Add to ORKGpeer reviewedPhosphorus is mainly present in the serum as phosphate which is the principal intracellular anion, essential for the organism, in particular through its role in the production of ATP. In plasma, only inorganic phosphorus (Pi) is measured. In this article, we will review new information about the regulation of Pi at the intestinal, osseous and mainly renal levels. The various cotransporters sodium-phosphorus (Na-Pi) will also be examined and the molecular regulation mechanisms approached. Finally, illustration of Pi physiology will be given through various clinical examples
There has recently been significant interest in the concept of directly targeting intestinal phospha...
Abstract Regulation of phosphate homeostasis is critical for many biological processes, and both hyp...
Phosphate plays a critical role in many vital cellular processes. Deviations from normal serum phosp...
For a number of years, there has been increasing interest in the concept of directly targeting intes...
author's chapter in edited workPhosphate, a component of nucleic acids, DNA and RNA, is incorporated...
In a recent article in PNAS, Berndt et al. describe a novel and rapid regulation of renal phosphate ...
Homeostasis of inorganic phosphate (Pi) is primarily an affair of the kidneys. Reabsorption of the b...
The introduction to the thesis discusses the control of phosphate balance and considers recent devel...
Over the past 25 years, successive cloning of SLC34A1, SLC34A2 and SLC34A3, which encode the sodium-...
Phosphate homeostasis is dependent on the interaction and coordination of four main organ systems: t...
States of hypo- and hyperphosphatemia have deleterious consequences including rickets/osteomalacia a...
The advent of new insights into phosphate metabolism must urge the endocrinologist to rethink the p...
The phosphatonin pathway: New insights in phosphate homeostasis. Serum phosphate concentrations are ...
Phosphorus is a common anion. It plays an important role in energy generation. Renal phosphate handl...
Phosphate homeostasis is essential in health and disease, and involves four organs, the bone, kidney...
There has recently been significant interest in the concept of directly targeting intestinal phospha...
Abstract Regulation of phosphate homeostasis is critical for many biological processes, and both hyp...
Phosphate plays a critical role in many vital cellular processes. Deviations from normal serum phosp...
For a number of years, there has been increasing interest in the concept of directly targeting intes...
author's chapter in edited workPhosphate, a component of nucleic acids, DNA and RNA, is incorporated...
In a recent article in PNAS, Berndt et al. describe a novel and rapid regulation of renal phosphate ...
Homeostasis of inorganic phosphate (Pi) is primarily an affair of the kidneys. Reabsorption of the b...
The introduction to the thesis discusses the control of phosphate balance and considers recent devel...
Over the past 25 years, successive cloning of SLC34A1, SLC34A2 and SLC34A3, which encode the sodium-...
Phosphate homeostasis is dependent on the interaction and coordination of four main organ systems: t...
States of hypo- and hyperphosphatemia have deleterious consequences including rickets/osteomalacia a...
The advent of new insights into phosphate metabolism must urge the endocrinologist to rethink the p...
The phosphatonin pathway: New insights in phosphate homeostasis. Serum phosphate concentrations are ...
Phosphorus is a common anion. It plays an important role in energy generation. Renal phosphate handl...
Phosphate homeostasis is essential in health and disease, and involves four organs, the bone, kidney...
There has recently been significant interest in the concept of directly targeting intestinal phospha...
Abstract Regulation of phosphate homeostasis is critical for many biological processes, and both hyp...
Phosphate plays a critical role in many vital cellular processes. Deviations from normal serum phosp...