The Correlation between Cd2+ Sensitivity and Cd2+ Uptake in the Strains of Saccharomyces cerevisiae

The sensitivity of twelve strains of Saccharomyces cerevisiaeto Cd²⁺ was examined in correlation with the uptake of Cd²⁺.Strains of S. cerevisiae were grouped into three categoriesdepending on the sensitivity of cells grown on agar-plates containingvarious concentrations of Cd²⁺. 1) The sensitive group did notgrow in 0.1 mM Cd²⁺. 2) The sub-tolerant group was capable ofgrowth at 0.3 min Cd²⁺, but not at 0.4 mM Cd²⁺. 3) The tolerantgroup was capable of growth at 0.4 mM Cd²⁺ or higher. In thesestrain groups the increase in sensitivity to Cd²⁺ was associatedwith an increase in the activity of Cd²⁺ absorption. ¹ This study is dedicated to the late president J. Ashida ofEhime University. (Received November 25, 1982; Accepted February 14, 1983)     

Stimulatory Effect of Chloride Ions on NADP Malic Enzyme from Leaves of two C4 Species of Cyperus

NADP malic enzyme (EC 1.1.1.40 [EC] ) from leaves of two C₄ speciesof Cyperus (C. rotundus and C. brevifolius var leiolepis) exihibiteda low level of activity in an assay mixture that contained lowconcentrations of Cl^–. This low level of activity wasmarkedly enhanced by increases in the concentration of NaClup to 200 mM. Since the activity of NADP malic enzyme was inhibitedby Na₂SO₄ and stimulated by relatively high concentration ofTris-HCl (50–100 mM, pH 7–8), the activation ofthe enzyme by NaCl appears to be due to Cl^–. Variationsin the concentration of Mg²⁺ affected the K_A (the concentrationof activator giving half-maximal activation) for Cl^–,which decreased from 500 mM to 80 mM with increasing concentrationsof Mg²⁺ from 0.5 mM to 7 mM. The K_m for Mg²⁺ was decreased from7.7 mM to 1.3 mM with increases in the concentration of NaClfrom zero to 200 mM, although the increase of V_max was not remarkable.NADP malic enzyme from Cyperus, being similar to that from otherC₄ species, was able to utilize Mn²⁺. The K_m for Mn²⁺ was 5mM, a value similar to that for Mg²⁺. The addition of 91 mMNaCl markedly decreased the K_m for Mn²⁺ to 20 +M. NADP malicenzyme from Setaria glauca, which contains rather less Cl^–than other C₄ species, was inactivated by concentrations ofNaCl above 20 mM, although slight activation of the enzyme wasobserved at low concentrations of NaCl at pH7.6. (Received February 20, 1989; Accepted June 12, 1989)     

Salt Tolerance in Suaeda maritima (L.) Dum: THE EFFECT OF SODIUM CHLORIDE ON GROWTH, RESPIRATION, AND SOLUBLE ENZYMES IN A COMPARATIVE STUDY WITH PISUM SATIVUM L

The effect of sodium, chloride on the growth of a halophyte,Suaeda maritima (L.) Dum., was compared with its effect on Pisumsativum L. cv. Alaska under controlled environmental conditions.The salt stimulated the growth of Suaeda maximally at concentrationsof 170 to 340 mM while the growth of Pisum was inhibited evenby 100 mM. Both species accumulated ions in the tops and themaximum concentrations of Na⁺ and Cl^– rose in Suaeda to860 mM (based on the water content) and 730 mM and in Pisumto 170 mM and 300 mM respectively. Respiration in both specieswas inhibited as the NaCl level in the culture solution wasraised. Four supernatant enzymes (malic dehydrogenase, glucose-6-phosphatedehydrogenase, peroxidase, and acid phosphatase) prepared fromPisum and from Suaeda (grown either in the absence of addedNaCl or in the presence of 340 mM NaCl) were assayed in variouslevels of sodium chloride. The dehydrogenases were markedlyinhibited by increasing salt concentrations while there wasa smaller effect on the peroxidase and acid phosphatase. Therewas no difference in the effect of salt on the enzymes preparedfrom the two species although one is halophilic and the otherhalophobic.     

