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  • Title: Structure-based functional study reveals multiple roles of transmembrane segment IX and loop VIII-IX in NhaA Na+/H+ antiporter of Escherichia coli at physiological pH.
    Author: Tzubery T, Rimon A, Padan E.
    Journal: J Biol Chem; 2008 Jun 06; 283(23):15975-87. PubMed ID: 18387952.
    Abstract:
    The three-dimensional crystal structure of Escherichia coli NhaA determined at pH 4 provided the first structural insights into the mechanism of antiport and pH regulation of a Na(+)/H(+) antiporter. However, because NhaA is activated at physiological pH (pH 6.5-8.5), many questions pertaining to the active state of NhaA have remained open including the structural and physiological roles of helix IX and its loop VIII-IX. Here we studied this NhaA segment (Glu(241)-Phe(267)) by structure-based biochemical approaches at physiological pH. Cysteine-scanning mutagenesis identified new mutations affecting the pH dependence of NhaA, suggesting their contribution to the "pH sensor." Furthermore mutation F267C reduced the H(+)/Na(+) stoichiometry of the antiporter, and F267C/F344C inactivated the antiporter activity. Tests of accessibility to [2-(trimethylammonium)ethyl]methanethiosulfonate bromide, a membrane-impermeant positively charged SH reagent with a width similar to the diameter of hydrated Na(+), suggested that at physiological pH the cytoplasmic cation funnel is more accessible than at acidic pH. Assaying intermolecular cross-linking in situ between single Cys replacement mutants uncovered the NhaA dimer interface at the cytoplasmic side of the membrane; between Leu(255) and the cytoplasm, many Cys replacements cross-link with various cross-linkers spanning different distances (10-18 A) implying a flexible interface. L255C formed intermolecular S-S bonds, cross-linked only with a 5-A cross-linker, and when chemically modified caused an alkaline shift of 1 pH unit in the pH dependence of NhaA and a 6-fold increase in the apparent K(m) for Na(+) of the exchange activity suggesting a rigid point in the dimer interface critical for NhaA activity and pH regulation.
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