Add to ORKGP-i transport via the phosphate inorganic transport system (Pit) of Escherichia coil was studied in natural and artificial membranes. P-i uptake via Pit is dependent on the presence of divalent cations, like Mg2+, Ca2+, Co2+, or Mn2+, which form a soluble, neutral metal phosphate (MeHPO(4)) complex. P-i-dependent uptake of Mg2+ and Ca2+, equimolar cotransport of P-i and Ca2+, and inhibition by Mg2+ of Ca2+ uptake in the presence of P-i, but not of P-i uptake in the presence of Ca2+, indicate that a metal phosphate complex is the transported solute. Metal phosphate is transported in symport with H+ with a mechanistic stoichiometry of 1. Pit mediates efflux and homologous exchange of metal phosphate, but not heterologous metal phosphate excha...
Sodium-dependent transport of inorganic phosphate into brush border membrane vesicles is strongly in...
Uptake of Pi into brush-border membrane vesicles isolated from rat small intestine was investigated ...
Two systems for the uptake of inorganic phosphate (P-i) in Escherichia coli, PitA and Pst, have been...
P-i transport via the phosphate inorganic transport system (Pit) of Escherichia coil was studied in ...
The mechanism and energetics of the secondary P(i) transport system of A. johnsonii were studied in ...
Bacteria have evolved sophisticated P(i) transport systems which combine high affinity with coupling...
In natural waters and domestic waste waters in which divalent metal ions are present in excess of P-...
SUMMARY: The system coupling inorganic phosphate exchange across the osmotic barrier of Micrococcus ...
Escherichia coli possesses two major systems for inorganic phosphate (Pi) uptake. The Pst system (ps...
AbstractTransport systems of Gram-negative bacteria coordinate the passage of metabolites through th...
The transport of P(i) was characterized in Acinetobacter johnsonii 210A, which is able to accumulate...
A sodium dependent specific transport system for phosphate is present in the brush border microvilli...
Escherichia coli contains two major systems for transporting inorganic phosphate (Pi). The low-affin...
Life’s processes absolutely require inorganic phosphate for structural and energetic purposes. Esche...
Sodium-dependent transport of inorganic phosphate into brush border membrane vesicles is strongly in...
Uptake of Pi into brush-border membrane vesicles isolated from rat small intestine was investigated ...
Two systems for the uptake of inorganic phosphate (P-i) in Escherichia coli, PitA and Pst, have been...
P-i transport via the phosphate inorganic transport system (Pit) of Escherichia coil was studied in ...
The mechanism and energetics of the secondary P(i) transport system of A. johnsonii were studied in ...
Bacteria have evolved sophisticated P(i) transport systems which combine high affinity with coupling...
In natural waters and domestic waste waters in which divalent metal ions are present in excess of P-...
SUMMARY: The system coupling inorganic phosphate exchange across the osmotic barrier of Micrococcus ...
Escherichia coli possesses two major systems for inorganic phosphate (Pi) uptake. The Pst system (ps...
AbstractTransport systems of Gram-negative bacteria coordinate the passage of metabolites through th...
The transport of P(i) was characterized in Acinetobacter johnsonii 210A, which is able to accumulate...
A sodium dependent specific transport system for phosphate is present in the brush border microvilli...
Escherichia coli contains two major systems for transporting inorganic phosphate (Pi). The low-affin...
Life’s processes absolutely require inorganic phosphate for structural and energetic purposes. Esche...
Sodium-dependent transport of inorganic phosphate into brush border membrane vesicles is strongly in...
Uptake of Pi into brush-border membrane vesicles isolated from rat small intestine was investigated ...
Two systems for the uptake of inorganic phosphate (P-i) in Escherichia coli, PitA and Pst, have been...