Intracellular transport of vitellogenin in Xenopus oocytes: An autoradiographic study

The role of primordial yolk platelets (PYPs) in the transport of the yolk precursor vitellogenin to the yolk platelets in Xenopus laevis oocytes has been demonstrated by electron microscopic autoradiography. Within 20 min after exposure of the oocyte to ³H-labeled-vitellogenin, silver grains are associated with small PYPs which are formed by the fusion of endosomes. At 40 min after incorporation of ³H-labeled vitellogenin, autoradiographic silver grains are associated with larger PYPs and with the superficial layer of yolk platelets. Thus, the results demonstrate that PYPs are an intermediate in the transport of vitellogenin from endosomes to yolk platelets. These observations are consonant with the general hypothesis that vitellogenin first associates (binds?) with the plasma membrane, then is incorporated by endocytosis into endosomes which fuse to form PYPs, and finally the contents of the PYPs are eventually deposited into yolk platelets.     

Acetylcholine stimulates hydrolysis of 32 P-labeled phosphatidic acid in guinea pig synaptosomes

[³H]-inositol or [³H]-arachidonate was injected intracerebrally into guinea pigs. Labeled nerve endings were incubated with Ach¹ or CCh, both of which stimulate labeling of PhA and PhI from ³²P_i by > 100% and 70% respectively. Their addition did not affect the $\text{in}$$\text{vivo}$ labeled phosphatidyl-[³H]-inositol or [³H]-arachidonyl-diglyceride and -PhI. Enhanced hydrolysis of [³H]-inositol-PhiP and -PhIP₂ in the presence of ACh, CCh or choline was not reversed by atropine. In a two-step experiment, PhA was labeled with ³²P_i, and DNP was added to block further $\text{γ-[}{}^{32}\text{P]-ATP}$ formation. Addition of ACh stimulated an atropine-sensitive $\text{decrease}$ in [³²P]-PhA.     

INTRACELLULAR SYNTHESIS, TRANSPORT, AND PACKAGING OF PROTEINACEOUS YOLK IN OOCYTES OF ORCONECTES IMMUNIS

The incorporation of leucine-³H into either ovarian or oocyte proteins occurs throughout vitellogenesis, but is at a maximum during early phases of this process. The labeling of ovarian and oocyte proteins is inhibited with cycloheximide. Oocytes are permeable to actinomycin D, and this drug does not affect the incorporation of amino acids into oocyte proteins but does block oocyte RNA synthesis. By means of both light microscope and high resolution radioautography, it has been demonstrated that the initial incorporation of leucine-³H under both in vitro and in vivo conditions occurs in elements of the rough-surfaced endoplasmic reticulum in the oocyte. Under pulse-chase conditions, the label subsequently becomes associated with intracisternal (precursor yolk) granules now aggregated within the cisternae of the connected smooth-surfaced endoplasmic reticulum. By 7 days, mature yolk globules are extensively labeled. The results of experiments designed to assess the possible contribution of maternal blood proteins to yolk deposition indicate that such a contribution is minimal. It is concluded that the crayfish oocyte is programmed for and capable of synthesizing the massive store of proteinaceous yolk present in the egg at the end of oogenesis.     

Phospholipid turnover in isolated rat pancreatic acini. Consideration of the relative roles of phospholipase A2 and phospholipase C

