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  • Title: Functional and structural interactions of the transmembrane domain X of NhaA, Na+/H+ antiporter of Escherichia coli, at physiological pH.
    Author: Kozachkov L, Herz K, Padan E.
    Journal: Biochemistry; 2007 Mar 06; 46(9):2419-30. PubMed ID: 17284054.
    Abstract:
    The 3D 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 7.0-8.5), many questions pertaining to the active state of NhaA have remained open, including the physiological role of helix X. Using a structural-based evolutionary approach in silico, we identified a segment of most conserved residues in the middle of helix X. These residues were then used as targets for functional studies at physiological pH. Cysteine-scanning mutagenesis showed that Gly303, in the middle of the conserved segment, is an essential residue and Cys replacement of Lys300 retains only Li+/H+ antiporter activity, with a 20-fold increase in the apparent KM for Li+. Cys replacements of Leu296 and Gly299 increase the apparent KM of the Na+/H+ antiporter for both Na+ and Li+. Accessibility test to N-ethylmaleimide and 2-sulfonatoethyl methanethiosulfonate showed that G299C, K300C, and G303C are accessible to the cytoplasm. Suppressor mutations and site-directed chemical cross-linking identified a functional and/or structural interaction between helix X (G295C) and helix IVp (A130C). While these results were in accordance with the acid-locked crystal structure, surprisingly, conflicting data were also obtained; E78C of helix II cross-links very efficiently with several Cys replacements of helix X, and E78K/K300E is a suppressor mutation of K300E. These results reveal that, at alkaline pH, the distance between the conserved center of helix X and E78 of helix II is drastically decreased, implying a pH-induced conformational change of one or both helices.
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