Engineering bacterial two-component system PmrA/PmrB to sense lanthanide ions

Haihua Liang; Xin Deng; Mike Bosscher; Quanjiang Ji; Mark P. Jensen; Chuan He

doi:10.1021/ja312032c

Engineering bacterial two-component system PmrA/PmrB to sense lanthanide ions

Haihua Liang, Xin Deng, Mike Bosscher, Quanjiang Ji, Mark P. Jensen, Chuan He^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

31 Citations (Scopus)

Abstract

The Salmonella PmrA/PmrB two-component system uses an iron(III)-binding motif on the cell surface to sense the environmental or host ferric level and regulate PmrA-controlled gene expression. We replaced the iron(III)-binding motif with a lanthanide-binding peptide sequence that is known to selectively recognize trivalent lanthanide ions. The newly engineered two-component system (PmrA/PmrB) can effectively sense lanthanide ion and regulate gene expression in E. coli. This work not only provides the first known lanthanide-based sensing and response in live cells but also demonstrates that the PmrA/PmrB system is a suitable template for future synthetic biology efforts to construct bacteria that can sense and respond to other metal ions in remediation or sequestration. © 2013 American Chemical Society.

Original language	English
Pages (from-to)	2037-2039
Journal	Journal of the American Chemical Society
Volume	135
Issue number	6
Online published	27 Jan 2013
DOIs	https://doi.org/10.1021/ja312032c
Publication status	Published - 13 Feb 2013
Externally published	Yes

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title = "Engineering bacterial two-component system PmrA/PmrB to sense lanthanide ions",

abstract = "The Salmonella PmrA/PmrB two-component system uses an iron(III)-binding motif on the cell surface to sense the environmental or host ferric level and regulate PmrA-controlled gene expression. We replaced the iron(III)-binding motif with a lanthanide-binding peptide sequence that is known to selectively recognize trivalent lanthanide ions. The newly engineered two-component system (PmrA/PmrB) can effectively sense lanthanide ion and regulate gene expression in E. coli. This work not only provides the first known lanthanide-based sensing and response in live cells but also demonstrates that the PmrA/PmrB system is a suitable template for future synthetic biology efforts to construct bacteria that can sense and respond to other metal ions in remediation or sequestration. {\textcopyright} 2013 American Chemical Society.",

author = "Haihua Liang and Xin Deng and Mike Bosscher and Quanjiang Ji and Jensen, {Mark P.} and Chuan He",

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T1 - Engineering bacterial two-component system PmrA/PmrB to sense lanthanide ions

AU - Liang, Haihua

AU - Deng, Xin

AU - Bosscher, Mike

AU - Ji, Quanjiang

AU - Jensen, Mark P.

AU - He, Chuan

PY - 2013/2/13

Y1 - 2013/2/13

N2 - The Salmonella PmrA/PmrB two-component system uses an iron(III)-binding motif on the cell surface to sense the environmental or host ferric level and regulate PmrA-controlled gene expression. We replaced the iron(III)-binding motif with a lanthanide-binding peptide sequence that is known to selectively recognize trivalent lanthanide ions. The newly engineered two-component system (PmrA/PmrB) can effectively sense lanthanide ion and regulate gene expression in E. coli. This work not only provides the first known lanthanide-based sensing and response in live cells but also demonstrates that the PmrA/PmrB system is a suitable template for future synthetic biology efforts to construct bacteria that can sense and respond to other metal ions in remediation or sequestration. © 2013 American Chemical Society.

AB - The Salmonella PmrA/PmrB two-component system uses an iron(III)-binding motif on the cell surface to sense the environmental or host ferric level and regulate PmrA-controlled gene expression. We replaced the iron(III)-binding motif with a lanthanide-binding peptide sequence that is known to selectively recognize trivalent lanthanide ions. The newly engineered two-component system (PmrA/PmrB) can effectively sense lanthanide ion and regulate gene expression in E. coli. This work not only provides the first known lanthanide-based sensing and response in live cells but also demonstrates that the PmrA/PmrB system is a suitable template for future synthetic biology efforts to construct bacteria that can sense and respond to other metal ions in remediation or sequestration. © 2013 American Chemical Society.

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DO - 10.1021/ja312032c

M3 - RGC 21 - Publication in refereed journal

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EP - 2039

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 6

ER -

Engineering bacterial two-component system PmrA/PmrB to sense lanthanide ions

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