Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T

Polyphosphates (PolyP) are linear polymers of orthophosphate residues that have been proposed to participate in metal resistance in bacteria and archaea. In addition of having a CopA/CopB copper efflux system, the thermoacidophilic archaeon Metallosphaera sedula contains electron-dense PolyP-like gr...

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Main Authors: Matías Rivero, Constanza Torres-Paris, Rodrigo Muñoz, Ricardo Cabrera, Claudio A. Navarro, Carlos A. Jerez
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Archaea
Online Access:http://dx.doi.org/10.1155/2018/5251061
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spelling doaj-d9adc320284541309d4c2c3190bbc98e2021-07-02T01:25:20ZengHindawi LimitedArchaea1472-36461472-36542018-01-01201810.1155/2018/52510615251061Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348TMatías Rivero0Constanza Torres-Paris1Rodrigo Muñoz2Ricardo Cabrera3Claudio A. Navarro4Carlos A. Jerez5Laboratory of Molecular Microbiology and Biotechnology, Faculty of Sciences, University of Chile, Santiago, ChileLaboratory of Molecular Microbiology and Biotechnology, Faculty of Sciences, University of Chile, Santiago, ChileLaboratory of Biochemistry and Molecular Biology, Faculty of Sciences, University of Chile, Santiago, ChileLaboratory of Biochemistry and Molecular Biology, Faculty of Sciences, University of Chile, Santiago, ChileLaboratory of Molecular Microbiology and Biotechnology, Faculty of Sciences, University of Chile, Santiago, ChileLaboratory of Molecular Microbiology and Biotechnology, Faculty of Sciences, University of Chile, Santiago, ChilePolyphosphates (PolyP) are linear polymers of orthophosphate residues that have been proposed to participate in metal resistance in bacteria and archaea. In addition of having a CopA/CopB copper efflux system, the thermoacidophilic archaeon Metallosphaera sedula contains electron-dense PolyP-like granules and a putative exopolyphosphatase (PPXMsed, Msed_0891) and four presumed pho84-like phosphate transporters (Msed_0846, Msed_0866, Msed_1094, and Msed_1512) encoded in its genome. In the present report, the existence of a possible PolyP-based copper-resistance mechanism in M. sedula DSM 5348T was evaluated. M. sedula DSM 5348T accumulated high levels of phosphorous in the form of granules, and its growth was affected in the presence of 16 mM copper. PolyP levels were highly reduced after the archaeon was subjected to an 8 mM CuSO4 shift. PPXMsed was purified, and the enzyme was found to hydrolyze PolyP in vitro. Essential residues for catalysis of PPXMsed were E111 and E113 as shown by a site-directed mutagenesis of the implied residues. Furthermore, M. sedula ppx, pho84-like, and copTMA genes were upregulated upon copper exposure, as determined by qRT-PCR analysis. The results obtained support the existence of a PolyP-dependent copper-resistance system that may be of great importance in the adaptation of this thermoacidophilic archaeon to its harsh environment.http://dx.doi.org/10.1155/2018/5251061
collection DOAJ
language English
format Article
sources DOAJ
author Matías Rivero
Constanza Torres-Paris
Rodrigo Muñoz
Ricardo Cabrera
Claudio A. Navarro
Carlos A. Jerez
spellingShingle Matías Rivero
Constanza Torres-Paris
Rodrigo Muñoz
Ricardo Cabrera
Claudio A. Navarro
Carlos A. Jerez
Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
Archaea
author_facet Matías Rivero
Constanza Torres-Paris
Rodrigo Muñoz
Ricardo Cabrera
Claudio A. Navarro
Carlos A. Jerez
author_sort Matías Rivero
title Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
title_short Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
title_full Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
title_fullStr Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
title_full_unstemmed Inorganic Polyphosphate, Exopolyphosphatase, and Pho84-Like Transporters May Be Involved in Copper Resistance in Metallosphaera sedula DSM 5348T
title_sort inorganic polyphosphate, exopolyphosphatase, and pho84-like transporters may be involved in copper resistance in metallosphaera sedula dsm 5348t
publisher Hindawi Limited
series Archaea
issn 1472-3646
1472-3654
publishDate 2018-01-01
description Polyphosphates (PolyP) are linear polymers of orthophosphate residues that have been proposed to participate in metal resistance in bacteria and archaea. In addition of having a CopA/CopB copper efflux system, the thermoacidophilic archaeon Metallosphaera sedula contains electron-dense PolyP-like granules and a putative exopolyphosphatase (PPXMsed, Msed_0891) and four presumed pho84-like phosphate transporters (Msed_0846, Msed_0866, Msed_1094, and Msed_1512) encoded in its genome. In the present report, the existence of a possible PolyP-based copper-resistance mechanism in M. sedula DSM 5348T was evaluated. M. sedula DSM 5348T accumulated high levels of phosphorous in the form of granules, and its growth was affected in the presence of 16 mM copper. PolyP levels were highly reduced after the archaeon was subjected to an 8 mM CuSO4 shift. PPXMsed was purified, and the enzyme was found to hydrolyze PolyP in vitro. Essential residues for catalysis of PPXMsed were E111 and E113 as shown by a site-directed mutagenesis of the implied residues. Furthermore, M. sedula ppx, pho84-like, and copTMA genes were upregulated upon copper exposure, as determined by qRT-PCR analysis. The results obtained support the existence of a PolyP-dependent copper-resistance system that may be of great importance in the adaptation of this thermoacidophilic archaeon to its harsh environment.
url http://dx.doi.org/10.1155/2018/5251061
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