Iron transport in Francisella in the absence of a recognizable TonB protein still requires energy generated by the proton motive force

Lidia M. Crosa; Jorge H. Crosa; Fred Heffron

doi:10.1007/s10534-008-9170-7

Iron transport in Francisella in the absence of a recognizable TonB protein still requires energy generated by the proton motive force

Lidia M. Crosa, Jorge H. Crosa, Fred Heffron

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

The mechanism of iron transport in Francisella is still a puzzle since none of the sequenced Francisella strains appears to encode a TonB protein, the energy transducer of the proton motive force necessary to act on the bacterial outer membrane siderophore receptor to allow the internalization of iron. In this work we demonstrate using kinetic experiments of radioactive Fe ³⁺ utilization, that iron uptake in Francisella novicida, although with no recognizable TonB protein, is indeed dependent on energy generated by the proton motive force. Moreover, mutants of a predicted outer membrane receptor still transport iron and are sensitive to the iron dependent antimicrobial compound streptonigrin. Our studies suggest that alternative pathways to internalize iron might exist in Francisella.

Original language	English (US)
Pages (from-to)	337-344
Number of pages	8
Journal	BioMetals
Volume	22
Issue number	2
DOIs	https://doi.org/10.1007/s10534-008-9170-7
State	Published - Apr 2009
Externally published	Yes

Keywords

Francisella
Iron transport
Proton motive force

ASJC Scopus subject areas

Biomaterials
Biochemistry, Genetics and Molecular Biology(all)
Agricultural and Biological Sciences(all)
Metals and Alloys

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10.1007/s10534-008-9170-7

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title = "Iron transport in Francisella in the absence of a recognizable TonB protein still requires energy generated by the proton motive force",

abstract = "The mechanism of iron transport in Francisella is still a puzzle since none of the sequenced Francisella strains appears to encode a TonB protein, the energy transducer of the proton motive force necessary to act on the bacterial outer membrane siderophore receptor to allow the internalization of iron. In this work we demonstrate using kinetic experiments of radioactive Fe 3+ utilization, that iron uptake in Francisella novicida, although with no recognizable TonB protein, is indeed dependent on energy generated by the proton motive force. Moreover, mutants of a predicted outer membrane receptor still transport iron and are sensitive to the iron dependent antimicrobial compound streptonigrin. Our studies suggest that alternative pathways to internalize iron might exist in Francisella.",

keywords = "Francisella, Iron transport, Proton motive force",

author = "Crosa, {Lidia M.} and Crosa, {Jorge H.} and Fred Heffron",

note = "Funding Information: Acknowledgments This work was supported by grants UW RCE 5U54AI 290601 to F.H. and NIH AI 019018 to J.H.C.",

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doi = "10.1007/s10534-008-9170-7",

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T1 - Iron transport in Francisella in the absence of a recognizable TonB protein still requires energy generated by the proton motive force

AU - Crosa, Lidia M.

AU - Crosa, Jorge H.

AU - Heffron, Fred

N1 - Funding Information: Acknowledgments This work was supported by grants UW RCE 5U54AI 290601 to F.H. and NIH AI 019018 to J.H.C.

PY - 2009/4

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N2 - The mechanism of iron transport in Francisella is still a puzzle since none of the sequenced Francisella strains appears to encode a TonB protein, the energy transducer of the proton motive force necessary to act on the bacterial outer membrane siderophore receptor to allow the internalization of iron. In this work we demonstrate using kinetic experiments of radioactive Fe 3+ utilization, that iron uptake in Francisella novicida, although with no recognizable TonB protein, is indeed dependent on energy generated by the proton motive force. Moreover, mutants of a predicted outer membrane receptor still transport iron and are sensitive to the iron dependent antimicrobial compound streptonigrin. Our studies suggest that alternative pathways to internalize iron might exist in Francisella.

AB - The mechanism of iron transport in Francisella is still a puzzle since none of the sequenced Francisella strains appears to encode a TonB protein, the energy transducer of the proton motive force necessary to act on the bacterial outer membrane siderophore receptor to allow the internalization of iron. In this work we demonstrate using kinetic experiments of radioactive Fe 3+ utilization, that iron uptake in Francisella novicida, although with no recognizable TonB protein, is indeed dependent on energy generated by the proton motive force. Moreover, mutants of a predicted outer membrane receptor still transport iron and are sensitive to the iron dependent antimicrobial compound streptonigrin. Our studies suggest that alternative pathways to internalize iron might exist in Francisella.

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KW - Iron transport

KW - Proton motive force

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Iron transport in Francisella in the absence of a recognizable TonB protein still requires energy generated by the proton motive force

Abstract

Keywords

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