Regulation of sexual agglutinability in Saccharomyces cerevisiae of {alpha} and {alpha} types by sex-specific factors produced by their respective opposite mating types

The sexual agglutinability of haploid cells of heterothallicSaccharomyces cerevisiae was repressed when they were culturedin the absence of easily fermentable sugars, such as glucoseand mannose. The repression was reversed by the action of hormone-likesubstances of the opposite mating types. The substance producedby mating type cells was identical to subtsance-I which isknown to induce sexual agglutinability of inducible matingtype cells. The mating type cells produce a new hormone-likesubstance which induces or enhances sexual agglutinability of mating type cells. A crude fraction of the mating type-specific substance ( substance-I)was obtained by passing the culture filtrate of mating typecells through Amberlite CG-50 (H⁺ form), followed by elutionwith 1.5 M ammonia. ² On leave from Osaka City University. (Received December 25, 1975; )     

An NTP-Binding Protein That Cross with a Ras-Specific Antibody in the Myceia of Neurospora crassa

A Ras-related NTP-binding protein was partially purified froma membrane fraction derived from the mycelia of Neurospora crassa.[-³²P]ATP and [-³²P]GTP were incubated with mem brane and solublefractions which were then irradiated with UV light to inducecrosslinking of tightly bound nucleotides. After SDS-polyacrylamidegel electrophoresis, blotting onto a nitrocellulose filter andautoradiography it was apparent that most of the proteins thatbound [-³²P]-GTP also bound [-³²P]ATP. Pretreatment of the membranefraction with Ras-specific antibody effectively blocked thebinding of [-³²P]ATP and [-³²P]GTP to several ATP-GTP-bindingproteins. The band of a protein with a molecular weight of 26kDa on the SDS-polyacrylamide gel cross-reacted strongly withthe Ras-specific antibody. The protein was extracted from thegel and further purified by repeated gel electrophoresis. Thepurified protein bound [-³²P]ATP, [-³²P]-GTP, [-³²P]CTP and[-³²P]UTP at 1.6x10^– M and was autophosphorylated in thepresence of [-³²P]ATP and [-³²P]GTP at 1.7x10 M. Pretreatmentof the protein with Ras-specific antibody partially blockedthe autophosphorylation in the presence of these nucleotides.The binding of [-³²P]ATP to the NTP-binding protein was blockedby addition of ATP at 10^–4–10^–3 M. ATP ata concentration of 10^–4 M prevented the binding of [-³²P]to a greater extent than did GTP at the same concentration.Binding of [-³²P]CTP and [-³²P]UTP to the protein was also observed. (Received October 7, 1991; Accepted July 14, 1992)     

Isolation of Subunits of Coupling Factor 1 from Maize and Spinach Chloroplasts and Properties of Combinations of Subunits with ATPase Activity

Subunits (, ß, ) and mixtures of subunits ( ß, , ß , ß ) were isolated without denaturationfrom a chloroform extract of chloroplast coupling factor 1 (CF₁)from maize (Zea mays var. Ushiku 5-4) and from spinach by fastprotein liquid chromatography (FPLC), on an anion-exchange columnof Mono-Q in the presence of n-octylglucoside (OG) and on achromatofocusing column of Mono-P. The ß -subunitcomplex (CF¹ ß ) was the minimum unit required forATPase activity, as was confirmed by the reconstituted complexof ß and subunits. An subunit isolated from maizeinhibited the ATPase activity of CF₁ ß from bothmaize and spinach. CF₁ ß was found to contain anOG-dependent Mg²⁺-ATPase. The ATPase activity of CF₁ ß required divalent cations, such as Mg²⁺ or Mn²⁺, for its expressionin the presence of OG; its optimum pH was 8.0 and it was markedlyinhibited by NaN₃. The enzyme hydrolyzed ATP in prefernece toGTP but not CTP, UTP, ADP, AMP or pNPP. Lineweaver-Burk plotsof its activity were curvilinear in the range of 0.6–0.7mM ATP.Mg²⁺. ¹Present address: Department of Biology, School of Education,Waseda University, Shinjuku-ku, Tokyo, 160 Japan. (Received February 15, 1989; Accepted April 20, 1989)     

