Studies on the phosphomannose isomerase of Amorphophallus konjac C. Koch II. Effect of divalent metal ions on the EDTA-treated enzyme

Konjak phosphomannose isomerase was inactivated in a time-dependentprocess by metal binding agents, and the inactivated enzymewas instantaneously reactivated by adding such metal ions asZn⁺⁺, Co⁺⁺, Fe⁺⁺, Mn⁺⁺ and Cu⁺⁺. However, neither Ca⁺⁺ nor Mg⁺⁺were effective for reactivation. Zn⁺⁺, at a low concentration,brought about complete reactivation of the enzyme at pH 6–7. The EDTA-treated enzyme was more susceptible to heat denaturationwhen compared with the native enzyme, but the addition of variousmetal ions caused the recovery of the thermal stability of theEDTA-treated enzyme. The magnitude of the recovery dependedon the metal ion species and the concentrations. The most effectivemetal ion was Co⁺⁺, which caused the recovery of thermal stabilityto a level higher than that of the native enzyme. Phosphomannoseisomerase was inhibited by pchloromercuribenzoate and HgCl₂;the inhibition by p-chloromercuribenzoate being more pronouncedas incubation progressed. In contrast, the EDTA-treated enzymewas more readily inhibited by the mercurial ion than was thenative enzyme. Zn⁺⁺, when added to the EDTA-treated enzyme,markedly restored its resistance to the mercurial-induced inhibition.The metal-substituted enzyme was also inhibited by EDTA in atime-dependent process. ¹ This paper constitutes part 4 of studies on konjak mannanbiosynthesis. (Received March 3, 1975; )     

Effect of Root Zone Temperature on the Mineral Composition of Xylem Sap and Plasma Membrane K+-Mg++-ATPase Activity of Grafted-Cucumber and -Figleaf Gourd Root Systems

Cucumber (Cucumis sativus L.) seedlings were grafted onto cucumber-(CG) or figleaf gourd- (FG, Cucurbita ficifolia Bouché)seedlings in order to determine the effect of solution temperature(12, 22, and 32°C) on the mineral composition of xylem sapand the plasma membrane K⁺-Mg⁺⁺-ATPase activities of the roots.Low solution temperature (12°C) lowered the concentrationof NO^–₃ and H₂PO^–₄ in xylem sap of CG plants butnot of FG plants. Concentrations of K⁺, Ca⁺⁺ and Mg⁺⁺ in xylemsap were less affected than anions by solution temperature.The plasma membrane of FG plants grown in 12°C solutiontemperature showed the highest K⁺- Mg⁺⁺-ATPase activity at allATP concentrations up to 3 mM and at low reaction temperatureup to 12°C, indicating resistance of figleaf gourd to lowroot temperature. (Received December 27, 1994; Accepted March 10, 1995)     

Metal Interrelationships in Plant Nutrition: 2. THE RELATION OF METAL TOXICITY, MOLYBDENUM AND NITROGEN SOURCE TO CHLOROPHYLL AND MAGNESIUM CONTENT OF BEET IN SAND CULTURE

Sugar beet and spinach beet were grown in sand culture withdifferent sources of nitrogen or iron and different levels ofmolybdenum and heavy metals. Chlorophyll and some magnesiumfractions were determined. Extra molybdenum accentuated chlorosis caused by excess of Mn⁺⁺,Cr⁺⁺⁺, Zn⁺⁺, and Cu⁺⁺ and decreased it in the presence of CrO₄^––with nitrate. In the presence of these ions urea reduced chlorophyll in youngand increased it in old leaves of sugar beet. Effects of ureaand molybdenum were additive and independent. Ammonium sulphatecaused increased chlorosis of spinach beet with Mn⁺⁺ and Zn⁺⁺. The existence of an acetone-soluble magnesium fraction otherthan chlorophyll was shown. Excess Cu⁺⁺ and Zn⁺⁺ decreased totalmagnesium; Mn⁺⁺ did not. Mn⁺⁺ and Zn⁺⁺ reduced chlorophyll,increased the non-chlorophyll acetone-soluble magnesium, butreduced other fractions. Ferrous iron ipcreased total magnesiumcontent and also increased the acetone-soluble fractions inthe presence of Mn⁺⁺ and Zn⁺⁺. Extra molybdenum decreased theacetone-soluble magnesium fractions but did not affect the totalmagnesium content. Significant interactions between Mo, N, Fe, and heavy metalswere also disclosed.     