The purpose of the present study was to explore the interaction of phosphatidylinositol breakdown and the turnover of arachidonic acid in isolated rat pancreatic acini by using receptor agonists and the calcium ionophore ionomycin. Acini prelabelled with myo-[³H]inositol in vivo responded to carbachol with a rapid breakdown of phosphatidylinositol. In the presence of [³²P]P_i, carbachol increased labelling of phosphatidic acid and phosphatidylinositol within 1 and 5 min respectively. Carbachol also rapidly stimulated the incorporation of [¹⁴C]arachidonic acid into phosphatidylinositol within 2 min, and the peptidergic secretagogue caerulein caused the loss of radioactivity from phospholipids prelabelled with arachidonic acid. Ca²⁺ deprivation partially impaired the stimulatory action of carbachol on arachidonic acid turnover. In contrast with its stimulatory effects on [³²P]P_i and [¹⁴C]arachidonate incorporation, carbachol inhibited the incorporation of the saturated fatty acid stearic acid into phosphatidylinositol. Whereas ionomycin stimulation of phosphatidylinositol breakdown and [³²P]P_i labelling of phospholipids was slower in onset and less effective than carbachol stimulation, the ionophore effectively promoted (arachidonyl) phosphatidylinositol turnover within 2 min. These results implicate two separate pathways for stimulated phosphatidylinositol degradation in the exocrine pancreas, involving phospholipases A₂ and C. Whereas mobilization of cellular Ca²⁺ appears sufficient to cause activation of phospholipase A₂ and amylase secretion, additional events triggered by receptor activation may be required to act in concert with Ca²⁺ to optimally stimulate phospholipase C. The nature of the interaction between phospholipases A₂ and C and their specific physiological roles in pancreatic secretion remain to be elucidated.     

Capping of Viral RNA in Cultured Spodoptera frugiperda Cells Infected with Autographa californica Nuclear Polyhedrosis Virus

Viral RNA from fall armyworm (Spodoptera frugiperda) cells infected with Autographa californica nuclear polyhedrosis virus contains cap structures. Most of the cap labeled in vivo with [³H]methionine or ³²P_i cochromatographed on DEAE-cellulose with the −5 charge marker; a minor component appeared at −4 net charge. The former is probably a cap 1 structure (m⁷GpppX^m_pYp), and the latter is probably a cap 0 (m⁷GpppXp). On the basis of relative labeling of the two caps with [³H]adenosine and [³H]guanosine, we concluded that each cap contained at least one adenosine residue in addition to guanosine and, therefore, that cap 0 contained m⁷GpppAp. Cleavage of [³H]methionine-labeled viral RNA with tobacco acid pyrophosphatase released a labeled component that cochromatographed on polyethyleneimine-cellulose with m⁷Gp, confirming the m⁷GpppX linkage in the cap. These results were also seen with host polyadenylated RNA. The caps appeared in nearly equal abundance in viral polyadenylated and non-polyadenylated RNAs. The ratio of ³²P_i incorporated into the cap to that incorporated into mononucleotides suggested average lengths for the polyadenylated and non-polyadenylated RNAs of 1,800 and 1,200 nucleotides, respectively.     

Preparation of (beta-32P)ribonucleoside-5'-triposphates using permeable cells of Escherichia coli

A rapid method for the preparation of [β-³²P]ribonucleoside-5′-triphosphates is described. The method involves the incubation of a ribonucleoside triphosphate with ³²P_i and E. coli cells made permeable to nucleotides. The labeled triphosphates can be isolated by preparative thin layer chromatography on poly(ethylene)imine cellulose plates. Labeled GTP, CTP, and UTP obtained by this method are more than 99% pure [β-³²P]compounds. Labeled ATP contains about equal amounts of label in the β- and γ-phosphate position. Pure [β-³²P]ATP can be obtained from this preparation by exchanging the γ-³²P against unlabeled P_i and reisolating the labeled ATP by charcoal adsorption and elution.     