Enzymatic Degradation of Chlorophyll in Chenopodium album

The breakdown of chlorophyll (Chi) in crude extracts of Chenopodiumalbum (white goose foot) in the dark was examined. Derivativesof pheophorbide were formed when Chi or chlorophyllide wasincubated with depigmented crude extracts. The formation ofpheophorbide was completely prevented by heat treatment of extracts,indicating that the reaction was enzymatic, and the presenceof a Mg-releasing enzyme, the so called Mg-dechelatase, waspostulated. This hypothesis was strongly supported by the observationthat the formation of pheophorbide was inhibited by 51% by 10mM MgCl₂. Analysis by high-performance thin-layer chromatography(HPTLC) and liquid chromatography (HPLC) showed that the appearanceof chlorophyllide , pheophorbide 13²-hydroxychlorophyllide and pyropheophorbide was accompanied by a concomitant decreasein levels of Chi The formation of 13²-hydroxychloro-phyllide was not clearly an enzymatic reaction and requires furtherexamination. It appears that Chl is degraded in a crude extractof C. album via the following enzymatically catalyzed reactions (Received September 10, 1990; Accepted November 15, 1990)     

Uptake of Thallium, a Toxic Heavy-Metal, in the Cyanobacterium Synechococcus R-2 (Anacystis nidulans, S. Leopoliensis) PCC 7942

Uptake of the toxic heavy-metal, thallium, was studied in thecyanobacterium Synechococcus R-2 (PCC 7942) using clinicallyavailable ²⁰¹Tl ⁺. Thallium was found to distribute across theplasmalemma passively, and so the accumulation ratio of theion ([Tl⁺]_i/[Tl⁺]_o) could be used to calculate the apparentmembrane potential (­_i,o) of the cells (^ETI⁺_i,o = ­_i,o).The permeability of the plasmalemma to TI⁺ (^PTI⁺ 1 to 5 nms^–1)is higher than that of K⁺. Valinomycin does not increase thepermeability of TI⁺. Transient changes in the ­_i,o of cells,because of electrogenic transport of ions, could be detectedfrom its effects upon the uptake rate of TI⁺. HCO^–₃ hyperpolarizedSynechococcus cells, whereas NH⁺₄, CH₃NH⁺, and K⁺ led to depolarization.The use of TI⁺ as a reporter of ­_i,o has some inherent limitations.Tl⁺ is toxic at very low concentrations (inhibitory effectsare apparent after about 6 h at concentrations as low as 1 mmolm^–3). The rate of equilibration is slow (t_1/25 to 20 min).Equilibration of TI⁺ takes about 2 h, which limits its valueas a membrane potential probe. Large amounts of TI⁺ bind tothe surface of the cells making the method impracticable formeasuring accumulation ratios of less than about 10 (­_i,o)values smaller than about –60 mV). Cultures continuouslyexposed to Tl⁺ (10 mmol m^–3) eventually become TI⁺ resistantby actively extruding TI⁺ (µTI⁺_i,o= –3±0.2kJ mol^–1) and so thallium cannot be used as a ­_i,oprobe in such cells. (Received October 28, 1997; Accepted August 31, 1998)     

Nucleoside Triphosphate(NTP)-Binding Proteins and Endogenous ADP-ribosyl Transferase in Neurospora crassa