Effects of temperature and various metal ions on the solubility of tobacco RuDP carboxylase

Tobacco RuDP carboxylase is completely soluble in 0.07 M NaClor 0.01 M Na₂SO₂, but is almost completely insoluble in salt-freesolutions at 40°C; the solubility seeming to depend on ionicstrength. Lowering the temperature increased solubility of theprotein. The solubility in 0.01–0.04 M NaCl at 0°Cwas more than double that at 40°C. RuDP solubilized theprotein even in a salt-free medium. The protein became insolubleagain on the addition of various divalent cations. Effectivenessof the metal ions was Zn⁺⁺> Ni⁺⁺>Co⁺⁺>Mn⁺⁺>Mg⁺⁺>Ca⁺⁺.Although most of the metal ions inhibited (Mg⁺⁺ activated) enzymeactivity, no direct correlation was found between the degreeof solubility depression and the degree of enzyme inhibition. (Received October 4, 1971; )     

Movement of Ions and Electrogenesis in Higher Plant Cells

During the past 10 years considerable information has accumulatedon the electrochemical relationships of higher plant cells duringtransport of mineral ions. Using the Nernst equation as a criterion,none of eight ions (K⁺, Na⁺, Ca⁺⁺, Mg⁺⁺, NO₃^–, Cl^–,H₂PO₄^–, and SO₄^–) is in a passive equilibrium. Na⁺,Ca⁺⁺, and Mg⁺⁺ are subject to an exclusion mechanism, and allof the anions appear to be pumped inwardly. K⁺ apparently approachesan electrochemical balance under certain conditions but probablyis actively accumulated. Compartmental analyses giving estimatesof amounts in the cytoplasm and vacuole and of unidirectionalfluxes permit application of the Ussing flux-ratio equation.The criterion in oat coleoptile cells suggests that at the plasmalemmaNa⁺ is pumped out while K⁺ and Cl^– are pumped in. K⁺ andCl^– appear to be coupled in active transport across thetonoplast into the vacuole. Good evidence has been found thatthe cell's electropotential arises from an electrogenic pump:CN^– (cyanide) and DNP (dinitrophenol) reversibly blockthe potential and ionic transport; cell potentials are higherthan can be accounted for by diffusion; the responses of respirationand potential to the concentration of CN^– are nearly parallel;and CN^– inhibited tissue approaches a fit to the Goldmanconstant field equation. Future objectives should be identificationof the ion, or ions, subject to the electrogenic pump and discoveryof the immediate energy source.     

Characterization of membrane-bound Mg++-activated ATPase isolated from the lower epidermis of tobacco leaves

Membrane-bound Mg⁺⁺-activated ATPase was separated from thelower epidermis of tobacco leaves (Nicotiand tabacum L. SamsunNN) on stepwise sucrose density gradient centrifugation. Membrane-bound epidermal ATPase was localized in the interfaceof densities in sucrose of 1.12 to 1.16 in the sedimentary fractionbetween 1,500?g to 10,000?g from the homogenate of the lowerepidermis. The epidermal ATPase activity was activated by divalentcations (Mg⁺⁺>Mn⁺⁺Co⁺⁺>Fe⁺⁺>Zn⁺⁺>Ca⁺⁺) and furtherstimulated by KCl by ca. 20%. The pH optimum for Mg⁺⁺-activationof the epidermal ATPase was ca. 6.0. The enzyme hydrolyzed ATPmore rapidly than other nucleoside triphosphates. The optimumtemperature for activation of the epidermal ATPase activitywas ca. 40?C. 50% of the epidermal ATPase activity was lostin 18 min at 55?C and in 2.5 days at 2.5?C. The apparent Kmvalue of the epidermal ATPase was 4.7?10^–4 M and Vmaxwas 65.4 nmoles Pi/mg protein/min. The epidermal ATPase wasstrongly inhibited by N, N'-dicyclohexylcarbodiimide (DCCD)in vitro whereas oligomycin, carbonyl cyanide m-chlorophenylhydrazone(CCGP), indoleacetic acid (IAA) and abscisic acid (ABA) wereinsensitive to the epidermal ATPase activity. (Received May 23, 1978; )     

