细菌趋化作用中的感官适应:去甲基化的调控
Sensory adaptation in bacterial chemotaxis: regulation of demethylation.
作者信息
Kehry M R, Doak T G, Dahlquist F W
出版信息
J Bacteriol. 1985 Sep;163(3):983-90. doi: 10.1128/jb.163.3.983-990.1985.
Abstract
The behavioral responses of chemotactic bacteria to environmental stimuli are initiated by a family of membrane-bound transducer proteins that communicate excitatory signals to the flagellar apparatus. The adaptation process appears to turn off the excitatory signal and is mediated by the reversible methylation of multiple sites on the transducer proteins. The activities of two chemotaxis-specific enzymes, a methyltransferase and a methylesterase, are regulated during adaptation to maintain behavioral responsiveness. To monitor stimulus-induced changes in methylesterase activity in intact cells, we quantitated the continuous generation of methanol, the end product of the demethylation reaction, in a flow device. In this paper we describe studies of the regulation of the demethylation process. Changes in methylesterase activity after the simultaneous addition of opposing stimuli through two different transducer classes suggest that the sensory information detected by these transducers was integrated and that this integrated signal controlled demethylation.
摘要
趋化细菌对环境刺激的行为反应是由一类膜结合转导蛋白启动的,这些蛋白将兴奋性信号传递给鞭毛装置。适应过程似乎会关闭兴奋性信号,并且由转导蛋白上多个位点的可逆甲基化介导。在适应过程中,两种趋化特异性酶(一种甲基转移酶和一种甲基酯酶)的活性受到调节,以维持行为反应性。为了监测完整细胞中刺激诱导的甲基酯酶活性变化,我们在流动装置中对去甲基化反应的终产物甲醇的持续生成进行了定量。在本文中,我们描述了对去甲基化过程调节的研究。通过两种不同转导蛋白类别同时添加相反刺激后甲基酯酶活性的变化表明,这些转导蛋白检测到的感官信息被整合,并且这种整合信号控制着去甲基化。
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