Nucleoside triphosphate(NTP)-binding proteins were detectedin the crude extract of mycelia of Neurospora crassa, whichwas treated with 1% Lubrol PX and fractionated by gel filtration.Protein fractions showing the capacity to bind [³⁵S]ATPS or[³⁵S]GTPS were designated as AGN1 to 6. The binding of [³⁵S]ATPSor [³⁵S]GTPS was prevented in the presence of 0.1 mM ATP orGTP except that in fractions AGN1 and 2, the presence of GTPstimulated the binding of [³⁵S] ATPS to ATP(NTP)-binding proteins.ATP or GTP was 1 to 2 orders of magnitude more effective thanCTP or UTP in preventing the binding of [³⁵S]GTPS in AGN1, 2and 5. Among these fractions AGN1, 2, 5 and 6 showed activityto hydrolyze 1 nM [–³²P]ATP or [–³²P]GTP. NTP-bindingproteins bound with [³⁵S]ATPS or [³⁵S]GTPS had lower apparentmolecular weights than the same proteins without bound nucleotide.Proteins bound with [³⁵S]ATPS or [³⁵S]GTPS and those [³²P]ADP-ribosylatedby endogenous ADP-ribosyl transferase in each fraction wereanalyzed by SDS-PAGE. About 20 species of ATP or ATP-GTP-bindingproteins were detected, several of which were ADP-ribosylated.The binding of [³⁵S]ATPS or [³⁵S]GTPS to NTP-binding proteinswas confirmed by the comparison of non-boiled and boiled samplesimmediately before loading to SDS-PAGE. ATP, GTP, CTP or UTPat the concentration of 0.1 mM effectively removed [³³S]ATPSor [³⁵S]GTPS bound to NTP-binding proteins. (Received December 10, 1990; Accepted April 18, 1991)     

Variation in Natural Abundance of 15N among Plant Parts and in 15N/14N Fractionation during N2 Fixation in the Legume-Rhizobia Symbiotic System

Sixteen legumes were grown in N-free media so that N was suppliedentirely by symbiotic N₂ fixation. The plant tissues were analyzedfor natural ¹⁵N abundance (expressed as ¹⁵N per mil relativeto air N₂) with a ratio mass spectrometer. The nodules of desmodium,centro, siratro, soybean and winged bean showed high enrichmentin ¹⁵N (+9), while red clover showed slight enrichment (+2).The nodules of 9 other forage legumes (Townsville stylo, whiteclover, alsike clover, common vetch, Chinese milk vetch, senna,alfalfa, ladino clover, and hairy vetch) showed little enrichmentin ¹⁵N. In all the legumes investigated, particularly in the ureide-transportingplants such as desmodium, centro, siratro, soybean, winged beanand field bean, the ¹⁵N value of the shoots was negative (–3.2).The ¹⁵N value of the shoots in winged bean and field bean variedby about 1 depending on the Rhizobium strains used. The isotopicmass balance of 13 legumes indicated that isotopic fractionationoccurs during N₂ fixation by the legume-rhizobia symbiosis witha preference for ¹⁴N over ¹⁵N, resulting in a ¹⁵N value of –0.2to –2 in the whole plant. The results indicate that ¹⁵N/¹⁴N isotopic discrimination witha preference for the lighter atom may occur in both N₂ fixationand export of fixed N from nodules. ¹Present address: Department of Soils and Fertilizers, NationalAgriculture Research Center, Kannondai, Tsukuba, Ibaraki 305,Japan. (Received October 8, 1985; Accepted April 7, 1986)     

Effects of l, N6-ethenoadenylates on the regulation of photosynthetic activities by adenylates; A study of the nucleotide binding sites on chloroplast coupling factor 1

Effects of l, N⁶-ethenoadenylates (e-adenylates) were testedon phosphorylation, and electron transport under phosphorylation,arsenylation and quasi-arsenylation (stimulation of electrontransport in the presence of ATP, AMP and arsenate) conditionsin isolated spinach chloroplasts. -ATP as well as ATP partially inhibited ferricyanide reductionthrough binding to the chloroplast coupling factor 1 with anapparent dissociation constant (KD^app) of around 5µM,which was remarkably larger than that for ATP (ca. 2µM).e-ATP at below 500 µM had no effect on phosphorylationbut inhibited quasi-arsenylation in competition with ATP withan apparent inhibition constant (K₁^app) of around 60 µM. -ADP as well as ADP partially inhibited ferricyanide reductionwith a KD^app value close to that for -ATP. -ADP was phosphorylated(the apparent Michaelis constant, K_m^app=80µM) accompanyingstimulation of ferricyanide reduction to the magnitude predicted(P/_e=l). -ADP-arsenylation was also detected by stimulationof ferricyanide reduction. -AMP alone caused little inhibition of ferricyanide reductionas AMP, but competitively depressed the electron transport inhibitionby ADP and ATP with a K₁^app value of around 200 µM. -AMPwas not effective for ADP phosphorylation but inhibited stimulationdue to quasi-arsenylation coupling in competition with AMP K₁^app=150µM Among the possible combinations of adenylates and -adenylatesfor quasiarsenylation, only [ATP+AMP] could couple with theenergy transduction mechanism. Based on the specificity of binding sites to adenylates and-adenylates, an attempt was made to distinguish at least four(two pairs) kinds of binding sites (at least six sites in toto)on the chloroplast coupling factor 1 for photosynthetic energytransduction. When one pair of sites is occupied by the designatedadenylates or -adenylates (allosteric effectors), the couplingfactor is thought to be in a conformation for coupling withthe energy transduction mechanism in the presence of phosphateor arsenate. ¹Presented to the 1st Symposium of Japan Bioenergetics Group,December 19, 1975, Osaka. (Received February 17, 1976; )     

