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Nucleotide sequence of a cDNA for the β2 subunit isoform of Na^+, K^+-ATPase from human retina

Hernando, N. ; Martin-Vasallo, P. ; Ghosh, S. ; [et al.]

Amsterdam : Elsevier

Biochimica et Biophysica Acta (BBA)/Biomembranes 1189 (1994), S. 109-111

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ISSN: 0005-2736

Keywords: ATPase ; Beta2 subunit isozyme ; Charon BS vector ; Na^+/K^+- ; Retina cDNA library ; cDNA library

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Medicine , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0005-2736(94)90287-9

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Studies on the topology of the renal type II NaPi-cotransporter (1999)

Lambert, G. ; Traebert, M. ; Hernando, N. ; [et al.]

Springer

Pflügers Archiv 437 (1999), S. 972-978

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ISSN: 1432-2013

Keywords: Key words FLAG ; Phosphate ; Sodium phosphate cotransport ; Topology ; Transport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The rat type II sodium/phosphate cotransporter (NaPi-2) is a 85- to 90-kDa glycosylated protein located at the proximal tubular brush border membrane. Hydropathy predictions suggest eight transmembrane domains (sTM) with a large glycosylated loop between sTM 3 and sTM 4. We have studied the membrane topology of NaPi-2 expressed in oocytes. A 33-amino-acid fragment containing the FLAG epitope was inserted into seven loops connecting the sTMs and into the NH2- and COOH-ends of the protein. FLAG-antibody binding suggested that the loops connecting sTM 1 and sTM 2 as well as sTM 3 and sTM 4 are located extracellularly. Based on the lack of FLAG-antibody binding we suggest intracellular locations for the NH2- and COOH-termini and the region connecting sTM 4 and sTM 5. Immunoprecipitation studies of in vitro translated protein also suggest that the NH2-terminus is sited extracellularly. In immunohistochemical studies with NaPi-2-transfected MDCK cells, an interaction with NH2- and COOH- terminal antipeptide antibodies could only be obtained after membrane permeabilization. The presented data are an experimental documentation of the intracellular location of the NH2- and COOH-termini, and of the extracellular location of extracellular loops 1 and 2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050869

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Electrophysiological Characterization of the Flounder Type II Na+/P i Cotransporter (NaPi-5) Expressed in Xenopus laevis Oocytes (1997)

Forster, I.C. ; Wagner, C.A. ; Busch, A.E. ; [et al.]

Springer

The journal of membrane biology 160 (1997), S. 9-25

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ISSN: 1432-1424

Keywords: Key words: Na+/Pi cotransporter — Proximal tubule — Voltage clamp — Steady-state — Presteady-state —Xenopus laevis oocyte expression

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract: The two electrode voltage clamp technique was used to investigate the steady-state and presteady-state kinetic properties of the type II Na+/P i cotransporter NaPi-5, cloned from the kidney of winter flounder (Pseudopleuronectes americanus) and expressed in Xenopus laevis oocytes. Steady-state P i -induced currents had a voltage-independent apparent K m for P i of 0.03 mm and a Hill coefficient of 1.0 at neutral pH, when superfusing with 96 mm Na+. The apparent K m for Na+ at 1 mm P i was strongly voltage dependent (increasing from 32 mm at −70 mV to 77 mm at −30 mV) and the Hill coefficient was between 1 and 2, indicating cooperative binding of more than one Na+ ion. The maximum steady-state current was pH dependent, diminishing by 50% or more for a change from pH 7.8 to pH 6.3. Voltage jumps elicited presteady-state relaxations in the presence of 96 mm Na+ which were suppressed at saturating P i (1 mm). Relaxations were absent in non-injected oocytes. Charge was balanced for equal positive and negative steps, saturated at extremes of potential and reversed at the holding potential. Fitting the charge transfer to a Boltzmann relationship typically gave a midpoint voltage (V 0.5) close to zero and an apparent valency of approximately 0.6. The maximum steady-state transport rate correlated linearly with the maximum P i -suppressed charge movement, indicating that the relaxations were NaPi-5-specific. The apparent transporter turnover was estimated as 35 sec−1. The voltage dependence of the relaxations was P i -independent, whereas changes in Na+ shifted V 0.5 to −60 mV at 25 mm Na+. Protons suppressed relaxations but contributed to no detectable charge movement in zero external Na+. The voltage dependent presteady-state behavior of NaPi-5 could be described by a 3 state model in which the partial reactions involving reorientation of the unloaded carrier and binding of Na+ contribute to transmembrane charge movement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002329900291

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