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  • Title: Identifying the lipid-protein interface and transmembrane structural transitions of the Torpedo Na,K-ATPase using hydrophobic photoreactive probes.
    Author: Blanton MP, McCardy EA.
    Journal: Biochemistry; 2000 Nov 07; 39(44):13534-44. PubMed ID: 11063590.
    Abstract:
    To identify regions of the Torpedo Na,K-ATPase alpha-subunit that interact with membrane lipid and to characterize conformationally dependent structural changes in the transmembrane domain, we have proteolytically mapped the sites of photoincorporation of the hydrophobic compounds 3-(trifluoromethyl)-3-(m-[(125)I]iodophenyl)diazirine ([(125)I]TID) and the phosphatidylcholine analogue [(125)I]TIDPC/16. The principal sites of [(125)I]TIDPC/16 labeling were identified by amino-terminal sequence analysis of proteolytic fragments of the Na,K-ATPase alpha-subunit and are localized to hydrophobic segments M1, M3, M9, and M10. These membrane-spanning segments have the greatest levels of exposure to the lipid bilayer and constitute the bulk of the lipid-protein interface of the Na,K-ATPase alpha-subunit. The extent of [(125)I]TID and [(125)I]TIDPC/16 photoincorporation into these transmembrane segments was the same in the E(1) and E(2) conformations, indicating that lipid-exposed segments located at the periphery of the transmembrane complex do not undergo large-scale movements during the cation transport cycle. In contrast, for [(125)I]TID but not for [(125)I]TIDPC/16, there was enhanced photoincorporation in the E(2) conformation, and this component of labeling mapped to transmembrane segments M5 and M6. Conformationally sensitive [(125)I]TID photoincorporation into the M5 and M6 segments does not reflect a change in the levels of exposure of these segments to the lipid bilayer as evidenced by the lack of [(125)I]TIDPC/16 labeling of these two segments in either conformation. These results suggest that [(125)I]TID promises to be a useful tool for structural characterization of the cation translocation pathway and for conformationally dependent changes in the pathway. A model of the spatial organization of the transmembrane segments of the Na,K-ATPase alpha- and beta-subunits is presented.
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