Selection and characterization of mannitol-tolerant callus lines of Vigna radiata (L.) Wilczek

An osmotically (mannitol) tolerant callus line of Vigna radiata (L.) Wilczek has been isolated from callus cultures grown on modified PC-L2 medium supplemented with increasing concentrations of mannitol. The tolerance was stable and retained after growth in the absence of mannitol selection for 2 months. The growth of the tolerant line, in the presence of mannitol (540 mol m^-3) was comparable to that of a sensitive callus line growing in the absence of mannitol. This line not only grew well on media containing up to 720 mol m^-3 mannitol, but also required 450 mol m^-3 mannitol for its optimal growth. Osmotically tolerant callus also showed increased tolerance to NaCl (0–250 mol m^-3) stress as compared to sensitive callus. Accumulation of Na⁺ was lower, and the level of K⁺ was more stable in osmotically tolerant than in sensitive calli, when both were exposed to salt. The free proline content of both tolerant and sensitive calli increased on media supplemented with mannitol or NaCl. However, the proline content of sensitive callus was higher than in tolerant callus in the presence of same concentrations of mannitol or NaCl.Abbreviations NAA -naphthaleneacetic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine     

Glycerol stimulation of chlorophyll synthesis,embryogenesis, and carboxylation and sucrose metabolism enzymes in nucellar callus of ‘Hamlin’ sweet orange

Anthers of niger (Guizotia abyssinica. Cass) were inoculated onto five different media differing mainly in their inorganic and organic constituents and plant growth regulators to study their influence on callus induction (embryogenic/non-embryogenic) and plant regeneration. LS medium supplemented with 2 mg 1^-1 2,4-d, and 0.3 mg 1^-1 KN favoured the production of EC, whereas 2 mg 1^-1 BAP and 0.5 mg 1^-1 KN promoted the NEC from anthers. Different types of embryos were initiated upon transfer of EC to Chaleff's R-2 medium containing 2 mg 1^-1 NAA and 0.3 mg 1^-1 KN and/or 5 mg 1^-1 ABA. NEC when transferred onto the medium supplemented with 1 mg 1^-1 BAP and 0.1 mg 1^-1 NAA produced on an average 8–12 shoots/callus mass. Embryoids developed from the EC and shoots differentiated from NEC when cultured onto the Chaleff's R-2 and MS media respectively lacking growth regulators, they transformed into whole plantlets. The plantlets thus obtained were successfully hardened and grown to maturity for analysis of various plant characters.Abbreviations EC embryogenic callus - NEC non-embryogenic callus - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - ABA abscisic acid - BAP 6-benzylaminopurine - KN kinetin - MS Murashige and Skoog's medium - LS Linsmaier and Skoog's medium     

Transport and membrane binding of the glutamine analogue 6-diazo-5-oxo-L-norleucine (DON) in Xenopus laevis oocytes

Summary We have examined transport and membrane binding of 6-diazo-5-oxo-l-norleucine (DON, a photoactive diazo-analogue of glutamine) and their relationships to glutamine transport in Xenopus laevis oocytes. DON uptake was stereospecific and saturable (V _max of 0.44 pmol/oocyte · min and a K _m of 0.065 mm). DON uptake was largely Na^u+ dependent (80% at 50 m DON) and inhibited (>75%) by glutamine and arginine (substrates of the System B^0,+ transporter) at 1 mm. Glutamine and DON show mutual competitive inhibition of Na⁺-dependent transport. Preincubation of oocytes in medium containing 0.1 mm DON for 24 or 48 hr depressed the V _max for System B^0,+ transport (as measured by Na⁺-dependent glutamine uptake), this effect was highly specific (neither d-DON nor the System B^0,+ substrates glutamine and d-alanine showed any independent effect) and required Na⁺ ions. Glutamine (1 mm in preincubation medium) protected transport from inhibition by DON. The possibility that specific inactivation of System B^0,+ by DON reflects attachment of DON to the transporter was tested by examining the binding of [¹⁴C]DON to Xenopus oocyte membranes. Oocytes incubated in 100 mm NaCl in the presence of [¹⁴C]DON for up to 48 hr showed 2.4-fold higher ¹⁴C-binding to membranes than oocytes incubated in choline chloride. Na⁺-dependent DON binding (31 ± 11 fmol/g membrane protein) was suppressed by external glutamine, arginine or alanine and was largely confined to a membrane protein fraction of 48–65 kDa (as assessed by SDS-polyacrylamide gel electrophoresis). The present studies indicate that DON and glutamine uptake in oocytes are both mediated by System B^0,+ and demonstrate that DON binding to a particular membrane protein fraction is associated with inactivation of the transporter, offering the prospect of using [¹⁴C]DON as a covalent label for the transport protein in order to facilitate its isolation and subsequent biochemical characterization.This work was supported by The Wellcome Trust, Action Research for the Crippled Child, Ajinomoto GmbH, Pfrimmer GmbH, the Rank Prize Funds, the Medical Research Council and the University of Dundee. We are grateful to Dr. C.I. Pogson (Wellcome Research Laboratories) and Drs. J.C. Ellory and B. Elford (University of Oxford) for gifts of [¹⁴C]DON.     