Distinct roles of PMCA isoforms in Ca2+ homeostasis of bladder smooth muscle: evidence from PMCA gene-ablated mice

We previously showed that plasma membrane Ca²⁺-ATPase (PMCA) activity accounted for 25–30% of relaxation in bladder smooth muscle (8). Among the four PMCA isoforms only PMCA1 and PMCA4 are expressed in smooth muscle. To address the role of these isoforms, we measured cytosolic Ca²⁺ ([Ca²⁺]_i) using fura-PE3 and simultaneously measured contractility in bladder smooth muscle from wild-type (WT), Pmca1^+/–, Pmca4^+/–, Pmca4^–/–, and Pmca1^+/–Pmca4^–/– mice. There were no differences in basal [Ca²⁺]_i values between bladder preparations. KCl (80 mM) elicited both larger forces (150–190%) and increases in [Ca²⁺]_i (130–180%) in smooth muscle from Pmca1^+/– and Pmca1^+/–Pmca4^–/– bladders than those in WT or Pmca4^–/–. The responses to carbachol (CCh: 10 µM) were also greater in Pmca1^+/– (120–150%) than in WT bladders. In contrast, the responses in Pmca4^–/– and Pmca1^+/–Pmca4^–/– bladders to CCh were significantly smaller (40–50%) than WT. The rise in half-times of force and [Ca²⁺]_i increases in response to KCl and CCh, and the concomitant half-times of their decrease upon washout of agonist were prolonged in Pmca4^–/– (130–190%) and Pmca1^+/–Pmca4^–/– (120–250%) bladders, but not in Pmca1^+/– bladders with respect to WT. Our evidence indicates distinct isoform functions with the PMCA1 isoform involved in overall Ca²⁺ clearance, while PMCA4 is essential for the [Ca²⁺]_i increase and contractile response to the CCh receptor-mediated signal transduction pathway. PMCA; bladder smooth muscle; gene-altered mice     

Examination of analytical methods for ions and saccharides in the extract of Phaseolus pulvini

With slight modifications, conventional assay procedures forK⁺, Na⁺, Ca²⁺, Mg²⁺, Cl^–, NO₃^–, H₂PO₄^–, fructoseand fructose-yielding saccharides, and glucose were applicableto the extract of Phaseolus pulvini. About 10 ml of a hot-waterextract from about 30 mg fresh weight of the pulvini was sufficientfor separate measurement of the ions and saccharides named above. (Received August 7, 1979; )     

Calcium Antagonist TMB-8 Inhibits Cell Wall Formation and Growth in Pea

The effects on auxin-stimulated growth and cell wall formationof 8-(N, N-diethylamino)-octyl-3, 4, 5-trimethoxybenzoate.HCI(TMB-8), an intracellular Ca²⁺ antagonist, were investigatedin abraded stem segments from aetiolated seedlings of Pisumsativum L. cv. Alaska. Incubation of segments at pH 6.0 with200 mmol m^–3 TMB-8 resulted in a 50% inhibition of auxin-stimulatedgrowth. Added Ca²⁺ did not restore normal auxin-stimulated growth,presumably because of its well-known stiffening effect on thecell wall. In segments incubated at a pH (7–2) which preventedelongation, auxin promoted the incorporation of [³H]glucoseinto the cell wall relative to total uptake of label. TMB-8abolished about 60% of the total incorporation of label intocell walls in the presence of auxin, but was not effective inthe absence of auxin. Exogenous CaCl₂ reversed the inhibitoryeffect of TMB-8 on relative cell wall incorporation in a parabolicmanner, with a 50% reversal at about 100 mmol m^–3 andcomplete reversal at 1.0 mol m^–3 Ca²⁺. Other ions tested(Mg²⁺, Mn²⁺, Cu²⁺, Zn²⁺) were without substantial effect atconcentrations of 0.5 mol m^–3. Both apparent uptake ofCa²⁺ and consequent reversal of TMB-8 inhibition of cell wallincorporation were blocked by the Ca²⁺ channel blockers verapamiland La³⁺. The data provide further evidence that auxin-stimulatedgrowth is dependent upon continued cell wall incorporation,and suggest that a Ca²⁺ messenger system may be involved inthe promotory actions of auxin on cell wall synthesis and long-termgrowth. Key words: Auxin, calcium, cell wall synthesis     