BACTERIAL BREAKDOWN OF {varepsilon}-CAPROLACTAM AND ITS CYCLIC OLIGOMERS

Eleven different types of bacteria were isolated which werecapable of growing on -caprolactam, the monomeric material fornylon 6 polyamide, as the sole source of both carbon and nitrogen. The optimal concentration of -caprolactam for the bacterialgrowth was about 0.6% in a synthetic liquid medium enrichedwith a small amount of yeast extract. The bacterial strains grew also on -butyrolactam, -valerolactamand the -amino acids corresponding to these lactams and -caprolactam.Ammonium adipate was a good substrate for the growth of allthe strains. One strain of Corynebacterium aurantiacum was found to be capableof utilizing cyclic and linear oligomers of 6-aminocaproic acidwith an exception of cyclic dimer. The strains of corynebacteria required vitamin B₁ for growth. Metabolism of -caprolactam and related compounds is discussedbriefly. (Received September 9, 1965; )     

Metabolic conversion of N-methyl carbon of {gamma}-glutamylmethylamide to caffeine in tea plants

Tea seedlings were treated with ¹⁴C-methylamine to cause synthesisof ¹⁴C--glutamylmethylamide (N-methyl-¹⁴C). The metabolic conversionof -glutamylmethylamide was studied by tracing ¹⁴C. ¹⁴C--Glutamylmethylamide (N-methyl-¹⁴C) translocated from rootsand cotyledons to shoots of tea seedlings, was converted almostentirely into caffeine. Conversion was greater in light-exposedsamples. For those grown in the dark, the converted amount didnot correspond to the total caffeine produced. More ¹⁴C--glutamylmethylamidewas present in stems than in leaves, but with ¹⁴C-caffeine,the opposite was found. When ¹⁴C--glutamylmethylamide or ¹⁴C-methylamine was appliedto leaf disks, ¹⁴C-caffeine was biosynthesized from both substances. ¹ Present address: Department of Agricultural Chemistry, ShizuokaUniversity, Iwata, Shizuoka 438, Japan. (Received September 25, 1971; )     

Photophosphorylation in intact algae: Effects of inhibitors, intensity of light, electron acceptor and donors

The luciferin-luciferase method was used to determine ATP extractedfrom darkmaintained and light-exposed samples of the green algaChlorella pyrenoidosa and of the blue-green alga Anacystis nidulans.A few measurements on Synechococcus lividus (a bluegreen thermophile,clone 65?C) are also reported.

