Abstract
Putrescine belongs to the large group of polyamines, an essential class of metabolites that exists throughout all kingdoms of life. The Salmonella speF gene encodes an inducible ornithine decarboxylase that produces putrescine from ornithine. Putrescine can be also synthesized from arginine in a parallel metabolic pathway. Here, we show that speF expression is controlled at multiple levels through regulatory elements contained in a long leader sequence. At the heart of this regulation is a short open reading frame, orf34, which is required for speF production. Translation of orf34 interferes with Rho-dependent transcription termination and helps to unfold an inhibitory RNA structure sequestering speF ribosome-binding site. Two consecutive arginine codons in the conserved domain of orf34 provide a third level of speF regulation. Uninterrupted translation of orf34 under conditions of high arginine allows the formation of a speF mRNA structure that is degraded by RNase G, whereas ribosome pausing at the consecutive arginine codons in the absence of arginine enables the formation of an alternative structure that is resistant to RNase G. Thus, the rate of ribosome progression during translation of the upstream ORF influences the dynamics of speF mRNA folding and putrescine production. The identification of orf34 and its regulatory functions provides evidence for the evolutionary conservation of ornithine decarboxylase regulatory elements and putrescine production.
Highlights
Regulatory RNAs are recognized as important players in many adaptive and physiological responses in bacteria
Polyamines are widely distributed in nature, they bind nucleic acids and proteins and their exact mechanism of action is not clear, their effect on fundamental cellular functions is well documented
Premature translation termination caused by replacing amino acids 11 and 26 of orf34 with stop codons weakened expression of speF-lacZ to a similar extent, indicating that expression of orf34 is required for transcription of the speF gene (Fig 1C and Table 2)
Summary
Regulatory RNAs are recognized as important players in many adaptive and physiological responses in bacteria. One extensively studied class are mRNA leaders, attenuators and riboswitches This class of riboregulators control expression in cis by adopting altered structural conformations in response to cellular and/or environmental signals. Riboswitches modulate gene expression at the level of transcription termination/elongation, translation initiation, or splicing [10, 11]. In many cases, this regulation involves the highly conserved transcription termination factor Rho [12]. The binding of Mg+2 and the FMN precursor to mgtA and rib, respectively, promotes structural changes in the RNA leader that facilitate interaction with Rho [15]. Contrary to the canonical mechanism in which impaired translation favors Rho binding, complete translation of the mgtL peptide promotes association of Rho and premature termination [16, 17]
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