Most of the residues associated with cation coordination seem to reside within transmembrane segments of the alpha-subunit of the Na,K-ATPase, whereas amino acids which appear to be involved in the coordination of ATP are found in the major cytoplasmic loop between transmembrane segments M4 and M5 (see Lingrel & Kuntzweiler, 1994; Lutsenko & Kaplan, 1995). The coupling of the two functions of cation transport and ATP hydrolysis involved in the active transport of Na and K ions must involve interactions between these two structural units. This paper summarizes recent experimental results and conclusions of studies on the renal Na,K-ATPase which have employed controlled proteolysis in the presence of physiological ligands, chemical modification with a range of reagents and a variety of functional assays. The data provide evidence for movements between specific transmembrane segments associated with cation-binding conformations and coupled changes which take place in the ATP binding domain. The binding of different cations in the cation-binding domain is sensed in the ATP binding domain and manifested as a change in reactivity. This occurs at amino acid residues which are widely spaced in primary structure. It is apparent that structural changes are transmitted through much of the ATP-binding domain as a consequence of the occupancy of the cation-binding domain. We also provide evidence that both the number and identity of cations bound are also sensed in the ATP-binding domain.
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