Author
Listed:
- Deenah Osman
(Durham University
Durham University)
- Andrew W. Foster
(Durham University
Durham University)
- Junjun Chen
(Mason Business Center)
- Kotryna Svedaite
(Durham University
Durham University)
- Jonathan W. Steed
(Durham University)
- Elena Lurie-Luke
(Singapore Innovation Center)
- Thomas G. Huggins
(Mason Business Center)
- Nigel J. Robinson
(Durham University
Durham University)
Abstract
Bacteria possess transcription factors whose DNA-binding activity is altered upon binding to specific metals, but metal binding is not specific in vitro. Here we show that tight regulation of buffered intracellular metal concentrations is a prerequisite for metal specificity of Zur, ZntR, RcnR and FrmR in Salmonella Typhimurium. In cells, at non-inhibitory elevated concentrations, Zur and ZntR, only respond to Zn(II), RcnR to cobalt and FrmR to formaldehyde. However, in vitro all these sensors bind non-cognate metals, which alters DNA binding. We model the responses of these sensors to intracellular-buffered concentrations of Co(II) and Zn(II) based upon determined abundances, metal affinities and DNA affinities of each apo- and metalated sensor. The cognate sensors are modelled to respond at the lowest concentrations of their cognate metal, explaining specificity. However, other sensors are modelled to respond at concentrations only slightly higher, and cobalt or Zn(II) shock triggers mal-responses that match these predictions. Thus, perfect metal specificity is fine-tuned to a narrow range of buffered intracellular metal concentrations.
Suggested Citation
Deenah Osman & Andrew W. Foster & Junjun Chen & Kotryna Svedaite & Jonathan W. Steed & Elena Lurie-Luke & Thomas G. Huggins & Nigel J. Robinson, 2017.
"Fine control of metal concentrations is necessary for cells to discern zinc from cobalt,"
Nature Communications, Nature, vol. 8(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02085-z
DOI: 10.1038/s41467-017-02085-z
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