Large-conductance calcium-activated potassium channel activity is absent in human and mouse neutrophils and is not required for innate immunity

Large-conductance Ca²⁺-activated K⁺ (BK) channels are reported to be essential for NADPH oxidase-dependent microbial killing and innate immunity in leukocytes. Using human peripheral blood and mouse bone marrow neutrophils, pharmacological targeting, and BK channel gene-deficient (BK^–/–) mice, we stimulated NADPH oxidase activity with 12-O-tetradecanoylphorbol-13-acetate (PMA) and performed patch-clamp recordings on isolated neutrophils. Although PMA stimulated NADPH oxidase activity as assessed by O₂^– and H₂O₂ production, our patch-clamp experiments failed to show PMA-activated BK channel currents in neutrophils. In our studies, PMA induced slowly activating currents, which were insensitive to the BK channel inhibitor iberiotoxin. Instead, the currents were blocked by Zn²⁺, which indicates activation of proton channel currents. BK channels are gated by elevated intracellular Ca²⁺ and membrane depolarization. We did not observe BK channel currents, even during extreme depolarization to +140 mV and after elevation of intracellular Ca²⁺ by N-formyl-L-methionyl-L-leucyl-phenylalanine. As a control, we examined BK channel currents in cerebral and tibial artery smooth muscle cells, which showed characteristic BK channel current pharmacology. Iberiotoxin did not block killing of Staphylococcus aureus or Candida albicans. Moreover, we addressed the role of BK channels in a systemic S. aureus and Yersinia enterocolitica mouse infection model. After 3 and 5 days of infection, we found no differences in the number of bacteria in spleen and kidney between BK^–/– and BK^+/+ mice. In conclusion, our experiments failed to identify functional BK channels in neutrophils. We therefore conclude that BK channels are not essential for innate immunity. killing assay; reactive oxygen species; BK-deficient mice; mice infection     

Effect of Cytoplasmic Ca2+ on the Membrane Potential and Membrane Resistance of Chara Plasmalemma

Effects of cytoplasmic Ca²⁺ on the electrical properties ofthe plasma membrane were investigated in tonoplast-free cellsof Chara australis that had been internally perfused with media,containing either 1 mM ATP to fuel the electrogenic pump orhexokinase and glucose to deplete the ATP and stop the pump. In the presence of ATP, cytoplasmic Ca²⁺ up to 2.5?10^–5M did not affect the membrane potential (about -190 mV), butmembrane resistance decreased uniformly with increasing [Ca²⁺]_i.In the absence of ATP, the membrane potential, which was onlyabout -110 mV, was depolarized further by raising [Ca²⁺]_i from1.4?10^–6 to 2.5?10^–5 M. Membrane resistance, whichwas nearly the twofold that of ATP-provided cells, decreasedmarkedly with an increase in [Ca²⁺]_i from zero to 1.38?10^–6M, but showed no change for further increases. Internodal cellsof Nitellopsis obtusa were more sensitive to intracellular Ca²⁺with respect to membrane potential than were those of Charaaustralis, reconfirming the results obtained by Mimura and Tazawa(1983). The effect of cytoplasmic Ca²⁺ on the ATP-dependent H⁺ effluxwas measured. No marked difference in H⁺ effluxes was detectedbetween zero and 2.5?10^–5 M [Ca²⁺]_i; but, at 10^–4M the ATP-dependent H⁺ efflux was almost zero. Ca²⁺ efflux experimentswere done to investigate dependencies on [Ca²⁺]_i and [ATP]_i.The efflux was about 1 pmol cm^–2 s^–1 at all [Ca²⁺]_iconcentrations tested (1.38?10^–6, 2.5?10^–5, 10^–4M).This value is much higher than the influx reported by Hayamaet al. (1979), and this efflux was independent of [ATP]_i. Thepossibility of a Ca²⁺-extruding pump is discussed. ¹ Present address: Botanisches Institut der Universit?t Bonn,Venusbergweg 22, 5300 Bonn, F.R.G. (Received September 22, 1984; Accepted February 19, 1985)     

