Journal
BIOSYSTEMS
Volume 107, Issue 3, Pages 129-134Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.biosystems.2011.11.001
Keywords
Transcription dynamics; Single molecule detection; qPCR; Metabolite
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Funding
- Academy of Finland
- Finnish Funding Agency for Technology and Innovation
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In vitro studies show that the transcriptional dynamics in Escherichia coli is sensitive to Mg2+ concentration in the cell. We study in vivo how Mg2+ affects the production of RNA molecules under the control of the lar promoter, P-lar, a lac promoter variant. The target RNA codes for RFP followed by 96 MS2d-GFP binding sites, allowing in vivo detection of individual RNA molecules following transcription. As Mg2+ concentration is increased, transcripts' production first increases, but then decreases. Results were confirmed by qPCR and gel assay. Analysis of cell to cell diversity in RNA production shows that the variance of RNA numbers changes with Me. Gel assay confirms changes in the structure of the target RNA. These results suggest that changes in the dynamics of elongation may also affect RNA production, along with changes in the dynamics of the promoter open complex. The findings suggest that changes in metabolite concentration can have multiple, complex effects on the in vivo dynamics of transcription. Comparative analysis of the effects on the dynamics of transcription of other metabolites confirms the significance of the effects of Mg2+ ions. Namely, we show that Ca2+ and Fe2+ have almost negligible effects in comparison to Mg2+. 2011 Elsevier Ireland Ltd. All rights reserved.
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