Effect of sodium and calcium chlorides,abscisic acid and proline on callus cultures ofArachis hypogaea L.

Callus cultures ofArachis hypogaea L. cv. JL-24 adapted to 200 mM NaCl (otherwise lethal to cells) were used for the study. Calli grew slowly when transferred to 250 mM NaCl, but the growth was enhanced when ABA was included in the medium. ABA induced increase in growth of callus was not accompanied by corresponding increase in internal free proline levels. 0.5 mM of CaCl₂ ameliorated the negative effect of NaCl indicating that cells require a specific Ca²⁺/Na⁺ ratio for their growth. Proline content also increased at this ratio thereby suggesting that increase in growth at 0.5 mM Ca²⁺ may be due to an increase in proline content. However, exogenous proline did not increase the growth of callus (adapted to 200 mM), and higher concentrations even inhibited the growth. This shows that proline is not required for growth or adaptation of cells to salt stress, but is produced as a consequence of stress.     

Effects of anions on cellular volume and transepithelial Na+ transport across toad urinary bladder

Summary The effects of complete substitution of gluconate for mucosal and/or serosal medium Cl^– on transepithelial Na⁺ transport have been studied using toad urinary bladder. With mucosal gluconate, transepithelial potential difference (V _T) decreased rapidly, transepithelial resistance (R _T) increased, and calculated short-circuit current (I _sc) decreased. CalculatedE _Na was unaffected, indicating that the inhibition of Na⁺ transport was a consequence of a decreased apical membrane Na⁺ conductance. This conclusion was supported by the finding that a higher amiloride concentration was required to inhibit the residual transport. With serosal gluconateV _T decreased,R _T increased andI _sc fell to a new steady-state value following an initial and variable transient increase in transport. Epithelial cells were shrunken markedly as judged histologically. CalculatedE _Na fell substantially (from 130 to 68 mV on average). Ba²⁺ (3mm) reduced calculatedE _Na in Cl^– Ringer's but not in gluconate Ringer's. With replacement of serosal Cl^– by acetate, transepithelial transport was stimulated, the decrease in cellular volume was prevented andE _Na did not fall. Replacement of serosal isosmotic Cl^– medium by a hypo-osmotic gluconate medium (one-half normal) also prevented cell shrinkage and did not result in inhibition of Na⁺ transport. Thus the inhibition of Na⁺ transport can be correlated with changes in cell volume rather than with the change in Cl^– per se. Nystatin virtually abolished the resistance of the apical plasma membrane as judged by measurement of tissue capacitance. With K⁺ gluconate mucosa, Na⁺ gluconate serosa, calculated basolateral membrane resistance was much greater, estimated basolateral emf was much lower, and the Na⁺/K⁺ basolateral permeability ratio was much higher than with acetate media. It is concluded the decrease in cellular volume associated with substitution of serosal gluconate for Cl^– results in a loss of highly specific Ba²⁺-sensitive K⁺ conductance channels from the basolateral plasma membrane. It is possible that the number of Na⁺ pump sites in this membrane is also decreased.     

Salt tolerance in rice in vitro: Implication of accumulation of Na+, K+ and proline

The implication of accumulation of both inorganic (Na⁺, K⁺) and organic (proline) solutes were evaluated in unadapted and NaCl-adapted callus of a salt-sensitive (Basmati 370) and a salt-tolerant (SR-26B) cultivar of rice (Oryza sativa L.) after a NaCl shock. Accumulation of Na⁺,K⁺ and/or proline in callus was co relatable and the relative presence of these components in tissues after shock treatment was found to be important factors to support differential regrowth capacities of the shock treated calluses. Presence or retention of K⁺ in rice callus was a key factor for salt tolerance as it was observed to be positively correlated with growth in both the varieties. The results indicated that K⁺ was the first candidate to counteract the negative water potential of outside milieu, while proline was probably the last metabolic device that rice calluses opted for when exposed to salt stress.     