Reactivation of Cytoplasmic Streaming in a Tonoplast-Permeabilized Cell Model of Acetabularia

To find whether cytoplasmic streaming in Acetabularia is controlledby Ca²⁺, a tonoplast-permeabilized cell model was prepared usinga vacuolar perfusion technique. The cytoplasmic streaming remainedalmost normal after perfusion with EGTA medium (10 mM EGTA,40 mM PIPES, 5mM MgCl₂ and 800 mM sorbitol, pH 6.9), but stoppedwithin 10 min when saponin medium (EGTA medium plus 50 µg/mlsaponin, 50 µg/ml hexokinase and 5 mM glucose) was perfused.This model system was reactivated with a solution containing0.5 mM ATP and different concentrations of Ca²⁺ (reactivationmedium). With the reactivation medium at pCa 6–5, theresumed streaming lasted for about 10 min before the cytoplasmaggregated. At pCa 4–3, the streaming was observed onlyfor a few minutes because the cytoplasm aggregated quickly.At pCa 7, no reactivated movement was observed. Reactivationwas not induced in an ATP- or Mg²⁺-deficient medium even inthe presence of an adequate concentration of Ca²⁺, and was inhibitedby 50 µg/ml cytochalasin B or 1 mM N-ethylmaleimide. We concluded from these observations that the cytoplasmic streamingin Acetabularia is very likely to be driven by the actomyosinsystem in the presence of Mg-ATP and Ca²⁺ at pCa 6–5. (Received October 31, 1984; Accepted April 1, 1985)     

Increased vacuolar and plasma membrane H+-ATPase activities in Salicornia bigelovii Torr. in response to NaCl

The halophyte Salicornia bigelovii Torr. shows optimal growthand Na⁺ accumulation in 200 mM NaCl and reduced growth underlower salinity conditions. The ability to accumulate and compartmentalizeNa⁺ may result, in part, from stimulation of the H⁺ -ATPaseson the plasma membrane (PM-ATPase) and vacuolar membranes (V-ATPase).To determine if these two primary transport systems are involvedin salt tolerance, shoot fresh weight (FW) and activity of thePM- and V-ATPases from shoots in Salicornia grown in 5 and 200mM NaCI were compared. Higher PM-ATPase activity (60%) and FW(60%) were observed in plants grown in 200 mM NaCI and thesestimulations in growth and enzyme activity were specific forNa⁺ and not observed with Na⁺ added in vitro. V-ATPase activitywas significantly stimulated in vivo and in vitro (26% and 46%,respectively) after exposure to 200 mM NaCl, and stimulationwas Na⁺ -specific. Immunoblots indicated that the increasesin activity of the H⁺ -ATPases from plants grown in 200 mM NaCIwas not due to increases in protein expression. These studiessuggest that the H⁺-ATPases in Salicornia are important in salttolerance and provide a biochemical framework for understandingmechanisms of salt tolerance in plants. Key words: Salicornia, H⁺-ATPases, salt tolerance     

Effects of some Cyclic 'Crown' Polyethers on Potassium Uptake, Efflux and Transport in Excised Root Segments and Whole Seedlings

The ionophores benzo-18-crown-6 (18-C-6), t-butylbenzo-18-crown-6(TBB) and di-t-butyldibenzo-30-crown-10 (30-C-10) were testedfor their effects on potassium ion absorption in onion rootsegments, and in wheat and mung bean seedlings. Potassium uptake,efflux and transport were progressively reduced in onion rootsegments and seedlings by 18-C-6 over the range 0.1–1.0mM. The effects of TBB (up to 0.3 mM) were more severe but otherwisegenerally similar to those of 18-C-6 in seedlings. Both ionophoresreduced growth, and at the highest concentrations, resultedin root potassium ion content falling below initial values after48 h treatment. The effects of 30-C-10 were evident at muchlower concentrations, inhibition of net potassium uptake occurringabove 10^–4 M. Between 10^–4 and 10^–4 M 30-C-10,however, a modest but significant stimulation of potassium uptakewas observed in onion roots and seedlings; growth of seedlingswas largely unaffected. The reductions in potassium absorptionwere attributed to the promotion, by the ionophores, of facilitateddiffusion down the electrochemical diffusion gradient, counteringthe efficiency of the potassium ion influx pump. Stimulationof uptake at certain concentrations of 30-C-10 was consideredmore likely to be due to an inhibition of passive potassiumefflux, rather than a stimulation of active influx. The importanceof stability constants, bonding and lipophilicity, in determiningthe relative effectiveness of the ionophores, is discussed. Allium cepa L, onion, Triticum aestivum L, wheat, Phaseolus aureus L, mung bean, cyclic ‘crown’ polyethers, potassium fluxes, ion transport     

