拓扑异构酶活性的改变可能参与了大肠杆菌有氧-厌氧转变过程中DNA超螺旋的调控。

Altered topoisomerase activities may be involved in the regulation of DNA supercoiling in aerobic-anaerobic transitions in Escherichia coli.

作者信息

Cortassa S, Aon M A

机构信息

Dept. de Bioquímica de la Nutrición, Conicet-Universidad Nacional de Tucumán, Argentina.

出版信息

Mol Cell Biochem. 1993 Sep 22;126(2):115-24. doi: 10.1007/BF00925689.

DOI:10.1007/BF00925689

PMID:8302289

Abstract

This study uncovers a new mechanism of regulation of DNA supercoiling operative in vivo upon an aerobic-anaerobic transition in Escherichia coli. Exponentially growing aerobic batch cultures were subjected to a shift to anaerobic conditions. The ratio [ATP]/[ADP] remained essentially constant at 8.5 in the aerobic culture and after a transition to anaerobiosis while DNA supercoiling increased noticeably upon anaerobiosis. This result indicated that the mechanism of regulation of DNA supercoiling by the [ATP]/[ADP] ratio was not operative. The increase in DNA supercoiling was followed by a large decrease in the DNA-relaxing activity of topoisomerase I while gyrase activity remained relatively constant. This decrease in the activity of topoisomerase I is likely to be responsible for the increase in DNA supercoiling.

摘要

本研究揭示了一种在大肠杆菌有氧-厌氧转变过程中在体内发挥作用的DNA超螺旋调节新机制。将指数生长的需氧分批培养物转移至厌氧条件。在需氧培养物中以及转变为厌氧状态后，[ATP]/[ADP]比值基本保持恒定，为8.5，而厌氧时DNA超螺旋显著增加。这一结果表明，由[ATP]/[ADP]比值调节DNA超螺旋的机制不起作用。DNA超螺旋增加后，拓扑异构酶I的DNA松弛活性大幅下降，而促旋酶活性保持相对恒定。拓扑异构酶I活性的这种下降可能是DNA超螺旋增加的原因。

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拓扑异构酶活性的改变可能参与了大肠杆菌有氧-厌氧转变过程中DNA超螺旋的调控。

Altered topoisomerase activities may be involved in the regulation of DNA supercoiling in aerobic-anaerobic transitions in Escherichia coli.

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