Effect of pertussis toxin on the phosphodiesteratic cleavage of the polyphosphoinositides by guanosine 5′-O-thiotriphosphate and thrombin in permeabilized human platelets

It has recently been shown in this laboratory that permeabilization of human platelets with 15–25 μm/ml saponin allows ADP-ribosylation by pertussis toxin of the α_i-subunit of G_i(N_i), a guanine nucleotide-binding regulatory protein. The same assay conditions have been used to determine phospholipase C in permeabilized platelets. Guanosine 5′-O-thiophosphate- (GTP[γS]-) activated phospholipase C in permeabilized platelets whose inositol phospholipids were prelabeled with [³H]inositol. Phospholipase C activity was measured by [³H]polyphosphoinositide decreases and formation of [³Hinositol bisphosphate and [³H]inositol trisphosphate. Prostacyclin, cyclic AMP or pretreatment of permeabilized platelets with pertussis toxin did not alter this effect under conditions in which the α_i-subunit was effectively ADP-ribosylated by pertussis toxin. This information indicated that ADP-ribosylation of G_i-protein was not directly related to activation or inhibition of platelet phospholipase C by GTP[γS]. Thrombin also activated phospholipase C in permeabilized platelets and, surprisingly, this action was enhanced by pertussis toxin pretreatment. This indicated that ADP-ribosylation of G_i-protein facilitates the action of thrombin on phospholipase C.     

Muscarinic receptor-stimulated Ca2+ signaling and inositol lipid metabolism in avian salt gland cells

Activation of muscarinic cholinergic receptors was studied by measuring agonist-stimulated inositol lipid turnover and changes in [Ca²⁺]_i in dissociated salt gland secretory cells. Carbachol stimulation of quin2-loaded cells results in a sustained 4-fold increase in [Ca²⁺]_i, while incorporation of [³²P]P_i into phosphatidylinositol (PI) and phosphatidate are similarly increased. [³H]Inositol phosphates, measured in the presence of Li⁺, increased 13-fold. The stimulated increment in [Ca²⁺]_i required extracellular Ca²⁺, whereas [³H]inositol phosphate accumulation was independent of external Ca²⁺. Dose-response curves for carbachol-induced increments in [Ca²⁺]_i, PI labeling, and labeled inositol phosphate release are similar, with EC₅₀ values of 6, 4.5 and 8 μM, respectively. Dissociation constants for atropine vs. the quin2 and phospholipid responses are 0.59 ± 0.3 nM and 0.48 ± 0.28 nM, respectively. These cells thus provide a model system for the study of non-exocytotic secretion as a consequence of stimulated inositol lipid turnover.     

Phosphorylation of glycogen synthase in a homogenate of human polymorphonuclear leukocytes

Summary Glycogen synthase I in a homogenate of human polymorphonuclear leukocytes was phosphorylated under imitated physiological conditions utilizing the endogenous protein kinases. At subsequent steps of phosphorylation the³²P-labelled synthase was purified and characterized. Limited tryptic hydrolysis of the³²P-labelled synthase released four phosphopeptides (t-A, t-B, t-C, t-D) and subsequent chymotrypsinization of the trypsin resistant core released three phosphopeptides (c-A, c-B, c-C). One P_i/subunit was incorporated within 8–10 min and 2.2 P_i/subunit within 60 min increasing the K_c for Gle-6-P to 4–6 mM. The initial phosphorylation up to 0.8 P_i/subunit occurred mainly in peptide c-A and a linear relation between ratio of independence (RI) of glycogen synthase in the interval RI 0.85 to RI 0.05 and phosphorylation of this peptide to 0.5 P_i was observed. Phosphorylation of this peptide is responsible for the decrease in ratio of independence. From experiments with inhibitors and activators, the initial phosphorylation was found predominantly catalysed by the endogenous cAMP independent synthase kinase, however, the endogenous cAMP dependent protein kinase and phosphorylase kinase also phosphorylate endogenous glycogen synthase I to a minor degree. Circumstantial evidence for a Ca-dependent synthase kinase different from phosphorylase kinase is presented. The endogenous Gle-6-P dependent glycogen synthase occurring in a homogenate of leukocytes disrupted in the presence of NaF incorporated 1.07 P_i/subunit and K_c for Glc-6-P was increased from 6–8 mM to 20 mM. From the present and previous experiments [7] a total of 8 major phosphorylatable sites have been defined, one on each of the peptides t-A, t-B, t-C, c-B and c-C and two on peptide c-A, which in addition may contain a third site for phosphorylase kinase. Assuming identical subunits, only 13 out of 32 sites are thus covalently modified at maximum phosphorylation. The operational defined synthase R (K_c for Glc-6-P 0.5 mM) and D (K_c for Glc-6-P 2–8 mM) activities correspond to synthase with about 0.8 P_i and 1.8–2.3 P_i/subunit, respectively.     