Rabit distal colon epithelium: II. Characterization of (Na+, K+, Cl−)-cotransport and [3H]-bumetanide binding

Summary Loop diuretic-sensitive (Na⁺,K⁺,Cl^–)-cotransport activity was found to be present in basolateral membrane vesicles of surface and crypt cells of rabbit distal colon epithelium. The presence of grandients of all three ions was essential for optimal transport activity (Na⁺,K⁺) gradien-driven³⁶Cl fluxes weree half-maximally inhibited by 0.14 m bumetanide and 44 m furosimide. While⁸⁶Rb uptake rates showed hyperbolic dependencies on Na⁺ and K⁺ concentrations with Hill coefficients of 0.8 and 0.9, respectively, uptakes were sigmoidally related to the Cl^– concentration, Hill coefficient 1.8, indicating a 1 Na⁺: 1 K⁺:2 Cl^– stoichiometry of ion transport.The interaction of putative (Na⁺, K⁺, Cl^–)-cotransport proteins with loop diuretics was studied from equilibrium-binding experiments using [³H]-bumetanide. The requirement for the simulataneous presence of Na⁺,K⁺, and Cl^–, saturability, reversibility, and specificity for diuretics suggest specific binding to the (Na⁺, K⁺, Cl^–)-cotransporter. [³H]-bumetanide recognizes a minimum of two classes of diuretic receptors sites. high-affinity (K _D1=0.13 m;B _max1 =6.4 pmol/mg of protein) and low-affinity (K _D2=34 m;B _max2=153 pmol/mg of protein) sites. The specific binding to the high-affinity receptor was found to be linearly competitive with Cl^– (K ₁=60mm), whereas low-affinity sites seem to be unaffected by Cl^–. We have shown that only high-affinity [³H]-bumetanide binding correlates with transport inhibition raising questions on the physiological significance of diuretic receptor site heterogeneity observed in rabbit distal colon epithelium.     

Tissue culture of the desert plant Anastatica hiërochuntica

Summary Callus derived from the winter annual desert plant Anastatica hiërochuntica was grown on different media, Murashige and Skoog (1962) medium giving the best results. Large amounts of lignified xylem elements were formed resulting in an extremely hard tissue. The growth responses to different auxins, cytokinins and abscisic acid were investigated. When salts (high Na⁺, Ca²⁺ and Cl^--contents) as they can be found in aqueous extracts of desert soils from a natural A. hiëerochuntica habitat were added to Abou-Mandour (1977) or MS-media, growth of callus was inhibited drastically. In the presence of abscisic acid, however, original growth was completely restored. In salt free control media on the other hand, ABA proved to be inhibitory. Drought stress caused a decrease of both cytokinins and indoleacetic acid in the callus while ABA levels were increased, but by far not as distinct as in intact plants. Proline level was not affected by stress.Abbreviations ABA abscisic acid - AM Abou-Mandour-medium - BAP benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - DHZR dihydroxyzeatinriboside - DW dry weight - ELISA enzyme linked immuno sorbent assay - FW freshweight - IAA indole-3-acetic acid - NAA 1-naphthaleneacetic acid - IBA indole-3-butyric acid - IPA isopentenyladenosine - Kin kinetin - MS Murashige and Skoog-medium     

Sodium-dependent Potassium Channels in Leech P Neurons

In leech P neurons the inhibition of the Na⁺-K⁺ pump by ouabain or omission of bath K⁺ leaves the membrane potential unaffected for a prolonged period or even induces a marked membrane hyperpolarization, although the concentration gradients for K⁺ and Na⁺ are attenuated substantially. As shown previously, this stabilization of the membrane potential is caused by an increase in the K⁺ conductance of the plasma membrane, which compensates for the reduction of the K⁺ gradient. The data presented here strongly suggest that the increased K⁺ conductance is due to Na⁺-activated K⁺ (K_Na) channels. Specifically, an increase in the cytosolic Na⁺ concentration ([Na⁺]_i) was paralleled by a membrane hyperpolarization, a decrease in the input resistance (R_in) of the cells, and by the occurrence of an outwardly directed membrane current. The relationship between R_in and [Na⁺]_i followed a simple model in which the R_in decrease was attributed to K⁺ channels that are activated by the binding of three Na⁺ ions, with half-maximal activation at [Na⁺]_i between 45 and 70 mM. At maximum channel activation, R_in was reduced by more than 90%, suggesting a significant contribution of the K_Na channels to the physiological functioning of the cells, although evidence for such a contribution is still lacking. Injection experiments showed that the K_Na channels in leech P neurons are also activated by Li⁺.     