1. The light-minus-dark ATP levels (ATP) from aerobic cells ofChlorella and Anacystis were negative; however, ATP from Synechococcuswas positive. Large positive ATP was obtained in regularly grown(RG: moderate light) Chlorella treated with oligomycin; darklevels were reduced, light levels remained essentially unaffected.In high-light exposed (HLE) Chlorella, oligomycin reduced bothlight and dark ATP levels, but positive ATP was still obtained.However, in Anacystis, which has a different organization ofthylakoid membrane, oligomycin severely reduced both the lightand the dark ATP levels and the ATP remained negative.
2. Theoligomycin (12 µM) treated Chlorella and the untreatedAnacystis and Synechococcus show the presence of cyclic photophosphorylationunder conditions in which the non-cyclic electron flow fromphotosystem II to photosystem I is blocked by 10 µM 3-(3,4-dichlorophenyl)-l,l-dimethylurea(DCMU), or not allowed to operate by the absence of CO₂. Cyclicphotophosphorylation ranged from 10–30% of the maximumATP in RG, to 40–50% in HLE Chlorella. In RG Chlorella,cyclic and non-cyclic (in the absence of DCMU) photophosphorylation(ATP) saturate at about 10³ ergs cm^–2 sec^–1 and10⁴ ergs cm^–2 sec^–1 and 10⁴ ergs cm^–2 sec^–1red (>640 nm) light, respectively; a lag was observed inthe light curve.
3. In Chlorella, the addition of the photosystemI electron acceptormethyl viologen (MV; 1 mM) increased ATPby twofold. Furtheraddition of DCMU (25 µm) reduced thisto the level observedwith DCMU alone. If 1 mM reduced dichlorophenolindophenol orphenazine methosulphate (DCPIPH₂ or PMSH₂, respectively)wasadded along with DCMU, the ATP level was 30–40% ofthecontrol. Further addition of MV increased the JATP to be70–80%of that of the control. These and other resultsconfirm thepresence of both non-cyclic and cyclic photophosphorylationin vivo, the former predominating in Chlorella, and the latterin Anacystis and Synechococcus.

(Received May 1, 1973; )     

Purification and properties of soluble cytochrome b-560 from spinach leaves

A b-type cytochrome having an -band at 560 nm was isolated fromspinach leaves (Spinacia oleracea). A method is described forpreparing this cytochrome, cytochrome b-560 (spinach), in apurified state. The cytochrome has, in its reduced state, absorption bands at560 nm (), 530 nm (ß) and 427 nm (); and in the oxidizedstate at 562 nm (), 529 nm (ß) and 417 nm (). Thepyridine ferro-haemochrome prepared from cytochrome b-560 hadan -band at 556.5 nm, indicating the protohaem-nature of theprosthetic group. The cytochrome has an oxidation-reduction potential (E'⁰) of+0.13V at pH 7.0, as measured using the ferri-ferro oxalate system. The cytochrome is rapidly reduced on illumination with red orfar-red light in the presence of spinach chloroplasts and isoxidized at a slower rate in the dark. This photoreduction isinhibited by 1x10^–6 M 3-(3,4-dichlorophenyl)-1,1-dimethylurea(DCMU). The molecular weight of the cytochrome is 30,000 asestimated by the dextran gel filtration method. (Received December 3, 1971; )     

Discovery of Natural Photosynthesis using Zn-Containing Bacteriochlorophyll in an Aerobic Bacterium Acidiphilium rubrum

We discovered natural photosynthesis using Zn-containing bacteriochlorophyll in an acidophilic bacterium Acidiphilium rubrum. Chemical analysisof the cell extracts gave a 13 : 2 :1 molar ratio of Zn-bacteriochlorophyll : Mg-bacteriochlorophyll : bacteriopheophytin . Most of thepigments are associated with fully active reaction center andlight-harvesting complexes analogous to those in purple photosyntheticbacteria. The finding indicates an unexpectedly wide variabilityof photosynthesis. ⁷Present address: Department of Ecological Engineering, ToyohashiUniversity of Technology, Tenpaku-cho, Toyohashi, 441 Japan     

Localization of the carbon in caffeine biosynthesized from N-methyl carbon of {gamma}-glutamylmethylamide in tea plants

1. Localization of carbon in caffeine molecule biosynthesizedfrom the N-methyl carbon of -glutamylmethylamide in tea plantswas observed. ¹⁴C-Caffeine produced from ¹⁴C--glutamylmethylamidewas isolated and degraded. Approximately 26–55% of the¹⁴C was observed in the three methyl carbons in caffeine, withonly 2–3% at the C-2 carbon, 3–7% at the C-8 carbonposition. The amount of ¹⁴C at the C-4, C-5 and C-6 positionswas calculated from the results obtained. 2. The role of the N-methyl carbon of -glutamylmethylamide inthe formation of RNA in tea plants was examined. Incorporationof the N-methyl-¹⁴C of ¹⁴C--glutamylmethylamide into AMP andGMP in RNA was found. These facts indicate that in tea plants, -glutamylmethylamideis metabolized and most of its N-methyl carbon is utilized asa precursor for caffeine formation and little, if any, as aprecursor for nucleic acid formation. ¹ Present address: Department of Agricultural Chemistry, ShizuokaUniversity, Iwata, Shizuoka 438, Japan. (Received February 2, 1972; )     

