Jesper M. Nielsen scite author profile

The sequence Y771TLTSNIPEIT781P in the fifth transmembrane segment of the alpha-subunit of Na,K-ATPase is unique among cation pump proteins. Here, in search of the molecular basis for Na,K specificity, alanine and conservative substitutions were directed to six oxygen-carrying residues in this segment. The contribution of the residues to cation binding was estimated from direct binding of Tl+ [Nielsen, et al. (1998) Biochemistry 37, 1961-1968], K+ displacement of ATP binding at equilibrium, and Na+-dependent phosphorylation from ATP in the presence of oligomycin. As an intrinsic control, substitution of Thr781 had no effect on Tl+(K+) or Na+ binding. There are several novel observations from this work. First, the carboxamide group of Asn776 is equally important for binding Tl+(K+) or Na+, whereas a shift of the position of the carboxamide of Asn776 (Asn776Gln) causes a large depression of Na+ binding without affecting the binding of Tl+(K+). Second, Thr774 is important for Na+ selectivity because removal of the hydroxyl group reduces the binding of Na+ with no effect on binding of Tl+(K+). Removal of the methyl groups of Thr774 or Thr772 reduces binding of both Tl+(K+) and Na+, whereas the hydroxyl group of Thr772 does not contribute to cation binding. Furthermore, the hydroxyl groups of Ser775 and Tyr771 are important for binding both Tl+(K+) and Na+. The data suggest that rotating or tilting of the cytoplasmic part of the fifth transmembrane segment may adapt distances between coordinating groups and contribute to the distinctive Na+/K+ selectivity of the pump.

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Importance of Intramembrane Carboxylic Acids for Occlusion of K⁺ Ions at Equilibrium in Renal Na,K-ATPase

Nielsen

Pedersen

Karlish

et al. 1998

Biochemistry

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Site-directed mutagenesis and assay of Rb+ and Tl+ occlusion in recombinant Na,K-ATPase from yeast were combined to establish structure-function relationships of amino acid side chains involved in high-affinity occlusion of K+ in the E2[2K] form. The wild-type yeast enzyme was capable of occluding 2 Rb+ or Tl+ ions/ouabain binding site or alpha 1 beta 1 unit with high apparent affinity (Kd(Tl+) = 7 +/- 2 microM), like the purified Na,K-ATPase from pig kidney. Mutations of Glu327(Gln,Asp), Asp804(Asn, Glu), Asp808(Asn, Glu) and Glu779(Asp) abolished high-affinity occlusion of Rb+ or Tl+ ions. The substitution of Glu779 for Gln reduced the occlusion capacity to 1 Tl+ ion/alpha 1 beta 1-unit with a 3-fold decrease of the apparent affinity for the ion (Kd(Tl+) = 24 +/- 8 microM). These effects on occlusion were closely correlated to effects of the mutations on K0.5(K+) for K+ displacement of ATP binding. Each of the four carboxylate residues Glu327, Glu779, and Asp804 or Asp808 in transmembrane segments 4, 5, and 6 is therefore essential for high-affinity occlusion of K+ in the E2[2K] form. These residues either may engage directly in cation coordination or they may be important for formation or stability of the occlusion cavity.

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Identification of Asp⁸⁰⁴ and Asp⁸⁰⁸ as Na⁺ and K⁺ coordinating residues in α‐subunit of renal Na,K‐ATPase

et al. 1997

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Na-K-ATPase isoform (alpha 3, alpha 2, alpha 1) abundance in rat kidney estimated by competitive RT-PCR and ouabain binding

Lücking¹,

Nielsen²,

Pedersen³

et al. 1996

American Journal of Physiology-Renal Physiology

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For understanding the regulation of sodium reabsorption, it is important to know whether the alpha 2- or alpha 3-isoform of Na-K-adenosinetriphosphatase (Na-K-ATPase) is expressed in mammalian kidney in addition to the predominant alpha 1 beta 1-isozyme. Here we applied competitive polymerase chain reaction (PCR) for estimation of mRNA in parenchymal zones of rat kidney for comparison to high-affinity [3H]ouabain binding. The alpha 3-isoform mRNA was demonstrated to form 0.04-0.05% of the amount of alpha 1-isoform mRNA in the cortex, medulla, and papilla of rat kidney. The alpha 2-mRNA was demonstrated in all three zones and constituted 0.03% of the amount of alpha 1-mRNA in cortex. The abundance of the alpha 1 truncated mRNA was 0.1-0.8% of that of the alpha 1-mRNA. The upper limit for expression of Na-K-ATPase isozyme with high ouabain affinity (dissociation constant, 69-141 nM) was 0.096-0.14% of the concentration of alpha 1 beta 1-Na-K-ATPase. Thus a small but well-defined pool of alpha 2- and alpha 3-isoforms constitutes < or = 0.1% of the amount of alpha 1-isoform at both the mRNA and protein level in rat kidney.

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Jesper M. Nielsen

Crystal structure of a peptide nucleic acid (PNA) duplex at 1.7 Å resolution

Contribution to Tl⁺, K⁺, and Na⁺ Binding of Asn⁷⁷⁶, Ser⁷⁷⁵, Thr⁷⁷⁴, Thr⁷⁷², and Tyr⁷⁷¹ in Cytoplasmic Part of Fifth Transmembrane Segment in α-Subunit of Renal Na,K-ATPase

Importance of Intramembrane Carboxylic Acids for Occlusion of K⁺ Ions at Equilibrium in Renal Na,K-ATPase

Identification of Asp⁸⁰⁴ and Asp⁸⁰⁸ as Na⁺ and K⁺ coordinating residues in α‐subunit of renal Na,K‐ATPase

Na-K-ATPase isoform (alpha 3, alpha 2, alpha 1) abundance in rat kidney estimated by competitive RT-PCR and ouabain binding

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Jesper M. Nielsen

Crystal structure of a peptide nucleic acid (PNA) duplex at 1.7 Å resolution

Contribution to Tl+, K+, and Na+ Binding of Asn776, Ser775, Thr774, Thr772, and Tyr771 in Cytoplasmic Part of Fifth Transmembrane Segment in α-Subunit of Renal Na,K-ATPase

Importance of Intramembrane Carboxylic Acids for Occlusion of K+ Ions at Equilibrium in Renal Na,K-ATPase

Identification of Asp804 and Asp808 as Na+ and K+ coordinating residues in α‐subunit of renal Na,K‐ATPase

Na-K-ATPase isoform (alpha 3, alpha 2, alpha 1) abundance in rat kidney estimated by competitive RT-PCR and ouabain binding

Contact Info

Product

Resources

About

Contribution to Tl⁺, K⁺, and Na⁺ Binding of Asn⁷⁷⁶, Ser⁷⁷⁵, Thr⁷⁷⁴, Thr⁷⁷², and Tyr⁷⁷¹ in Cytoplasmic Part of Fifth Transmembrane Segment in α-Subunit of Renal Na,K-ATPase

Importance of Intramembrane Carboxylic Acids for Occlusion of K⁺ Ions at Equilibrium in Renal Na,K-ATPase

Identification of Asp⁸⁰⁴ and Asp⁸⁰⁸ as Na⁺ and K⁺ coordinating residues in α‐subunit of renal Na,K‐ATPase