催吐萝芙木离体培养和植株再生体系的建立

为建立催吐萝芙木(Rauvolfia vomitoria Afzel.)的快繁再生体系,以茎段为外植体,比较了植物生长调节剂对其愈伤组织诱导、分化及生根的影响。结果表明,诱导愈伤组织的适宜培养基为MS+2,4-D 1.0 mg L~(–1)+TDZ 0.5 mg L~(–1)或MS+2,4-D2.0 mg L~(–1)+TDZ 0.5 mg L~(–1),出愈率达100%且生长状况良好;诱导丛生芽的最佳培养基为MS+6-BA 3.0 mg L~(–1)+NAA 0.1 mg L~(–1),出芽率为46.6%,平均出芽数为3.04。这为催吐萝芙木的快速繁殖和遗传转化研究奠定了基础。     

Active and passive Na+ fluxes across the basolateral membrane of rabbit urinary bladder

Summary The apical membrane of rabbit urinary bladder can be functionally removed by application of nystatin at high concentration if the mucosal surface of the tissue is bathed in a saline which mimics intracellular ion concentrations. Under these conditions, the tissue is as far as the movement of univalent ions no more than a sheet of basolateral membrane with some tight junctional membrane in parallel. In this manner the Na⁺ concentration at the inner surface of the basolateral membrane can be varied by altering the concentration in the mucosal bulk solution. When this was done both mucosal-to-serosal²²Na flux and net change in basolateral current were measured. The flux and the current could be further divided into the components of each that were either blocked by ouabain or insensitive to ouabain. Ouabain-insensitive mucosal-to-serosal Na⁺ flux was a linear function of mucosal Na⁺ concentration. Ouabain-sensitive Na⁺ flux and ouabain-sensitive, Na⁺-induced current both display a saturating relationship which cannot be accounted for by the presence of unstirred layers. If the interaction of Na⁺ with the basolateral transport process is assumed to involve the interaction of some number of Na⁺ ions,n, with a maximal flux,M _max, then the data can be fit by assuming 3.2 equivalent sites for interaction and a value forM _max of 287.8pm cm^–2 sec^–1 with an intracellular Na concentration of 2.0mm Na⁺ at half-maximal saturation. By comparing these values with the ouabain-sensitive, Na⁺-induced current, we calculate a Na⁺ to K⁺ coupling ratio of 1.40±0.07 for the transport process.     

Na+/Na+ exchange and Na+/H+ antiport in rabbit erythrocytes: Two distinct transport systems

Summary Rabbit erythrocytes are well known for possessing highly active Na⁺/Na⁺ and Na⁺/H⁺ countertransport systems. Since these two transport systems share many similar properties, the possibility exists that they represent different transport modes of a single transport molecule. Therefore, we evaluated this hypothesis by measuring Na⁺ transport through these exchangers in acid-loaded cells. In addition, selective inhibitors of these transport systems such as ethylisopropyl-amiloride (EIPA) and N-ethylmaleimide (NEM) were used. Na⁺/Na⁺ exchange activity, determined as the Na _o ⁺ -dependent²²Na efflux or Na _i ⁺ -induced²²Na entry was completely abolished by NEM. This inhibitor, however, did not affect the H _i ⁺ -induced Na⁺ entry sensitive to amiloride (Na⁺/H⁺ exchange activity). Similarly, EIPA, a strong inhibitor of the Na⁺/H⁺ exchanger, did not inhibit Na⁺/Na^– countertransport, suggesting the independent nature of both transport systems. The possibility that the NEM-sensitive Na⁺/Na⁺ exchanger could be involved in Na⁺/H⁺ countertransport was suggested by studies in which the net Na⁺ transport sensitive to NEM was determined. As expected, net Na⁺ transport through this transport system was zero at different [Na⁺] _i /[Na⁺] _o ratios when intracellular pH was 7.2. However, at pH _i =6.1, net Na⁺ influx occurred when [Na⁺] _i was lower than 39mm. Valinomycin, which at low [K⁺] _o was lower than 39mm. Valinomycin, which at low [K⁺] _o clamps the membrane potential close to the K⁺ equilibrium potential, did not affect the net NEM-sensitive Na⁺ entry but markedly stimulated, the EIPA-and NEM-resistant Na⁺ uptake. This suggest that the net Na⁺ entry through the NEM-sensitive pathway at low pH _i , is mediated by an electroneutral process possibly involving Na⁺/H⁺ exchange. In contrast, the EIPA-sensitive Na⁺/H⁺ exchanger is not involved in Na⁺/Na⁺ countertransport, because Na⁺ transport through this mechanism is not affected by an increase in cell Na^– from 0.4 to 39mm. Altogether, these findings indicate that both transport systems: the Na⁺/Na⁺ and Na⁺/H⁺ exchangers, are mediated by distinct transport proteins.     

