NhaA Na+/H+ antiporter mutants that hardly react to the membrane potential

Dudu Alkoby; Abraham Rimon; Maral Burdak; Miyer Patino-Ruiz; Octavian Cǎlinescu; Klaus Fendler; Etana Padan

doi:10.1371/journal.pone.0093200

NhaA Na^+/H⁺ antiporter mutants that hardly react to the membrane potential

Dudu Alkoby, Abraham Rimon, Maral Burdak, Miyer Patino-Ruiz, Octavian Cǎlinescu, Klaus Fendler, Etana Padan

Alexander Silberman Institute of Life Sciences

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Abstract

pH and Na⁺ homeostasis in all cells requires Na ⁺/H⁺ antiporters. The crystal structure, obtained at pH 4, of NhaA, the main antiporter of Escherichia coli, has provided general insights into an antiporter mechanism and its unique pH regulation. Here, we describe a general method to select various NhaA mutants from a library of randomly mutagenized NhaA. The selected mutants, A167P and F267C are described in detail. Both mutants are expressed in Escherichia coli EP432 cells at 70-95% of the wild type but grow on selective medium only at neutral pH, A167P on Li ⁺ (0.1 M) and F267C on Na⁺ (0.6 M). Surprising for an electrogenic secondary transporter, and opposed to wild type NhaA, the rates of A167P and F267C are almost indifferent to membrane potential. Detailed kinetic analysis reveals that in both mutants the rate limiting step of the cation exchange cycle is changed from an electrogenic to an electroneutral reaction.

Original language	English
Article number	e93200
Journal	PLoS ONE
Volume	9
Issue number	4
DOIs	https://doi.org/10.1371/journal.pone.0093200
State	Published - 3 Apr 2014

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abstract = "pH and Na+ homeostasis in all cells requires Na +/H+ antiporters. The crystal structure, obtained at pH 4, of NhaA, the main antiporter of Escherichia coli, has provided general insights into an antiporter mechanism and its unique pH regulation. Here, we describe a general method to select various NhaA mutants from a library of randomly mutagenized NhaA. The selected mutants, A167P and F267C are described in detail. Both mutants are expressed in Escherichia coli EP432 cells at 70-95% of the wild type but grow on selective medium only at neutral pH, A167P on Li + (0.1 M) and F267C on Na+ (0.6 M). Surprising for an electrogenic secondary transporter, and opposed to wild type NhaA, the rates of A167P and F267C are almost indifferent to membrane potential. Detailed kinetic analysis reveals that in both mutants the rate limiting step of the cation exchange cycle is changed from an electrogenic to an electroneutral reaction.",

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AU - Alkoby, Dudu

AU - Rimon, Abraham

AU - Burdak, Maral

AU - Patino-Ruiz, Miyer

AU - Cǎlinescu, Octavian

AU - Fendler, Klaus

AU - Padan, Etana

PY - 2014/4/3

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AB - pH and Na+ homeostasis in all cells requires Na +/H+ antiporters. The crystal structure, obtained at pH 4, of NhaA, the main antiporter of Escherichia coli, has provided general insights into an antiporter mechanism and its unique pH regulation. Here, we describe a general method to select various NhaA mutants from a library of randomly mutagenized NhaA. The selected mutants, A167P and F267C are described in detail. Both mutants are expressed in Escherichia coli EP432 cells at 70-95% of the wild type but grow on selective medium only at neutral pH, A167P on Li + (0.1 M) and F267C on Na+ (0.6 M). Surprising for an electrogenic secondary transporter, and opposed to wild type NhaA, the rates of A167P and F267C are almost indifferent to membrane potential. Detailed kinetic analysis reveals that in both mutants the rate limiting step of the cation exchange cycle is changed from an electrogenic to an electroneutral reaction.

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NhaA Na^+/H⁺ antiporter mutants that hardly react to the membrane potential

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