Dependence of Na+-K+ pump current-voltage relationship on intracellular Na+, K+, and Cs+ in rabbit cardiac myocytes

To examine effects of cytosolicNa⁺, K⁺, and Cs⁺ on the voltagedependence of the Na⁺-K⁺ pump, we measuredNa⁺-K⁺ pump current (I_p)of ventricular myocytes voltage-clamped at potentials(V_m) from 100 to +60 mV. Superfusates weredesigned to eliminate voltage dependence at extracellular pump sites.The cytosolic compartment of myocytes was perfused with patch pipette solutions with a Na⁺ concentration ([Na]_pip)of 80 mM and a K⁺ concentration from 0 to 80 mM or withsolutions containing Na⁺ in concentrations from 0.1 to 100 mM and K⁺ in a concentration of either 0 or 80 mM. When[Na]_pip was 80 mM, K⁺ in pipette solutionshad a voltage-dependent inhibitory effect on I_pand induced a negative slope of theI_p-V_m relationship. Cs⁺ in pipette solutions had an effect onI_p qualitatively similar to that ofK⁺. Increases in I_p with increasesin [Na]_pip were voltage dependent. The dielectriccoefficient derived from[Na]_pip-I_p relationships at thedifferent test potentials was 0.15 when pipette solutions included 80 mM K⁺ and 0.06 when pipette solutions were K⁺ free.

     

Effects of nitrogen nutrition on salt-stressed Nicotiana tabacum var. Samsun in vitro plantlets

Tobacco shoots were grown in vitro for 35 d, in MS culture mediummodified to include various sources (nitrate-N, ammonium-N ora mixture) and levels (0–120 mM) of N, and in the presenceof 0–180 mM NaCI or iso-osmotic concentrations of mannitol.Growth of control plantlets was significantly inhibited whenNH₄⁺-N was the sole N source, and at high (120 mM) NO^–₃-N supply. Under conditions of salt stress (90 and 180 mM NaCI)growth was repressed, with roots being more severely affectedthan shoots. Salinity also inhibited root emergence in vitro.The only alleviation of the salt stress by nitrate nutritionobserved in this study was on shoot growth parameters of plantletsgrown on 60 mM NO^–₃-N and 90 mM NaCI. Although both weresignificantly inhibited by NaCI, nitrate reduc-tase activitywas more severely affected than nitrate uptake. When mannitolreplaced NaCI in the culture medium, similar Inhibition of growth,nutrient uptake and enzyme activity were recorded. These observations,together with the relatively low recorded values for Na⁺ andCI^– uptake, indicate that under in vitro salt stress conditionsthe negative effects of NaCI are primarily osmotic. Key words: Growth, nitrogen metabolism, osmotic stress, salinity     

Ionic composition and pH of the vacuolar sap in marine dinoflagellate Noctiluca

Ionic composition of the vacuolar sap of Noctiluca miliariswas as follows: [Na⁺] = 487.3 mM, [K⁺]=24.1 mM, [Ca²⁺]=6.6 mM,[Mg²⁺]=2.8 mM, [Cl^–]=500mM, [NH₄⁺]=15–25 mM, and[SO₄^2–]=undetectable. To measure the vacuolar pH of singleliving cells, a pH-sensitive glass microelectrode was used.The vacuolar pH value was 3.50 ±0.18. When the cellswere transferred from normal sea water into osmotically adjusted50% sea water for one day, the vacuolar ion concentrations remainedalmost constant. Upon immersing the cells in osmotically unadjustedsea water of various concentrations for one day, the observedincrements or decrements of the vacuolar ion concentrationscould be accounted for largely by the migration of water outof or into the cells. The intrinsic ionic composition of thevacuole seems to be constant against changes in ion concentrationsof the bathing medium. (Received October 20, 1975; )     