The effect of plant growth regulators on growth, morphology and condensed tannin accumulation in transformed root cultures of Lotus corniculatus

This study concerns the effects of four different classes of plant growth regulators on root morphology, patterns of growth and condensed tannin accumulation in transgenic root cultures of Lotus corniculatus L. (Bird's-foot trefoil). Growth of transformed roots in 2,4-dichlorophenoxyacetic acid (2,4-D) resulted in decreased tannin levels relative to controls at concentrations of 10^-6 M and above, while gibberellic acid (GA₃) inhibited tannin accumulation at concentrations of 10^-7 M and above. Benzyladenine (BA) had little effect at low concentrations (10^-7 M and below) but resulted in an increase in tannin levels at 10^-6 M. Abscisic acid had little effect on levels of condensed tannins at any of the concentrations used. Experiments involving growth regulator addition and medium transfer demonstrated that 2,4-D inhibition of tannin accumulation could be reversed by GA₃ and BA, while GA₃ downregulation could only be reversed by the addition of 2,4-D. Although 2,4-D inhibited tannin accumulation, addition of 2,4-D to root cultures grown for 14 or 28 days in the absence of plant growth regulators stimulated both growth and tannin biosynthesis. Characteristic alterations in root morphologies accompanied growth regulator-mediated modulation of tannin biosynthesis. Growth in 2,4-D resulted in partially de-differentiated root cultures while growth in GA₃ produced roots with an elongated phenotype. Restoration of tannin biosynthesis in 2,4-D-treated roots was accompanied by root re-differentiation and the production of new lateral roots.Abbreviations ABA abscisic acid - BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid 3 - FW fresh weight     

Na+-dependent medium-affinity uptake of L-glutamate in the insect epidermis

It is proposed that the activity of an epidermal cotransport system for Na⁺ and dicarboxylic amino acids accounts for the small amounts of L-glutamate and L-aspartate in the otherwise amino-acid-rich blood plasma of insects. This Na⁺-dependent transport system is responsible for more than 95% of the uptake of these amino acids into the larval epidermis of the beetle Tenebrio molitor. Kinetic analysis of uptake showed that the Na⁺-dependent co-transporter has medium affinity for L-glutamate and L-aspartate. The K _m for L-glutamate uptake was 146 mol·l^-1, and the maximum velocity of uptake (V _max) was 12.1 pmol·mm^-2 of epidermal sheet per minute. The corresponding values for L-aspartate were 191 mol·l^-1 and 8.4 pmol·mm^-2·min^-1. The Na⁺/L-glutamate co-transporter has a stoichiometry of at least two Na⁺ ions for each L-glutamate-ion transported (n=217). The co-transporter has an affinity for Na⁺ equivalent to a K _m of 21 mmol · l^-1 Na⁺. Na⁺ is the only external ion apparently required to drive L-glutamate uptake. Li⁺ substitutes weakly for Na⁺. Removal of external K⁺ or addition of ouabain decreases uptake slowly over 1 h, suggesting that these treatments dissipate the Na⁺/K⁺ gradient by inhibiting epidermal Na⁺/K⁺ ATPase. Several structural analogues of L-glutamate inhibit the medium-affinity uptake of L-glutamate. The order of potency with which these competitive inhibitors block glutamate uptake is L-cysteatethreo-3-hydroxy-Dl-aspartate > D-aspartateL-aspartate> L-cysteine sulphinate > L-homocysteateD-glutamate. L-trans-Pyrrolidine-2,4-dicarboxylate, a potent inhibitor of L-glutamate uptake in mammalian synaptosomes, is a relatively weak blocker of epidermal uptake. The epidermis takes up substantially more L-glutamate by this Na⁺-dependent system than tissues such as skeletal muscle and ventral nerve cord. The epidermis may be a main site regulating blood L-glutamate levels in insects with high blood [Na⁺]. Because L-glutamate and L-aspartate stimulate skeletal muscle in insects, a likely role for epidermal L-glutamate/L-aspartate transporter is to keep the level of these excitatory amino acids in the blood below the postsynaptic activation thresholds.Abbreviation ac acetate - Ch choline - CNS central nervous system - cpm counts per minute - CDTA trans-1,2-diaminocyclohexane-N,N,N,N-tetraacetic acids - HPLC high performance liquid chromatography - K _m Michaelis constant - n _app apparent number - NMG N-methyl-D-glucamine - Pipes Piperazine-N,N-bis-[2-ethanesulfonic acid] - SD standard deviation - TEA tetraethyl-ammonium - V velocity of uptake - V _max maximum velocity of uptake     

