Sensing iron availability via the fragile [4Fe–4S] cluster of the bacterial transcriptional repressor RirA† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c7sc02801f

نویسندگان

  • Ma Teresa Pellicer Martinez
  • Ana Bermejo Martinez
  • Jason C Crack
  • John D Holmes
  • Dimitri A Svistunenko
  • Andrew W B Johnston
  • Myles R Cheesman
  • Jonathan D Todd
  • Nick E Le Brun
چکیده

Rhizobial iron regulator A (RirA) is a global regulator of iron homeostasis in many nitrogen-fixing Rhizobia and related species of α-proteobacteria. It belongs to the widespread Rrf2 super-family of transcriptional regulators and features three conserved Cys residues that characterise the binding of an iron-sulfur cluster in other Rrf2 family regulators. Here we report biophysical studies demonstrating that RirA contains a [4Fe-4S] cluster, and that this form of the protein binds RirA-regulated DNA, consistent with its function as a repressor of expression of many genes involved in iron uptake. Under low iron conditions, [4Fe-4S] RirA undergoes a cluster conversion reaction resulting in a [2Fe-2S] form, which exhibits much lower affinity for DNA. Under prolonged low iron conditions, the [2Fe-2S] cluster degrades to apo-RirA, which does not bind DNA and can no longer function as a repressor of the cell's iron-uptake machinery. [4Fe-4S] RirA was also found to be sensitive to O2, suggesting that both iron and O2 are important signals for iron metabolism. Consistent with this, in vivo data showed that expression of RirA-regulated genes is also affected by O2. These data lead us to propose a novel regulatory model for iron homeostasis, in which RirA senses iron via the incorporation of a fragile iron-sulfur cluster that is sensitive to iron and O2 concentrations.

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منابع مشابه

Rapid engineering of versatile molecular logic gates using heterologous genetic transcriptional modules† †Electronic supplementary information (ESI) available: Supplementary methods, gene regulatory sequences used, the characterised dose responses of the single-input Buffer gate and the three promoter inputs under various cognate chemical induction levels. See DOI: 10.1039/c4cc05264a Click here for additional data file.

We designed and constructed versatile modular genetic logic gates in bacterial cells. These function as digital logic 1-input Buffer gate, 2-input and 3-input AND gates with one inverted input and integrate multiple chemical input signals in customised logic manners. Such rapidly engineered devices serve to achieve increased sensing signal selectivity.

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Persistent four-coordinate iron-centered radical stabilized by π-donation† †Electronic supplementary information (ESI) available: Experimental, crystallographic, computational details, and crystal data for 2, 4, 5 and 8. CCDC 1057111–1057113 and 1425703. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c5sc02601f Click here for additional data file. Click here for additional data file.

Institute for Materials Chemistry and Kasugakoen, Kasuga, Fukuoka 816-8580, Ja Department of Chemistry, Graduate Schoo Sendai 980-8578, Japan Institute for Materials Chemistry and En Fukuoka 819-0395, Japan CREST, Japan Science and Technology Fukuoka 816-8580, Japan † Electronic supplementary informati crystallographic, computational details, a 1057111–1057113 and 1425703. For ESI other electro...

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عنوان ژورنال:

دوره 8  شماره 

صفحات  -

تاریخ انتشار 2017