Osmotic and ionic regulation in Nitella

When the osmotic value of an internodal cell of Nitella flexiliswas modified by the method of transcellular osmosis, the normalosmotic value was chiefly restored by the release or absorptionof K⁺. The release or uptake of Na⁺ was observed only when themodification of osmotic value was significant. Both the uptakeand release of K⁺ were linearly dependent on the degree of modificationof the osmotic value. The effectiveness of alkali metal cationsin restoring the osmotic value in cells of lower osmotic valueswas in the order K⁺>Rb⁺>Na⁺, Cs⁺>Li⁺. The absorptionof K⁺ by cells of lower osmotic values depended strongly ontemperature, while the release of K⁺ from cells of higher osmoticvalues did not. To clarify whether the Nitella cell regulates the osmotic valueor regulates the concentration of K⁺ in the vacuole, the cellsap was exchanged for artificial cell saps whose osmotic valuesand ionic concentrations were varied independent of each other.It was shown that in Nitella two regulating mechanisms are operating,one which regulates the osmotic value of the cell sap irrespectiveof the level of vacuolar K⁺ (0.1–140 mM) and another whichregulates the vacuolar K⁺-level when it is abnormaly high (>160mM). Both mechanisms are assumed to operate in order to keepthe concentration of K⁺ in the cytoplasm at a constant level.The presence of Na⁺ (0–100 mM) and Ca²⁺ (5–40 mM)did not affect the movement of K⁺ during osmoregulation. ¹Present address: Sanki Engineering Limited, Nagaokakyo, Kyoto,Japan. (Received December 19, 1973; )     

Distribution of Fallover in the Carboxylase Reaction and Fallover-Inducible Sites among Ribulose 1,5-Bisphosphate Carboxylase/Oxygenases of Photosynthetic Organisms

The biphasic reaction course, fallover, of carboxyla-tion catalysedby ribulose 1,5-bisphosphate carboxylase/ox-ygenase (RuBisCO)has been known as a characteristic of the enzyme from higherland plants. Fallover consists of hysteresis in the reactionseen during the initial several minutes and a very slow suicideinhibition by inhibitors formed from the substrate ribulose-l,5-bisphosphate(RuBP). This study examined the relationship between occurrenceof fallover and non-catalytic RuBP-binding sites, and the putativehysteresis-inducible sites (Lys-21 and Lys-30S of the largesubunit in spinach RuBisCO) amongst RuBisCOs of a wide varietyof photosynthetic organisms. Fallover could be detected by followingthe course of the carboxylase reaction at 1 mM RuBP and thenon-catalytic binding sites by alleviation of fallover at 5mM RuBP. RuBisCO from Euglena gracilis showed the same linearreaction course at both RuBP concentrations, indicating an associationbetween an absence of fallover and an absence of the non-catalyticbinding sites. This was supported by the results of an equilibriumbinding assay for this enzyme with a transition state analogue.Green macroalgae and non-green algae contained the plant-type,fallover enzyme. RuBisCOs from Conjugatae, Closterium ehrenbergii,Gona-tozygon monotaenium and Netrium digitus, showed a muchsmaller decrease in activity at 1 mM RuBP than the spinach enzymeand the reaction courses of these enzymes at 5 mM RuBP werealmost linear. RuBisCO of a primitive type Conjugatae, Mesotaeniumcaldariorum, showed the same linear course at both RuBP concentrations.Sequencing of rbcL of these organisms indicated that Lys-305was changed into arginine with Lys-21 conserved. ⁷ On leave from Research and Development Center, Unitika Ltd.,23 Kozakura, Uji, Kyoto, 611 Japan. ⁸ Present address: Department of Applied Biological Chemistry,Faculty of Agriculture, Tohoku University, Tsutsumidori-Ama-miyamachi, Sendai, 981 Japan. ⁹ Present address: National Institute for Basic Biology, Myodaiji,Okazaki, 444 Japan. ¹⁰ Present address: Department of Environmental Biology, TokyoPharmaceutical University, Hachioji, Tokyo, 192-03 Japan.     