Effects of chloride ion on HILL reactions in Euglena chloroplasts

Effects of Cl^– and other anions on the rate of HILL reactionin Euglena chloroplasts were investigated. Cl^– acceleratedthe reaction rate with ferricyanide as HILL oxidant; Br^–,F^– and I^– were also effective; NO₃^–, PO₄^2–and SO₄^2– were less effective. Divalent cations, Ca²⁺and Mg²⁺, were also highly effective. The promoting effectsof these ions were highly dependent on pH and the nature andconcentration of the HILL oxidant used. Accelerating effectsof the ion increased with decreasing concentrations of ferricyanide.Generally, the stimulating effect of Cl^– was much moremarked at pH 7–7.5, with little effect at pH 5. Thus,the pH-activity relationship in the HILL reaction is more orless markedly modified by addition of ions. Cl^–, and other anions, accelerated the reaction by affectingonly the dark rate-limiting portion of the HILL reaction; thelight reaction constant remained uninfluenced. We inferred thatsome reaction step, at which ferricyanide receives electronfrom photosystem 2, is accelerated by Cl^– and other ions.Cl^– effects were rather small, or undetectable, with DPIPor p-benzoquinone as oxidants. (Received January 8, 1970; )     

Effects of cadmium on the behaviour of citric acid in isolated tomato xylem cell walls

Effects of cadmium on the sorption of citric acid In isolatedxylem cell walls were Investigated. 2.5 nM to 9.5 mM [1.5–¹⁴]crticacid solutions were perfused through columns of xylem cell wallmaterial, isolated from tomato plants (Lycoperslcon esculentumMill, cv. Tiny Tim). The anion exchange potential of the column was estimated byamino acid analysis as approximately 46 meq dm whereas the apparentanion exchange capacity (AEC) was estimated as 1.65±0.1810^–4(citric acId units). This low AEC was attributed toa ‘zipper’ effect, a mutual screening of fixed R^–and A⁺ charges. Pre-loading with ¹¹⁵Cd²⁺ did not affect citric acid sorption,indicating the absence of Cd-effects on the availability offixed A⁺ charges, and the absence of the formation of effectiveR^–-Cd²⁺ and Donnan tree space (DFS) (Cd(cit)H₂]⁺ complexes. Simultaneous application of both citric acid and ¹¹⁵Cd²⁺,⁴⁵Ca²⁺or ²⁸Mg²⁺ resufted in increased sorption of citric acid, probablydue to capacity improvement rather than changes in valence-dependentanion sorption; this may be due to the presence of bulk (M(cit)H₂]⁺,held in the column as [M(cit)H₂]⁺ after protonation in the DFS.Sorption of citric acid was greatest in the presence of Ca²⁺which was discussed in the light of the differences betweenCa, Cd and Mg in their characteristics as co-ordinative M-complexes of citric acid. The overall results indicate the potentialimportance of the presence of metal ions for the xylem transportbehaviour of organic acids in plants. Key words: Cadmium, citric acid, ion exchange, ligand exchange, tomato, xylem cell walls     

Beta-adrenergic stimulation does not activate Na+/Ca2+ exchange current in guinea pig, mouse, and rat ventricular myocytes

The effect of -adrenergic stimulation on cardiac Na⁺/Ca²⁺ exchange has been controversial. To clarify the effect, we measured Na⁺/Ca²⁺ exchange current (I_NCX) in voltage-clamped guinea pig, mouse, and rat ventricular cells. When I_NCX was defined as a 5 mM Ni²⁺-sensitive current in guinea pig ventricular myocytes, 1 µM isoproterenol apparently augmented I_NCX by 32%. However, this increase was probably due to contamination of the cAMP-dependent Cl^– current (CFTR-Cl^– current, I_CFTR-Cl), because Ni²⁺ inhibited the activation of I_CFTR-Cl by 1 µM isoproterenol with a half-maximum concentration of 0.5 mM under conditions where I_NCX was suppressed. Five or ten millimolar Ni²⁺ did not inhibit I_CFTR-Cl activated by 10 µM forskolin, an activator of adenylate cyclase, suggesting that Ni²⁺ acted upstream of adenylate cyclase in the -adrenergic signaling pathway. Furthermore, in a low-extracellular Cl^– bath solution, 1 µM isoproterenol did not significantly alter the amplitude of Ni²⁺-sensitive I_NCX at +50 mV, which is close to the reversal potential of I_CFTR-Cl. No change in I_NCX amplitude was induced by 10 µM forskolin. When I_NCX was activated by extracellular Ca²⁺, it was not significantly affected by 1 µM isoproterenol in guinea pig, mouse, or rat ventricular cells. We concluded that -adrenergic stimulation does not have significant effects on I_NCX in guinea pig, mouse, or rat ventricular myocytes. cystic fibrosis transmembrane conductance regulator; nickel ion     

