sodium-dependent phosphate transport

The directed movement of phosphate into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore, by a… Expand

National Institutes of Health

Papers overview

Semantic Scholar uses AI to extract papers important to this topic.

2006

Adenoviral expression of NHERF-1 in NHERF-1 null mouse renal proximal tubule cells restores Npt2a regulation by low phosphate media and parathyroid hormone.

R. Cunningham, D. Steplock, +4 authors E. Weinman
American journal of physiology. Renal physiology
2006

Corpus ID: 26034287

Sodium-dependent phosphate transport in NHERF-1(-/-) proximal tubule cells does not increase when grown in a low phosphate media… Expand

Highly Cited

2006

Highly Cited

2006

Role of the Sodium-Dependent Phosphate Cotransporter, Pit-1, in Vascular Smooth Muscle Cell Calcification

Xianwu Li, Hsueh-Ying Yang, C. Giachelli
Circulation research
2006

Corpus ID: 337102

Vascular calcification is associated with cardiovascular morbidity and mortality. Hyperphosphatemia is an important contributor… Expand

2005

Evolutionary and experimental analyses of inorganic phosphate transporter PiT family reveals two related signature sequences harboring highly conserved aspartic acids critical for sodium‐dependent…

Pernille Bøttger, L. Pedersen
The FEBS journal
2005

Corpus ID: 25673076

The mammalian members of the inorganic phosphate (Pi) transporter (PiT) family, the type III sodium‐dependent phosphate (NaPi… Expand

Highly Cited

2005

Highly Cited

2005

Effect of fibroblast growth factor-23 on phosphate transport in proximal tubules.

M. Baum, S. Schiavi, V. Dwarakanath, R. Quigley
Kidney international
2005

Corpus ID: 25315101

BACKGROUND Fibroblast growth factor-23 (FGF-23) has been implicated in the renal phosphate wasting in tumor-induced osteomalacia… Expand

2002

Two Highly Conserved Glutamate Residues Critical for Type III Sodium-dependent Phosphate Transport Revealed by Uncoupling Transport Function from Retroviral Receptor Function* 210

Pernille Bøttger, L. Pedersen
The Journal of Biological Chemistry
2002

Corpus ID: 22754492

Type III sodium-dependent phosphate (NaPi) cotransporters, Pit1 and Pit2, have been assigned housekeeping Pi transport functions… Expand

Highly Cited

2000

Highly Cited

2000

Identification of a vesicular glutamate transporter that defines a glutamatergic phenotype in neurons

S. Takamori, J. Rhee, Christian Rosenmund, R. Jahn
Nature
2000

Corpus ID: 4412622

Glutamate is the major excitatory neurotransmitter in the mammalian central nervous system. Synaptic vesicles are loaded with… Expand

Highly Cited

1997

Highly Cited

1997

Regulation of sodium-dependent phosphate transport in osteoclasts.

A. Gupta, X. Guo, U. Alvarez, K. Hruska
The Journal of clinical investigation
1997

Corpus ID: 1051198

Osteoclasts are the primary cells responsible for bone resorption. They are exposed to high ambient concentrations of inorganic… Expand

Highly Cited

1993

Highly Cited

1993

Expression cloning of human and rat renal cortex Na/Pi cotransport.

S. Magagnin, A. Werner, +4 authors H. Murer
Proceedings of the National Academy of Sciences…
1993

Corpus ID: 13291933

We have isolated two cDNA clones, NaPi-2 and NaPi-3, by screening rat kidney cortex and human kidney cortex cDNA libraries… Expand

1992

Phosphate transport by fibroblasts from patients with hypophosphataemic vitamin D-resistant rickets.

B. Escoubet, C. Silve, S. Balsan, C. Amiel
The Journal of endocrinology
1992

Corpus ID: 35550197

It is accepted that renal phosphate wasting is the basis of hypophosphataemia in vitamin D-resistant hypophosphataemic rickets… Expand

1991

PKC and Pi deprivation modulate differently the ubiquitous Na-dependent Pi uptake in MDCK cells.

B. Escoubet, M. C. Garestier, G. Cherqui, C. Amiel
The American journal of physiology
1991

Corpus ID: 25549755

The role of protein kinase C (PKC) in the modulation of the ubiquitous sodium-dependent phosphate transport and in adaptation of… Expand