Role of extracellular [Ca2+] in fatigue of isolated mammalian skeletal muscle

The possiblerole of altered extracellular Ca²⁺concentration([Ca²⁺]_o)in skeletal muscle fatigue was tested on isolated slow-twitch soleusand fast-twitch extensor digitorum longus muscles of the mouse. Thefollowing findings were made. 1) Achange from the control solution (1.3 mM[Ca²⁺]_o)to 10 mM[Ca²⁺]_o,or to nominally Ca²⁺-freesolutions, had little effect on tetanic force in nonfatigued muscle.2) Almost complete restoration oftetanic force was induced by 10 mM[Ca²⁺]_oin severely K⁺-depressed muscle(extracellular K⁺ concentration of10-12 mM). This effect was attributed to a 5-mV reversal of theK⁺-induced depolarization andsubsequent restoration of ability to generate action potentials(inferred by using the twitch force-stimulation strength relationship).3) Tetanic force depressed bylowered extracellular Na⁺concentration (40 mM) was further reduced with 10 mM[Ca²⁺]_o.4) Tetanic force loss at elevatedextracellular K⁺ concentration (8 mM) and lowered extracellular Na⁺concentration (100 mM) was partially reversed with 10 mM[Ca²⁺]_oor markedly exacerbated with low[Ca²⁺]_o.5) Fatigue induced by using repeatedtetani in soleus was attenuated at 10 mM[Ca²⁺]_o(due to increased resting and evoked forces) and exacerbated at low[Ca²⁺]_o.These combined results suggest, first, that raised[Ca²⁺]_oprotects against fatigue rather than inducing it and, second, that aconsiderable depletion of[Ca²⁺]_oin the transverse tubules may contribute to fatigue.

     

IONIC COMPOSITION AND ELECTRIC RESPONSE OF LAMPROTHAMNIUM SUCCINCTUM

The concentrations of K⁺, Na⁺ and Cl^– in the cytoplasmof Lamprothamnium succinctum, a brackish water Characeae, areabout 137, 47 and 86 mM respectively. The concentration of K⁺in the cytoplasm is of the same order as that in the cell sap,while the concentrations of Na⁺ and Cl^– are much lowerthan those in the cell sap (i.e., 140 mM Na⁺, 370 mM Cl^–).In the brackish water, in which the plant grows, the internodesis never excitable electrically. However, it acquires excitabilitywhen it is kept in a mannitol-pond water. The action potentialthus elicited is accompanied by a temporary cessation or slowdown of the cytoplasmic streaming. ¹This work was supported by Research Grants from the Ministryof Education of Japan     

23Na and 7Li NMR study of Nitella cell walls before and after an ion-induced loss of the cationic exchange capacity

²³Na- and ⁷Li-NMR studies were conducted on isolated cell wallsof Nitella to monitor the changes induced in the pectin matrixafter the cation exchange capacity was reduced to about 60%of its initial value by a pretreatment with a 500 mM LiCl solution.Walls in Ca²⁺ form were exchanged with NaCl and LiCl solutionsbefore and after this pretreatment. In the whole cell wall equilibratedwith 10, 35 and 100 mM NaCl solutions or mixtures at the sametotal concentrations of Na⁺ and Li⁺ in the same proportions,the ²³Na- and ⁷Li-NMR spectra were all characterized by onlyone signal. The Na⁺ and Li⁺ relaxation times were drasticallyshorter than those recorded in aqueous solution but the twoNa⁺ relaxation rates increased linearly with the Na⁺ concentrationin the external solutions. In contrast, in the cell wall wherethe CEC had been reduced, the Na⁺ relaxation times were longerand no correlation with external concentrations was obtained.The ⁷Li spectra in walls equilibrated with 500 mM LiCl displayedtwo distinct lines suggesting different Li⁺ bonding affinitiesfor the wall polyuronides. These data are interpreted in thescheme proposed by Gillet et al. (1994) to explain the competitiveeffects of alkaline ions on the wall pectin disorganizationvia disruption of divalent cation crosslinks, but also of solvation-likebonds between cell wall polymers. Key words: ²³Na, ⁷Li, NMR, Nitella, pectic polysaccharides, cell wall     