Further Characteristics of Salt-Dependent Bicarbonate Use by the Seagrass Zostera muelleri

Millhouse, J. and Strother, S. 1987. Further characteristicsof salt-dependent bicarbonate use by the seagrass Zostera muelleri.—J.exp. Bot. 38: 1055–1068. The contribution of HCO^–₃to photosynthetic O₂ evolutionin the seagrass Zostera muelleri Irmisch ex Aschers. increasedwith increasing salinity of the bathing seawater when the inorganiccarbon concentration was kept constant. K_1/2 (seawater salts)for HCO^–₃ -dependent photosynthesis was 66% of seawatersalinity. Both short- and long-term pretreatment at low salinitiesstimulated photosynthesis in full strength seawater. Twentyfour hours pre-incubation of seagrass plants in 3·0 molm^–3 NaHCO₃ resulted in increased photosynthesis at allsalinities, apparently due to stimulation of HCO^–₃ use(K_1/2 (seawater salts) = 26%). V_max (HCO^–₃) was not affectedby low salinity pretreatment. The kinetics of HCO^–₃ stimulationby the major seawater cations was investigated. Ca²⁺ was themost effective cation with the highest V_max (HCO^–₃) andwith K_1/2(Ca²⁺) = 14 mol m^–3. Mg²⁺ was also very effectiveat less than 50 mol m^–3 but higher concentrations wereinhibitory. This inhibition cannot be accounted for solely byprecipitation of MgCO₃. Na⁺ and K⁺ were both capable of stimulatingHCO^–₃ use. Stimulation was in two distinct parts. Up to500 mol m^–3, both citrate and chloride salts gave similarresults (K_1/2(Na⁺) 81 mol m^–3, V_max(HCO^–₃) 0·26µmol O₂ mg^–1 chl min^–1), but use of citratesalts above 500 mol m^–2 caused a second stimulation ofHCO^–₃ use (K_1/2(Na⁺) 830 mol m^–3, V_max(HCO^–₃)0·68 µmol O₂ mg^–1 chl min^–1). V_max(HCO^–₃)for the second-phase Na⁺ or K⁺ stimulation was of the same orderas for Ca²⁺-stimulated HCO^–₃ use. To further characterizesalt-dependent HCO^–₃ use, the sensitivity of photosynthesisto Tris and TES buffers was investigated. The effects of Trisappear to be due to the action of Tris⁺ causing stimulationof HCO^–₃ -dependent photosynthesis in the absence of salt,but inhibition of HCO^–₃ use in saline media. TES has noeffect on photosynthesis. External carbonic anhydrase, althoughimplicated in salt-dependent HCO^–₃ use in Z. muelleri,could not be detected in whole leaves. Key words: Zostera muelleri, HCO^–₃ use, salinity     

Purification and some properties of phosphomannomutase from corms of Amorphophallus konjac C. Koch