Evaluation of ion gradient-dependent H+ transport systems in isolated enterocytes from the chick

Summary The experiments reported here evaluate the capability of isolated intestinal epithelial cells to accomplish net H⁺ transport in response to imposed ion gradients. In most cases, the membrane potential was kept constant by means of a K⁺ plus valinomycin voltage clamp in order to prevent electrical coupling of ion fluxes. Net H⁺ flux across the cellular membrane was examined at pH 6.0 (the physiological lumenal pH) and at pH 7.4 using methylamine distribution or recordings of changes in media pH. Results from both techniques suggest that the cells have an Na⁺/H⁺ exchange system in the plasma membrane that is capable of rapid and sustained changes in intracellular pH in response to an imposed Na⁺ gradient. The kinetics of the Na⁺/H⁺ exchange reaction at pH 6.0 [K _t for Na⁺=57mm,V _max=42 mmol H⁺/liter 3OMG (3-O-methylglucose) space/min] are dramatically different from those at pH 7.4 (K _t for Na⁺=15mm,V _max=1.7 mmol H⁺/liter 3OMG space/min). Experiments involving imposed K⁺ gradients suggest that these cells have negligible K⁺/H⁺ exchange capability. They exhibit limited but measurable H⁺ conductance. Anion exchange for base equivalents was not detected in experiments performed in media nominally free of bicarbonate.     

Embryogenic protoplast cultures of orange jessamine (Murraya paniculata) and their regeneration into plants flowering in vitro

Embryogenic callus was induced from the hypocotyl region of seedlings germinated from immature embryos of orange jessamine (Murraya paniculata (L.) Jack) on Murashige & Tucker (1969) medium containing 50 g l^-1 sucrose, 5.0 mg l^-1 benzyladenine, 2.5 mg l^-1 2,4-dichlorophenoxyacetic acid and 600 mg l^-1 malt extract. Isolated protoplasts divided to produce callus on Murashige & Tucker (1969) medium containing 50 g l^-1 sucrose, 0.01 mg l^-1 gibberellin A₄₊₇ and 600 mg l^-1 malt extract. Callus developed to plantlets via somatic embryogenesis on Murashige & Tucker (1969) medium with 50 g l^-1 lactose but no plant growth regulators. These plantlets flowered in vitro on half strength Murashige & Tucker (1969) medium containing 50 g l^-1 sucrose after 2 months culture.Abbreviations BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - FDA fluorescein diacetate - FM full strength MT medium - FMG full strength MT medium +1 mg l^-1 GA₃ - GA₃ gibberellin A₃ - GA₄₊₇ gibberellin A₄₊₇ - HM half strength MT medium - HMG half strength MT medium +1 mg l^-1 GA₃ - MT Murashige & Tucker (1969)     

Plant regeneration from stem and petiole protoplasts of sweet potato (Ipomoea batatas) and its wild relative,I. lacunosa

A protoplast-to-plant regeneration system has been established for sweet potato (Ipomoea batatas (L.) Lam.) and its wild relative, I. lacunosa L. Viable protoplasts, isolated from preplasmolyzed stems and petioles of in vitro-grown plants, were cultured on liquid MS (Murashige & Skoog 1962) medium that supported cell division and colony formation. Embryogenic calli of sweet potato were induced on agar-solidified MS medium supplemented with 3% (w/v) sucrose, 50 mg l^-1 casamino acids, 0.2–0.5 mg l^-1 2,4-d, 1.0 mg l^-1 kinetin and 1.0 mg l^-1 ABA. On average, 3 plants were regenerated from a single sweet potato callus subcultured on semi-solid MS medium containing 3% (w/v) sucrose, 800 mg l^-1 glutamine, 2.0 mg l^-1 BA or 1.0 mg l^-1 kinetin and 1.0 mg l^-1 GA₃. Embryogenic calli of I. lacunosa L. were initiated on semi-solid MS medium containing 0.2–0.5 mg l^-1 IAA and 1.0–2.0 mg l^-1 BA. An average of 5 plants was regenerated from a single sweet potato callus subcultured on semi-solid MS medium containing 0.5 or 1.0 mg l^-1 GA₃.Abbreviations ABA abscisic acid - BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole acetic acid - MES 2-(N-morpholino)-ethane sulfonic acid - NAA -naphthaleneacetic acid     