Effect of Potassium on Photosynthate Unloading from Seed Coats of Phaseolus vulgaris L. Specificity and Membrane Location

Rates of ¹⁴C-photosynthate unloading from excised seed-coathalves of Phaseolus vulgaris L. plants were stimulated by externalKCI concentrations in excess of 10 mM with an optimal responseat 100–150 mM KCI. The cellular pattern of ¹⁴C-photosynthatemetabolism was not altered by KCI but the treatment preferentiallystimulated the release of sucrose from the seed-coats. Photosynthateunloading was insensitive to Cl^– and was stimulated bya range of membrane-permeable cations (Na⁺, Mg²⁺ and tetraphenylphosphoniumion) in addition to K⁺. The K⁺ ionophore, valinomycin, abolishedthe K⁺ stimulation of ¹⁴C-photosynthate unloading. A switchto a wash solution containing K⁺ elicited a rapid burst of ¹⁴C-photosynthateunloading; the rate constant for the final phase of ¹⁴C-efflux(probably across the tonoplast) was unaffected by K⁺. The KCItreatment did not change the passive permeability of eitherthe plasmalemma or tonoplast. While sucrose influx across theplasmalemma was insensitive to K⁺, sucrose transfer to the vacuolewas slowed. The results obtained support the postulate thatK⁺ (and other membrane permeable cations) preferentially stimulatesucrose efflux across the plasmalemma of the unloading cellsby serving to carry positive charge in the opposite direction. Phaseolus vulgaris, bean, photosynthate unloading, potassium stimulation, seed-coat     

Effect of abscisic acid on elongation and kinetin-induced tuberization of isolated stolons of Solarium tuberosum L.

The response of isolated stolons cultured in vitro, to abscisicacid (ABA) has been studied in the presence and absence of kinetin(6-furfurylaminopurine). ABA alone in concentrations from 7.5x 10^–4 mM to 7.5 x 10^–2 mM, inhibited stolon elongationbut failed to promote tuber initiation. In the presence of kinetin,ABA at concentrations of 3.0 x 10^–2 and 7.5 x 10^–2mM markedly inhibited kinetin-induced tuber initiation and stolonelongation, but at 7.5 x 10^–4 and 7.5 x 10^–3 mMABA did not prevent tuber initiation. When stolons were incubated on a medium containing kinetin andlater transferred to one containing ABA with or without kinetin,the inhibitory effect of ABA decreased appreciably as the timeof incubation on kinetin is increased. The results are discussed in relation to the role of ABA inthe inhibition of nucleic acid and protein synthesis and theinteraction with cytokinins and the possible effect of ABA onkinetin uptake, transport and accumulation at the locus of action. (Received February 26, 1969; )     

Airway surface fluid volume and Cl content in cystic fibrosis and normal bronchial xenografts

We describe theuse of an in vivo human bronchial xenograft model of cystic fibrosis(CF) and non-CF airways to investigate pathophysiological alterationsin airway surface fluid (ASF) volume (V_s) and Cl content.V_s was calculated based on thedilution of an impermeable marker,[³H]inulin, duringharvesting of ASF from xenografts with an isosmotic Cl-free solution.These calculations demonstrated thatV_s in CF xenographs (28 ± 3.0 µl/cm²;n = 17) was significantly less thanthat of non-CF xenografts (35 ± 2.4 µl/cm²;n = 30). The Cl concentration of ASF([Cl]_s) wasdetermined using a solid-state AgCl electrode and adjusted for dilutionduring harvesting using the impermeable[³H]inulin marker.Cumulative results demonstrate small but significant elevations(P < 0.045) in[Cl]_s in CF (125 ± 4 mM; n = 27) compared with non-CF(114 ± 4 mM; n = 48) xenografts.To investigate potential mechanisms by which CF airways may facilitatea higher level of fluid absorption yet retain slightly elevated levelsof Cl, we sought to evaluate the capacity of CF and non-CF airways toabsorb both ²²Na and³⁶Cl. Two consistent findings wereevident from these studies. First, in both CF and non-CF xenografts,²²Na and³⁶Cl were always absorbed in anequal molar ratio. Second, CF xenografts hyperabsorbed (~1.5-foldhigher) both ²²Na and³⁶Cl compared with non-CFxenografts. These results substantiate previously documented findingsof elevated Na absorption in CF airways and also suggest that theslightly elevated[Cl]_s found in thisstudy of CF xenograft epithelia does not occur through a mechanism ofdecreased apical permeability to Cl.     