Phosphomannomutase [Glazer et al.: Biochim. Biophys. Acta 33:522–625 (1959)] was purified 1700-fold in a 39% yieldfrom cell-free extract of konjak (Amorphophallus konjac C. Koch)corms. The molecular weight of the enzyme as determined by gelfiltration was about 62,000. The enzyme required both Mg²+ and-D-glucose-l,6-bisphosphate for activity, although Mg²+ waspartially replaceable by either Co²+ or Ni²+. An apparent equilibriumconstant, K_eq=(mannose-6-phosphate) (mannose-1-phosphate), wasdetermined to be 8.5. Activity was maximal at pH 6.5 to 7.0.Activation energy was 11.1 kcal/mole. The enzyme was the moststable at pH 7.5. The addition of substrate or cofactor markedlyincreased enzyme stability toward heat denaturation. The enzymewas more labile to heat than phosphoglucomutase from konjakcorms. Treatment with various metal ions in Tris buffer inhibited theenzyme. Cu²+ and Zn²+ were the most potent inhibitors amongthe metal ions tested, while Co²+ and Ni²+ were weak. When theenzyme was treated with metal ions in the presence of histidinebuffer, Cu²+ and Zn²+ showed no inhibitory effect on the enzyme,whereas Be²+ inhibited it to an extent similar to that in Trisbuffer. Plots of 1/v versus l/(mannose-l-phosphate) at different fixedconcentrations of glucose-1,6-bisphosphate and 1/v versus 1/(glucose-1,6-bisphosphate)at different fixed concentrations of mannose-1-phosphate wereseries of converging lines. Mannose-1-phosphate at high concentrationswas found to inhibit the enzyme competitively with respect toglucose-l,6-bisphosphate. Apparent K_m and K₁ values for mannose-1-phosphatewere calculated to be 0.2 mM and 1.2 mM, respectively. The K_mvalue for glucose-1,6-bisphosphate was 1.8 µM. ¹This paper constitutes part 5 of a series of studies on konjakmannan biosynthesis. (Received May 24, 1976; )     

The Response of the C3-CAM Tree, Clusia rosea, to Light and Water Stress: I. GAS EXCHANGE CHARACTERISTICS

Gas exchange measurements were undertaken on 2-year-old plantsof Clusia rosea. The plants were shown to have the ability toswitch from C₃-photosynthesis to CAM and vice versa regardlessof leaf age and, under some conditions, CO₂ was taken up continuously,throughout the day and night. The light response was saturatedby 120 µmol m^–2 s^–1 typical of a shade plant. Gas exchange patterns in response to light, water and VPD wereexamined. All combinations of daytime and night-time CO₂ uptakewere observed, with rates of CO₂ uptake ranging from 2 to 11µmol m^–2 s^–1 depending upon water status andlight. Categorization of this plant asC₃, CAM or an intermediateis impossible. Differing VPD affected the magnitude of changesfrom CAM to C₃-photosynthesis (0 to 0.5 and 0 to 6.0 µmolm^–2 s^–1 CO₂, respectively) when plants were watered.Under well-watered conditions, but not under water stress, highPPFD elicited changes from CAM to C₃ gas exchange. This is unusualnot only for a shade plant but also for a plant with CAM. Itis of ecological importance for C. rosea, which may spend theearly years of its life as an epiphyte or in the forest understorey,to be able to maximize photosynthesis with minimal water loss. Key words: Clusia rosea, CAM, C₃, stress     

The optical properties of a turbid reservoir and its phytoplankton in relation to photosynthesis and growth (Mount Bold Reservoir, South Australia)

In situ light measurements were used to obtain information oninherent and apparent optical properties. The average verticalattenuation coefficient K_d(ave) varied from 1.1 to 4.6 In unitsm^–1 During three periods the variation in K_d(ave) correlatedwith changes in chlorophyll a concentration and specific attenuationcoefficients K_s, of 0.013, 0.014 and 0.022 m² mg Chl a^–1were calculated. Chlorophyll-specific diffuse absorption coefficients(A,) for these periods were 0.012. 0.013 and 0.017 m² mg Chla^–1 and only varied significantly from estimates of K_sin the period when scattering was intense. Absorption coefficientsa(z^mid) and scattering coefficients b(z^mid) calculated for themid-point of the euphotic zone ranged between 0.45 and 2.9 mand 3.5–52.0 m respectively. Chlorophyll-specific absorptioncoefficients K_a, of 0.005, 0.006 and 0.007 m² mg Chl a^–1and scattering coefficients K_b of 0.05. 0.09 and 0.191 m² mgChl a^–1 were measured during the three periods. The highK_b value occurred when gas-vacuolate cyanobactena were dominant.Algal photosynthesis and light absorption were related throughthe maximum quantum yield _m which varied between 0.019 and 0.11mol C Einstein^–1 while average quantum yields _a, variedbetween 0.006 and 0.024 with a mean of 0.013 mol C Einstein^–1A comparison of changes in the mean irradiance of the mixedzone and chlorophyll concentration indicated that growth waslight limited below 0.04–0.05 Einsteins absorbed mg Chla^–1 day^–1.     

