glucose-limited culture increased the respiration rate of the cells, but the ATP content quickly returned to the steady-state value after initial perturbations. This control over ATP content is explained in terms of regulation by adenine nucleotides of the catabolism and anabolism of glucose. An exception to this control over ATP content was found when the respiration rate was stimulated by addition of an antifoam.
摘要
- 采用快速采样技术获取在恒化器培养中生长的细胞的高氯酸提取物,这样尽管总ATP含量的周转时间约为1秒,但仍能获得有意义的ATP含量值。2. 对于稳态生长,发现在葡萄糖限制的恒化器培养中,当溶解氧张力高于临界值时,ATP/ADP浓度比随其变化大致保持恒定,但当培养物在氧限制条件下生长时该比值下降,且在厌氧生长的培养物中处于最低水平。在氮限制条件下且葡萄糖过量时生长的细胞中,稳态ATP含量低于葡萄糖限制的细胞。在生长速率超过0.1小时⁻¹时,稳态ATP含量与生长速率无关。3. 当通过降低氧张力刺激细胞的呼吸速率时,ATP含量并未增加,这表明要么是ATP的周转速率增加,要么是P/O比下降。向葡萄糖限制的培养物中突然添加额外的葡萄糖或琥珀酸会增加细胞的呼吸速率,但在初始扰动后ATP含量迅速恢复到稳态值。对ATP含量的这种控制是根据腺嘌呤核苷酸对葡萄糖分解代谢和合成代谢的调节来解释的。当通过添加消泡剂刺激呼吸速率时,发现对ATP含量的这种控制存在例外情况。
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