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Polyamine Stimulation of arcA Expression in Escherichia coli  

Rhee, Mun-Su (Department of Biological Science, Sung Kyun Kwan University)
Kim, Young-Sik (Department of Biological Science, Sung Kyun Kwan University)
Park, Seon-Young (Department of Biological Science, Sung Kyun Kwan University)
Park, Myung-Hun (Department of Biological Science, Sung Kyun Kwan University)
Kim, Bo-Min (Department of Biological Science, Sung Kyun Kwan University)
Kang, Seong-Uk (Department of Biological Science, Sung Kyun Kwan University)
Lee, Kui-Joo (Department of Biological Science, Sung Kyun Kwan University)
Lee, Jong-Ho (Department of Biological Science, Sung Kyun Kwan University)
Publication Information
Journal of Microbiology / v.40, no.4, 2002 , pp. 305-312 More about this Journal
Abstract
The effects of two natural polyamines (putrescine and spermidine) on the synthesis of ArcA, a response regulator of the Arc two-component signal transduction system, were studied using an E. coli mutant deficient in polyamine biosynthesis. Endogenous polyamine deficiency of the mutant resulted in marked reduction in the ArcA level determined by Western blot analysis. Putrescine supplement to the growth medium effectively increased the ArcA level of the mutant in a concentration-dependent manner. Spermidine also stimulated the ArcA level in the mutant to a greater degree than putrescine. Expression of arcA'::lacZ operon fusion in the mutant was stimulated 6-fold and 10-fold by putrescine and spermidine at a 1mM concentration, respectively, indicating that the stimulatory effect of the polyamines on ArcA synthesis is due to transcriptional induction, and that spermidine is a more potent arcA inducer than putrescine. The polyamine-dependent arcA'::lacZ induction was growth-phase-dependent and independent of either arcA or fnr which are two regulators involved in anaerobic stimulation of the Arch level. These results suggested that putrescine and spermidine polyamines may be potential intracellular signal molecules in the control of arcA expression, and thereby may play an important role in cellular metabolism.
Keywords
polyamine; putrescine; spermidine; transcriptional regulation; arcA; Escherichia coli;
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