Ca2+ dependency of Na+ transport by rabbit renal brush border membrane

Summary Intracellular Ca²⁺ has been suggested to play an important role in the regulation of epithelial Na⁺ transport. Previous studies showed that preincubation of toad urinary bladder, a tight epithelium, in Ca²⁺-free medium enhanced Na⁺ uptake by the subsequently isolated apical membrane vesicles, suggesting the downregulation of Na⁺ entry across the apical membrane by intracellular Ca²⁺. In the present study, we have examined the effect of Ca²⁺-free preincubation on apical membrane Na⁺ transport in a leaky epithelium, i.e., brush border membrane (BBM) of rabbit renal proximal tubule. In contrast to toad urinary bladder, it was found that BBM vesicles derived from proximal tubules incubated in 1mm Ca²⁺ medium exhibited higher Na⁺ uptake than those derived from proximal tubules incubated in Ca²⁺-free EGTA medium. Such effect of Ca²⁺ in the preincubation medium was temperature dependent and could not be replaced by another divalent cation, Ba²⁺ (1mm). Ca²⁺ in the preincubation medium did not affect Na⁺-dependent BBM glucose uptake, and its effect on BBM Na⁺ uptake was pH gradient dependent and amiloride (10^–3 m) sensitive, suggesting the involvement of Na⁺/H⁺ antiport system. Addition of verapamil (10^–4 m) to 1mm Ca²⁺ preincubation medium abolished while ionomycin (10^–6 m) potentiated the effect of Ca²⁺ to increase BBM Na⁺ uptake, suggesting that the effect of Ca²⁺ in the preincubation medium is likely to be mediated by Ca²⁺-dependent cellular pathways and not due to a direct effect of extracellular Ca²⁺ on BBM. Neither the proximal tubule content of cAMP nor the inhibitory effect of 8, bromo-cAMP (0.1mm) on BBM Na⁺ uptake was affected by the presence of Ca²⁺ in the preincubation medium, suggesting that Ca²⁺ in the preincubation medium did not increase BBM Na⁺ uptake by removing the inhibitory effect of cAMP. Addition of calmodulin inhibitor, trifluoperazine (10^–4 m) to 1mm Ca²⁺ preincubation medium did not prevent the increase in BBM Na⁺ uptake. The effect of Ca²⁺ was, however, abolished when protein kinase C in the proximal tubule was downregulated by prolonged (24 hr) incubation with phorbol 12-myristate 13-acetate (10^–6 m). In summary, these results show the Ca²⁺ dependency of Na⁺ transport by renal BBM, possibly through stimulation of Na⁺/H⁺ exchanger by protein kinase C.     

