2016
DOI: 10.1038/srep20753
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Asymmetric Preorganization of Inverted Pair Residues in the Sodium-Calcium Exchanger

Abstract: In analogy with many other proteins, Na+/Ca2+ exchangers (NCX) adapt an inverted twofold symmetry of repeated structural elements, while exhibiting a functional asymmetry by stabilizing an outward-facing conformation. Here, structure-based mutant analyses of the Methanococcus jannaschii Na+/Ca2+ exchanger (NCX_Mj) were performed in conjunction with HDX-MS (hydrogen/deuterium exchange mass spectrometry) to identify the structure-dynamic determinants of functional asymmetry. HDX-MS identified hallmark difference… Show more

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Cited by 39 publications
(147 citation statements)
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“…Therefore, D240 is protonated in both the Ca 2+ and Na + translocation steps, whereas, in the ground state, both ions do not bind to S mid . This interpretation is further supported by the lack of an effect of the N81A mutation either on the Na + /Ca 2+ or Ca 2+ /Ca 2+ exchange rates (notably, N81 is the only residue that exclusively belongs to the S mid site, whereas the three other residues at S mid , E54, E213, and D240 participate in ion-coordination at other sites as well) [26]. Notably, kinetic analyses suggest that D240 may contribute to the transition state stabilization of ion-bound species, even though neither Ca 2+ nor Na + occupies the S mid site in the ground state [26].…”
Section: Structure-functional Assignments Of Four Binding Sites Inmentioning
confidence: 95%
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“…Therefore, D240 is protonated in both the Ca 2+ and Na + translocation steps, whereas, in the ground state, both ions do not bind to S mid . This interpretation is further supported by the lack of an effect of the N81A mutation either on the Na + /Ca 2+ or Ca 2+ /Ca 2+ exchange rates (notably, N81 is the only residue that exclusively belongs to the S mid site, whereas the three other residues at S mid , E54, E213, and D240 participate in ion-coordination at other sites as well) [26]. Notably, kinetic analyses suggest that D240 may contribute to the transition state stabilization of ion-bound species, even though neither Ca 2+ nor Na + occupies the S mid site in the ground state [26].…”
Section: Structure-functional Assignments Of Four Binding Sites Inmentioning
confidence: 95%
“…This interpretation is further supported by the lack of an effect of the N81A mutation either on the Na + /Ca 2+ or Ca 2+ /Ca 2+ exchange rates (notably, N81 is the only residue that exclusively belongs to the S mid site, whereas the three other residues at S mid , E54, E213, and D240 participate in ion-coordination at other sites as well) [26]. Notably, kinetic analyses suggest that D240 may contribute to the transition state stabilization of ion-bound species, even though neither Ca 2+ nor Na + occupies the S mid site in the ground state [26]. The protonation of D240 during the transport cycle also provides a simple explanation for the “confusing” observation that the conserved residue at position 240 in known prokaryotic and eukaryotic Na + /Ca 2+ exchangers is an asparagine, and not an aspartate.…”
Section: Structure-functional Assignments Of Four Binding Sites Inmentioning
confidence: 95%
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“…To achieve these goals, we incorporated LeuT, a thermostable prokaryotic NSS homolog, into lipid bilayer nanodiscs. To circumvent the need to label specific residues, we monitored the conformational hallmarks of LeuT using HDX-MS, a technique that has previously been used to probe the conformational dynamics of other membrane proteins (46)(47)(48). We biased the conformational equilibrium to more outwardfavoring orientations by adding saturating Na + to WT LeuT.…”
Section: Agreement Between Experimental and In Silico-predicted Deutementioning
confidence: 99%