EVIDENCE FOR INVOLVEMENT OF Ca2+ IN THE INCORPORATION OF 32Pi INTO THE PHOSPHATIDYLINOSITOL OF RAT DIAPHRAGM

Abstract— Ethyleneglycol-bis (β-aminoethyl ether)-N-N'-tetraacetic acid (EGTA) inhibited the incorporation of ³²P_i into phosphatidylinositol (PI) in rat diaphragm incubated in Ca²⁺-free Krebs-Ringer medium. Only the labelling of the PI was altered, and no effects on the pool size of PI or on the incorporation of ³²P_i into other phospholipids were observed. The effect of EGTA was concentration-dependent and appeared to be related to its Ca^a+-chelating properties; the inhibition of the incorporation of ³²P_i could be completely reversed by the addition of excess Ca²⁺ but not Mg²⁺. The inhibitory effect of the EGTA was progressively enhanced by lengthening the preincubation of the tissue with EGTA, an observation suggesting that chelation of intracellular or membrane-bound Ca²⁺, rather than extracellular Ca²⁺, was involved in the effect. In contrast to its inhibition of the incorporation of ³²P_i EGTA enhanced the incorporation of [³H]inositol into PI, but this effect was accompanied by an appreciable increase in total uptake of [³Hlinositol by the tissue. Our results suggest that the level of intracellular Ca²⁺ plays a role in the regulation of the incorporation of ³²P_i into PI. Addition of unlabelled α-glycerophosphate to the incubation medium of tissues which had been preincubated with 2-deoxy-d -glucose failed to cause a significant diminution in the inhibition by EGTA of the incorporation of ³²P_i into PI. This experiment suggests, but does not prove, that the effect of EGTA was not at the level of incorporation of ³²P_i into α-glycerophosphate.     

Fractionation and characterization of rapidly phosphorylated nuclear proteins in salivary gland cells of Chironomus tentans

Rapidly phosphorylated nuclear proteins were investigated in explanted salivary gland cells of Chironomus tentans after labeling with ³²P_i. After sonication nuclei were fractionated by centrifugation at 18,000 g into sedimentable (80% of ³²P) and not sedimentable (supernatant) material. About 90% of ³²P in the supernatant fraction was sedimentable at 100,000 g (disperse chromatin). The disperse chromatin contained 20%–40% of the total nuclear DNA but only 5%–20% of ³²P. The ³²P-labeled phosphoproteins in the material pelleted at 20,000 g were further fractionated by differential solubility in lysis buffer. Electrophoretic analyses on SDS polyacrylamide gels resolved the ³²P-labeled nuclear proteins into 12 major bands in the M_r range of 12,000–120,000. The incorporation of ³²P into most bands reached a steady-state within 5–10 min of incubation with ³²P_i and was not measurably influenced by cycloheximide, an inhibitor of protein synthesis. The phosphate groups are linked to polypeptide chains by bonds vulnerable to pronase and alkaline phosphatase. All major bands in the pelleted chromatin were also present in the disperse chromatin except for an M_r 95,000 phosphoprotein. Two of the fastest moving ³²P-bands comigrated with the core histones H2A and H4. Both possessed a high pI value and were insoluble in 0.35 M NaCl. The H2A-like protein was partially soluble in lysis buffer while the H4-like one was not. The two fast moving ³²P-labeled bands with rapidly turned over phosphates may be fractions or variants of the core histones H2A and H4.     