Sodium Accumulation in Pappophorum I. Uptake, Transport and Recirculation

The uptake, transport and accumulation of sodium were comparedin two grasses: Pappophorum pappifervm (Lam.) O. Kuntze, a glycophyteand P. philippianum L. R. Parodi, a facultative halophyte. Atlow salinity levels, (50 mM NaCl) shoots of salt-treated P.pappiferum accumulated lower Na⁺ concentrations than the otherspecies. This difference does not seem to be related to Na⁺uptake, as in short-time experiments (< I h), whole plantsof both species showed similar rates of Na⁺ uptake and transport Sodium recirculation was assessed in split-root experiments.It was similar in control (previously non-salinized) plantsof both species, but in salt-treated plants it was more significantin P. pappiferum. This mechanism, along with increased lossof recently acquired Na⁺, could contribute to keep Na⁺ levelslower in shoots of P. pappiferum than in P. philippianum. Pappophorum, Gramineae, sodium recirculation, salinity     

Intermediate sucrose octa-acetate sensitivity suggests a third allele at mouse bitter taste locus Soa and Soa-Rua identity

Mice have been characterized as either tasters or non-tastersof the bitter compound sucrose octa-acetate(SOA). However, 11of 17 supposedly non-taster inbred strains were found to avoid1 mM SOA. All 17 strains were indifferent to 0.1 mM SOA. Tasterstrains avoided both concentrations. The intermediate phenotypewas dubbed demitaster. A consistent phenotypic dominance orderwas found in crosses among both inbred and outbred strains (taster> non-taster > demitaster). Demitasters were found (withtasters) in an outbred strain showing monogenic segregationfor SOA avoidance. This, plus monogenic segregation in a back-crossof taster to demitaster inbred strains, suggested a third alleleat the Soa locus (Soa^c). Demitaster allelism was supported bythe strong associations found in 15 strains between the threeSOA phenotypes and HindIII restriction fragment patterns forthe closely linked Prp (proline rich protein) loci. SOA demitasterstrains were also intermediate in raffinose undeca-acetate (RUA)avoidance. Furthermore, B6.SW-Soa² congenic mice avoided notonly SOA, but RUA and eight other acetylated sugars. A previouslyproposed separate RUA-sensitivity gene (Rua) thus appeared tobe redundant.     

The Response of Phaseolus vulgaris L. to Root-zone Anaerobiosis, Waterlogging and High Sodium Chloride

Phaseolus vulgaris L. grown at a range of external concentrationsof NaCl (0 to 80 mM) responded differently to gaseous anaerobiosis(N₂ gas) in nutrient solution or stagnant waterlogging of theroot-zone. With similar patterns of distribution of Na⁺ andCl^- occurring in the plants with comparable NaCl treatments,and similar final concentrations of Na⁺ and Cl^- in plants grownunder both root-zone conditions, rates of uptake of Na⁺ andCl^- were much higher in plants with the stagnant waterloggedrootzones. After 72 h stagnant waterlogging, plant tops fromplants grown at 40 mM NaCl contained 1.42 per cent Na⁺ and 3.44per cent Cl^- (d. wt basis) while after 9 days exposure to NaClwith gaseous anaerobiosis, leaf tissue contained 1.49 per centNa⁺ and 4.28 per cen Cl^- (d. wt basis). Plants exposed to 40mM external NaCl were severely damaged within 72 h when grownwith stagnant waterlogged root-zones; those grown with N₂ anaerobiosiscontinued growth and development over the 9 d period. Plantsgrown in nutrient solution showed changes in distribution andconcentration of Na⁺ and Cl^- when oxygen concentration was reducedbelow 21 per cent O₂ (full aeration). Phaseolus vulgaris. L., bean, mineral salt distribution, anaerobiosis, salinity, waterlogging