Part of the Lysyl Residues in Wheat {alpha}-Amylase is Methylated as N-{varepsilon}-Trimethyl Lysine

Amino acid analyses of wheat -amylase purified from germinatingseeds by affinity chromatography showed a high content of amodified lysyl residue. The modified residue was identifiedas N--trimethyl lysine. The presence of trimethyl lysine in-amylase is discussed in terms of isozymes. ¹ Present address: National Institutes of Health, Bldg. 10,Rm. 9B-15, Bethesda, MD 20205, U.S.A. (Received August 20, 1981; Accepted March 19, 1982)     

Pumpkin (Cucurbita sp.) seed globulin III. Comparison of subunit structures among seed globulins of various Cucurbita species and characterization of peptide components

Various Cucurbita seed globulins showed patterns similar toone another on SDS-gel electrophoresis, and ß bandsfor unreduced globulins and , ', and ' bands for reduced ones.On gel electrophoresis in 6 M urea, reduced globulin gave twoacidic and two basic bands. These corresponded to and ' chainsand ₁ and ₂ chains, respectively, identified by two-dimensionalurea-SDS gel electrophoresis. The compositions of the and ßsubunits were proposed. (Received September 8, 1977; )     

Lipid Peroxidation Induced by NAD(P)H and NAD+-Dependent Substrates in Soybean Mitochondria

Lipid peroxidation induced by Fe²⁺ADP in soybean mitochondriais stimulated by pyruvate, malate (in the presence of NAD²⁺)and by NAD(P)H. This lipid peroxidation is almost completelyinhibited by EDTA indicating that iron is essential. Also salicylhydroxamicacid, a specific inhibitor of the alternate oxidase, is a stronginhibitor of lipid peroxidation but its effect should be relatedto chelation or to a general antioxidant action. Rotenone doesnot show any effect on the malateNAD²⁺Fe²⁺ADP-induced lipidperoxidation. From the reported data, it is possible to concludethat, in soybean mitochondria, the peroxidation of unsaturatedlipids can be modulated through a balance between the systemssparking lipid peroxidation, like NAD(P)H Fe²⁺ADP, and the systemswhich protect against it, i.e. quinones, maintained at the reducedstate by the substrates. (Received April 20, 1987; Accepted July 21, 1987)     

A Rapid and Sensitive Method for Determination of Relative Specificity of RuBisCO from Various Species by Anion-Exchange Chromatography

A rapid and sensitive method to determine the relative specificity() of ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO)using anion-exchange chromatography is described. We employedthe open gas system for the reaction of RuBisCO to get the mostreliable CO₂ and O₂ concentrations in the reaction mixture.3-Phosphoglycerate and 2-phosphoglycolate which were formedin the RuBisCO reaction were completely separated and directlymeasured with anion-exchange chromatography without using radioisotopes.The determination of the value was accomplished in 3 h. The values of RuBisCO enzymes from higher land plants were between90 and 96, and those from bacteria including cyanobacteriumwere close to 45. These values were in agreement with previouslyreported values. The enzyme of the red macroalga Porphyra yezoensisexhibited a value of over 140, as expected from the reportedvalue of the enzyme from the red microalga Porphyridium cruenteum.RuBisCO from the green macroalga Ulva pertusa had a value closeto 70 and similar to that of the enzyme from the green microalgaChlamydomonas reinhardtii. ⁴On leave from Research and Development Center, Unitika Ltd.,23 Kozakura, Uji, Kyoto, 611 Japan. ⁵Present address: Nara Institute of Science and Technology,8916-5 Takayama-Cho, Ikoma, Nara, 630-01 Japan     

A comparison of the impacts of various nitrogen sources on acid-base balance in C3 Triticum aestivum L. and C4 Zea mays L. plants