Characterization of Na+-Dependent Phosphate Uptake in Cultured Fetal Rat Cortical Neurons

Abstract: Our laboratory has recently cloned and expressed a brain- and neuron-specific Na⁺-dependent inorganic phosphate (P_i) cotransporter that is constitutively expressed in neurons of the rat cerebral cortex, hippocampus, and cerebellum. We have now characterized Na⁺-dependent ³²P_i cotransport in cultured fetal rat cortical neurons, where >90% of saturable P_i uptake is Na⁺-dependent. Saturable, Na⁺-dependent ³²P_i uptake was first observed in primary cultures of cortical neurons at 7 days in vitro (DIV) and was maximal at 12 DIV. Na⁺-dependent P_i transport was optimal at physiological temperature (37°C) and pH (7.0–7.5), with apparent K_m values for P_i and Na⁺ of 54 ± 12.7 µM and 35 ± 4.2 mM, respectively. A reduction in extracellular Ca²⁺ markedly reduced (>60%) Na⁺-dependent P_i uptake, with a threshold for maximal P_i import of 1–2.5 mM CaCl₂. Primary cultures of fetal cortical neurons incubated in medium where equimolar concentrations of choline were substituted for Na⁺ had lower levels of ATP and ADP and higher levels of AMP than did those incubated in the presence of Na⁺. Furthermore, a substantial fraction of the ³²P_i cotransported with Na⁺ was concentrated in the adenine nucleotides. Inhibitors of oxidative metabolism, such as rotenone, oligomycin, or dinitrophenol, dramatically decreased Na⁺-dependent P_i import rates. These data establish the presence of a Na⁺-dependent P_i cotransport system in neurons of the CNS, demonstrate the Ca²⁺-dependent nature of ³²P_i uptake, and suggest that the neuronal Na⁺-dependent P_i cotransporter may import P_i required for the production of high-energy compounds vital to neuronal metabolism.     

Stimulation of the incorporation of 32Pi and myo-(2-3H)inositol into the phosphoinositides in polymorphonuclear leukocytes during phagocytosis

The effect of phagocytosis on the incorporation of ³²P_i and myo-[2-³H]inositol into the phosphoinositides (phosphatidylinositol, diphosphoinositide, and triphosphoinositide) by polymorphonuclear leukocytes from guinea pig peritoneal exudates has been studied. The results show that phagocytosis enhanced the incorporation of ³²P_i and myo-[2-³H]inositol into all three inositides in polymorphonuclear leukocytes. Pulse-chase experiments revealed that phagocytosis did not stimulate the loss of the label from the inositides. The findings indicate that the increased radioactivity of the phosphoinositides in polymorphonuclear leukocytes during phagocytosis is due to a greater rate of synthesis of these phospholipids at the time of labeling, rather than due to an increase in the rate of their turnover.     

NAD+-induced inhibition of phosphate transport in canine renal brush-border membranes Mediation through a process other than or in addition to NAD+ hydrolysis

We previously demonstrated inhibition of Na⁺-dependent ³²P_i transport in canine renal brush-border membranes in association with NAD⁺-induced ADP ribosylation of membrane protein(s) and postulated that NAD⁺ inhibits P_i transport across the brush-border membrane via ADP ribosylation. Recently it was shown that incubation of rat brush-border membrane with NAD⁺ resulted in release of P_i which was prevented by EDTA. It was proposed that NAD⁺-mediated inhibition of ³²P_i transport might occur through this mechanism. To determine whether NAD⁺ inhibited ³²P_i transport by a mechanism other than or in addition to release of P_i, we compared Na⁺-dependent ³²P_i counterflow in brush-border membrane equilibrated with P_i or with P_i generated from NAD⁺. Release of P_i from NAD⁺ incubated with brush-border membrane was confirmed. The increased uptake of ³²P_i which was demonstrated in brush-border membrane equilibrated with P_i was not measured when intravesicular P_i was generated from a concentration of NAD⁺ which effected ADP-ribosylation of brush border membranes (100 μM NAD⁺). In contrast, increased uptake of ³²P_i was demonstrated when intravesicular P_i was generated from 1 μM NAD⁺ which did not effect ADP ribosylation. Mg²⁺-dependent ADP ribosylation of brush-border membrane incubated with NAD⁺ was demonstrated which persisted during the time interval of ³²P_i uptake measurements. Our findings are compatible with the hypothesis that NAD⁺-induced ADP ribosylation of brush-border membrane protein(s) results in inhibition of P_i transport across the membrane in vivo. EDTA may act to prevent this inhibition in brush-border membrane by chelation of Mg²⁺ and decreased ADP ribosylation.     