Effect of complete protein 4.1R deficiency on ion transport properties of murine erythrocytes

Moderate hemolytic anemia, abnormal erythrocyte morphology (spherocytosis), and decreased membrane stability are observed in mice with complete deficiency of all erythroid protein 4.1 protein isoforms (4.1^–/–; Shi TS et al. J Clin Invest 103: 331, 1999). We have examined the effects of erythroid protein 4.1 (4.1R) deficiency on erythrocyte cation transport and volume regulation. 4.1^–/– mice exhibited erythrocyte dehydration that was associated with reduced cellular K and increased Na content. Increased Na permeability was observed in these mice, mostly mediated by Na/H exchange with normal Na-K pump and Na-K-2Cl cotransport activities. The Na/H exchange of 4.1^–/– erythrocytes was markedly activated by exposure to hypertonic conditions (18.2 ± 3.2 in 4.1^–/– vs. 9.8 ± 1.3 mmol/10¹³ cell x h in control mice), with an abnormal dependence on osmolality (EC₅₀ = 417 ± 42 in 4.1^–/– vs. 460 ± 35 mosmol/kgH₂O in control mice), suggestive of an upregulated functional state. While the affinity for internal protons was not altered (K_0.5 = 489.7 ± 0.7 vs. 537.0 ± 0.56 nM in control mice), the V_max of the H-induced Na/H exchange activity was markedly elevated in 4.1^–/– erythrocytes (V_max 91.47 ± 7.2 compared with 46.52 ± 5.4 mmol/10¹³ cell x h in control mice). Na/H exchange activation by okadaic acid was absent in 4.1^–/– erythrocytes. Altogether, these results suggest that erythroid protein 4.1 plays a major role in volume regulation and physiologically downregulates Na/H exchange in mouse erythrocytes. Upregulation of the Na/H exchange is an important contributor to the elevated cell Na content of 4.1^–/– erythrocytes. spherocytosis; cell Na; Na/H exchange     

Preliminary characterization of 1-aminocyclopropane-1-carboxylate oxidase properties from embryonic axes of chick-pea (Cicer arietinum L.) seeds

For a deeper understanding of the germination of chick–pea(Cicer arietinum) seeds, which is dependent upon ethylene synthesis,a crude extract containing authentic ACC oxidase (ACCO) activitywas isolated in soluble form from the embryonic axes of seedsgerminated for 24 h. Under our optimal assay conditions (200mM HEPES at pH 7.0, 4µM FeS0₄, 6 mM Na–ascorbate,1 mM ACC, 20% 0₂, 3% CO₂ , and 10%glycerol) this enzyme was5–fold more active than under the conditions we used initiallyin the present work. The enzyme has the following K_m: 28 µMfor ACC (approximately 4–fold less than in vivo), 1.2%for O₂ (in the presence of an optimal CO₂ concentration of 3%),and 1% for CO₂ in the presence of O₂ (20%). The enzyme is inhibitedby phenanthroline (PNT) (specific chelating agent of ferrousion), and competitively inhibited (K₁, =0.5 mM) by 2–aminoisobutyricacid (AIB), and the enzymatic activity was not detectable inthe absence of CO₂. Under optimal assay conditions, the enzymehas two optimum temperatures (28 C and 35 C) and is inhibitedby divalent metal cations (Zn²⁺> CO²⁺>Ni²⁺>Cu²⁺>Mn²⁺>Mg²⁺) and by salicylic acid, propylgallate, carbonyl cyanidem–chlorophenyl hydrazone (CCCP), dinitrophenol (DNP),and Na–benzoate. The in vitro ACCO activity which we recoveredin soluble form is equivalent to approximately 80–85%of the apparent activity evaluated in vivo. Key words: ACC oxidase, Cicer arietinum, ethylene, germination, seeds