Kinetics and stoichiometry of the human red cell Na+/H+ exchanger

Summary We have investigated the kinetic properties of the human red blood cell Na⁺/H⁺ exchanger to provide a tool to study the role of genetic, hormonal and environmental factors in its expression as well as its functional properties in several clinical conditions. The present study reports its stoichiometry and the kinetic effects of internal H⁺ (H _i ) and external Na⁺ (Na _o ) in red blood cells of normal subjects.Red blood cells with different cell Na⁺ (Na _i ) and pH (pH _i ) were prepared by nystatin and DIDS treatment of acid-loaded cells. Unidirectional and net Na⁺ influx were measured by varying pH _i (from 5.7 to 7.4), external pH (pH _o ), Na _i and Na _o and by incubating the cells in media containing ouabain, bumetanide and methazolamide. Net Na⁺ influx (Na _i <2.0 mmol/liter cell, Na _o = 150mm) increased sigmoidally (Hill coefficient 2.5) when pH _i fell below 7.0 and the external pH _o was 8.0, but increased linearly at pH _o 6.0. The net Na⁺ influx driven by an outward H⁺ gradient was estimated from the difference of Na⁺ influx at the two pH _o levels (pH _o 8 and pH _o 6). The H⁺-driven Na⁺ influx reached saturation between pH _i 5.9 and 6.1. TheV _max had a wide interindividual variation (6 to 63 mmol/liter cell · hr, 31.0±3, mean±sem,n=20). TheK _m for H _i to activate H⁺-driven Na⁺ influx was 347±30nm (n=7). Amiloride (1mm) or DMA (20 m) partially (59±10%) inhibited red cell Na⁺/H⁺ exchange. The stoichiometric ratio between H⁺-driven Na⁺ influx and Na⁺-driven H⁺ efflux was 11. The dependence of Na⁺ influx from Na _o was studied at pH _i 6.0, and Na _i lower than 2 mmol/liter cell at pH _o 6.0 and 8.0. The meanK _m for Na _o of the H⁺-gradient-driven Na⁺ influx was 55±7mm.An increase in Na _i from 2 to 20 mmol/liter cell did not change significantly H⁺-driven net Na⁺ influx as estimated from the difference between unidirectional²²Na influx and efflux. Na⁺/Na⁺ exchange was negligible in acid-loaded, DIDS-treated cells. Na⁺ and H⁺ efflux from acid-loaded cells were inhibited by amiloride analogs in the absence of external Na⁺ indicating that they may represent nonspecific effects of these compounds and/or uncoupled transport modes of the Na⁺/H⁺ exchanger.It is concluded that human red cell Na⁺/H⁺ exchange performs 11 exchange of external Na⁺ for internal protons, which is partially amiloride sensitive. Its kinetic dependence from internal H⁺ and external Na⁺ is similar to other cells, but it displays a larger variability in theV _max between individuals.     

Functional roles of Na+ and H+ in SO 4 2− transport by rabbit ileal brush border membrane vesicles

Summary Sulphate uptake by rabbit ileal brush border membrane vesicles was stimulated by a transmembrane sodium gradient ([Na⁺] _o >[Na⁺] _i ), but not by a similar potassium gradient.³⁵SO ₄ ^2– influx (J _oi ^SO4 ) from outside (o) to inside (i) these vesicles was a hyperbolic function of [SO ₄ ^2– ] _o and the affinity constant for anion transport was strongly influenced by [Na⁺] _o (100mm Na⁺,K _t ^SO4 =0.52mm SO ₄ ^2– ; 10mm Na⁺,K _t ^SO4 =4.32mm SO ₄ ^2– ).J _t ^SO4 was a sigmoidal function of [Na⁺] _o at pH 7.4 for both low (0.2m) and high (4.0mm) [SO ₄ ^2– ] _o . The Na⁺-dependency ofJ _t ^SO4 was examined at pH 6.0, 7.4, and 8.0 (same pH inside and outside). At pH 6.0 and 7.4 sigmoidal Na⁺-dependentJ _t ^SO4 exhibited nonlinear Eadie-Hofstee plots indicative of a transport mechanism capable of binding a variable number of sodium ions over the [Na⁺] _o range used. Hill plots of anion transport under these conditions displayed slopes near unity at low [Na⁺] _o and slopes approximating 2.0 at higher cation concentrations. At pH 8.0, Na⁺-dependentJ _t ^SO4 was hyperbolic and showed linear Eadie-Hofstee and Hill plots, the latter with a single slope near 1.0. When a H⁺ gradient was imposed across the vesicle wall (pH _i =8.0, pH _o =6.0), Na⁺-dependentJ _t ^SO4 was hyperbolic and significantly increased at each [Na⁺] _o over values observed using bilateral pH 8.0. In contrast, a H⁺ gradient oriented in the opposite direction (pH _i =6.0, pH _o =8.0) led to Na⁺-dependentJ _t ^SO4 that was sigmoidal and significantly lower at each [Na⁺] _o than values found using bilateral pH 6.0. Electrogenicity ofJ _t ^SO4 at pH 8.0 for both high and low [Na⁺] _o was demonstrated by using a valinomycin-induced transmembrane electrical potential difference. At pH 6.0, electrogenicJ _t ^SO4 occurred only at low [Na⁺] _o (5mm); anion transfer was electroneutral at 50mm Na⁺. A model is proposed for proton regulation of sodium sulphate cotransport where flux stoichiometry is controlled by [H⁺] _i and sodium binding affinity is modified by [H⁺] _o . Preliminary experiments with rabbit proximal tubular brush border membrane vesicles disclosed similarJ _t ^SO4 kinetic properties and a common transport mechanism may occur in both tissues.