Identification and functional reconstitution of phosphate: Sugar phosphate antiport ofStaphylococcus aureus

Summary Resting cells ofStaphylococcus aureus displayed a phosphate (P_i) exchange that was induced by growth with glucose 6-phosphate (G6P) orsn-glycerol 3-phosphate (G3P). P_i-loaded membrane vesicles from these cells accumulated³²P_i, 2-deoxyglucose 6-phosphate (2DG6P) or G3P by an electroneutral exchange that required no external source of energy. On the other hand, when vesicles were loaded with morpholinopropane sulfonic acid (MOPS), only transport of³²P_i (andl-histidine) was observed, and in that case transport depended on addition of an oxidizable substrate (dl-lactate). In such MOPS-loaded vesicles, accumulation of the organic phosphates, 2DG6P and G3P, could not be observed until vesicles were preincubated with both P_i anddl-lactate to establish an internal pool of P_i. Thistrans effect demonstrates that movement of 2DG6P or G3P is based on an antiport (exchange) with internal P_i.Reconstitution of membrane protein allowed a quantitative analysis of P_i-linked exchange. P_i-loaded proteoliposomes and membrane vesicles had comparable activities for the homologous³²P_iP_i exchange (K _i's of 2.2 and 1.4mm;V _max's of 180 and 83 nmol P_i/min per mg protein), indicating that the exchange reaction was recovered intact in the artificial system. Other work showed that heterologous exchange from either G6P- or G3P-grown cells had a preference for 2DG6P (K _i=27 m) over G3P (K _i=1.3mm) and P_i (K _i=2.2mm), suggesting that the same antiporter was induced in both cases. We conclude that³²P_iP_i exchange exhibited by resting cells reflects operation of an antiporter with high specificity for sugar 6-phosphate. In this respect, P_i-linked antiport inS. aureus resembles other examples in a newly described family of bacterial transporters that use anion exchange as the molecular basis of solute transport.     

Properties of Bound Inorganic Phosphate on Bovine Mitochondrial F1F0-ATP Synthase

Beef-heart mitochondrial F₁F₀-ATP synthase contained six molecules of bound inorganic phosphate (P_i). This phosphate exchanged completely with exogenous ³²P_i when the enzyme was exposed to 30% (v/v) dimethyl sulfoxide (DMSO) and then returned to a DMSO-free buffer (Beharry and Bragg 2001). Only two molecules were replaced by ³²P_i when the enzyme was not pretreated with DMSO. These two molecules of ³²P_i were not displaced from the enzyme by the treatment with 1 mM ATP. Similarly, two molecules of bound ³²P_i remained on the DMSO-pretreated enzyme following addition of ATP, that is, four molecules of ³²P_i were displaced by ATP. The ATP-resistant ³²P_i was removed from the enzyme by pyrophosphate. It is proposed that these molecules of ³²P_i are bound at an unfilled adenine nucleotide-binding noncatalytic site on the enzyme. Brief exposure of the enzyme loaded with two molecules of ³²P_i to DMSO, followed by removal of the DMSO, resulted in the loss of the bound ³²P_i and in the formation of two molecules of bound ATP from exogenous ADP. A third catalytic site on the enzyme was occupied by ATP, which could undergo a P_i ATP exchange reaction with bound P_i The presence of two catalytic sites containing bound P_i is consistent with the X-ray crystallographic structure of F₁ (Bianchet, et al., 1998). Thus, five of the six molecules of bound P_i were accounted for. Three molecules of bound P_i were at catalytic sites and participated in ATP synthesis or P_i ATP exchange. Two other molecules of bound P_i were present at a noncatalytic adenine nucleotide-binding site. The location and role of the remaining molecule of bound P_i remains to be established. We were unable to demonstrate, using chemical modification of sulfhydryl groups by iodoacetic acid, any gross difference in the conformation of F₁F₀ in DMSO-containing compared with DMSO-free buffers.     