This work aimed to study the impacts of acquisition and assimilationof various nitrogen sources, i.e. NO₃^–, NH₄⁺ or NH₄NO₃,in combination with gaseous NH₃ on plant growth and acid-basebalance in higher plants. Plants of C₃ Triticum aestivum L.and C₄ Zea mays L. grown with shoots in ambient air in hydroponicculture solutions with 2 mol m^–3 of nitrogen source asNO₃^–, NH₄⁺ or NH₄NO₃ for 21 d and 18 d, respectively,had their shoots exposed either to 320 µg m^–3 NH₃or to ambient air for 7 d. Variations in plant growth (leaves,stubble and roots), and OH^– and H⁺ extrusions as wellas the relative increases in nitrogen, carbon and carboxylatewere determined. These data were computed as H⁺/N, H⁺/C, (C-A)/N,and (C-A)/C to analyse influences of different nitrogen sourceson acid-base balance in C₃ Triticum aestivum and C₄ Zea maysplants. Root growth in dry weight gain was significantly reduced bytreatment with 320 µg m^–3 NH₃ in Triticum aestivumand Zea mays growing with different N-forms, whereas leaf growthwas not significantly affected by NH₃. In comparison with C₃Triticum aestivum, non-fumigated C₄ Zea mays had low ratiosof OH^–/N in NO₃^–3-grown plants and of H⁺/N in NH₄⁺- and NH ₄NO₃-grown plants. Utilization of NH₃ from the atmospherereduced both the OH^–N ratios in NO₃^– -grown plantsand the H⁺/N ratio in NH₄⁺ - and NH₄NO₃ -grown plants of bothspecies. Furthermore, Zea mays had higher ratios of (C-A)/Nin NH₄⁺ - and NH₄NO₃-grown plants than Triticum aestivum. Thismeans that C₄ Zea mays had synthesized more organic anion perunit increase in organic N than C₃ Triticum aestivum plants.Within both species, different nitrogen sources altered theratios of (C-A)/N in the order: NH₄NO₃>NH₄⁺>NO₃^–.Fumigation with NH₃ increased organic acid synthesis in NO₃^–- and NH₄⁺ - grown plants of Triticum aestivum, whereas it decreasedorganic acid synthesis in Zea mays plants under the same conditions.Furthermore, these differences in acid-base regulation betweenC₃ Triticum aestivum and C₄ Zea mays plants growing with differentnitrogen sources are discussed. Key words: Acid-base balance, ammonia, ammonium, nitrate, ammonium nitrate, C₃ Triticum aestivum L., C₄ Zea mays L.     

Sugar-Controlled Ca2+ Uptake and {alpha}-Amylase Secretion in Cultured Cells of Rice (Oryza sativa L.)

Sugar starvation-induced synthesis and extracellular liberationof -amylase molecules in suspension-cultured cells of rice (Oryzasativa L.) required Ca²⁺, although the level of translatable-amylase mRNA was not affected in the presence of Ca²⁺. Sugardepletion markedly stimulated Ca²⁺ uptake by rice cells andsucrose supplementation reduced it. Immunohistochemical andelectron probe microanalyzer studies indicated an apparent resemblancebetween the distribution pattern of Ca²⁺ and that of -amylasemolecules induced in the sugar-depleted cells. Ca²⁺ uptake wasreduced by sucrose, maltose, fructose, and glucose similarlyat more than 5 mM, but was unaffected by mannitol (88 mM), 6-deoxy-D-glucose(10 mM), and 3-O-methyl-D-glucose (10 mM). Furthermore, an effectiveCa²⁺ channel blocker, La³⁺ significantly inhibited the Ca²⁺uptake and the synthesis and extracellular liberation of -amylasemolecules in the absence of sucrose, while a general P-typeATPase inhibitor, vanadate greatly stimulated both in the presenceof sucrose. We concluded that, by controlling the Ca²⁺ uptake,metabolic sugars regulate the protein synthesis and posttranslationalsecretory processes of -amylase molecules in rice cells. ⁴ Invited research fellow of the Japan Society for the Promotionof Science. Present address: Plant Physiology Department, WarsawAgricultural University, Rakowiecka Str. 26/30 02-528 Warsaw,Poland.