Purification and reconstitution of the 32Pi-ATP exchange activity of bovine chromaffin granule membrane

Ghosts derived from bovine chromaffin granules have a ³²P_i-ATP exchange activity which is associated with the H⁺ pump of that membrane. This activity was low when compared to bacteria, chloroplasts or submitochondrial particles, but had similar properties (K_m for ATP and P_i, ATP/Mg²⁺ ratio, pH profile, inhibition by dicyclohexylcarbodiimide and tributyltin) to the ATPase from above membranes. The ³²P_i-ATP exchange activity was solubilized by cholate/octylglucoside mixtures. The soluble extract was lipid depleted by ammonium sulfate fractionation and partially purified by sucrose gradient centrifugation. The purified preparation was reconstituted with phospholipids by freeze-thawing. The reconstituted vesicles had a ³²P_i-ATP exchange sensitive to dicyclohexylcarbodiimide and trybutyltin and an ATPase with a sensitivity to the inhibitors which varied with the reconstitution conditions. The α- and β-subunits of F₁-ATPase were major components of the preparation.     

Use of a novel H tube in transport studies with ionophores

Orthophosphate is rapidly transported into cultured cells and subsequently incorporated into numerous compounds. A high-performance liquid chromatographic method that enables the measurement of ³²P_i incorporation into acid-soluble metabolites in cultured cells treated with exogenous ³²P_i is described. Baseline resolution and quantitative recovery of 12 ribonucleotides are accomplished in less than 75 min. In cultured, beating rat heart cells, the concentration and extent of labeling by ³²P_i of most phosphorylated metabolites were unchanged in cells treated with the anesthetic halothane (2-bromo-2-chloro-1,1,1-trifluoroethane). The method is generally applicable to the investigation of phosphate transport and incorporation by numerous cell types under various experimental conditions.     

Proton-coupled high-affinity phosphate transport revealed from heterologous characterization in Xenopus of barley-root plasma membrane transporter, HvPHT1;1

High‐affinity phosphate transporters mediate uptake of inorganic phosphate (P_i) from soil solution under low P_i conditions. The electrophysiological properties of any plant high‐affinity P_i transporter have not been described yet. Here, we report the detailed characterization of electrophysiological properties of the barley P_i transporter, HvPHT1;1 in Xenopus laevis oocytes. A very low K_m value (1.9 µm ) for phosphate transport was observed in HvPHT1;1, which falls within the concentration range observed for barley roots. Inward currents at negative membrane potentials were identified as nH⁺:P_i^‐ (n > 1) co‐transport based on simultaneous P_i radiotracer uptake, oocyte voltage clamping and pH dependence. HvPHT1;1 showed preferential selectivity for P_i and arsenate, but no transport of the other oxyanions SO₄^2? and NO₃^‐. In addition, HvPHT1;1 locates to the plasma membrane when expressed in onion (Allium cepa L.) epidermal cells, and is highly expressed in root segments with dense hairs. The electrophysiological properties, plasma membrane localization and cell‐specific expression pattern of HvPHT1;1 support its role in the uptake of P_i under low P_i conditions.