Elicitor Activity of a Fungal Product Assessed at the Single-Cell Level by a Novel Gel-Bead Method

Elicitor from Erysiphe pisi was incorporated into gel beads.Individual beads were placed on single cells from barley coleoptiles.The elicitor induced unusual cytoplasmic responses and temporaryresistance to infection in coleoptile cells. The technique isapplicable to assessment of elicitor activity at the single-celllevel. ¹Contribution no. 118 from the Laboratory of Plant Pathology,Mie University. ²Present address: Laboratory of Plant Pathology & GeneticEngineering, College of Agriculture, Okayama University, Okayama,700 Japan     

Involvement of the Accumulation of Glutamine in the Initiation of Adventitious Buds in Stem Segments of Torenia

Active meristematic divisions in stem segments of Torenia culturedin vitro can be induced in the epidermis by application of cytokininor the calcium ionophore A23187 [GenBank] , resulting in the differentiationof adventitious buds. Endogenous free glutamine accumulatedat a high concentration in the epidermal tissues during theearly stages of such cultures. The accumulation of glutaminewas caused by an increase in glutamine synthetase (GS) activity,and the increase of GS activity was suppressed by the applicationof some inhibitors of GS activity, mRNA synthesis, protein synthesis,or calmodulin. Incorporation of these inhibitors into the culturemedium also inhibited initiation of adventitious buds. The inhibitoryeffect of an inhibitor of GS, methionine sulfoximine (MSX),was apparent only at the very begining of the culture, and theeffect could be overcome by the simultaneous addition of glutamine.The inhibitory action of MSX on initiation of buds seemed tobe caused by an accumulation of ammonium ions. Reduction inlevels of NH₄NO₃ in or its elimination from the culture mediumstimulated the initiation of adventitious buds. Therefore, boththe accumulation of glutamine and the reduction in levels ofammonium ions seem to play a role in the initiation of adventitiousbuds in stem., segments of Torenia. ¹Present address: Faculty of Agriculture, University of Saga,Honjo-cho, Saga, Saga, 840 Japan. (Received October 3, 1988; Accepted March 9, 1989)     

Loss of the Photosynthetic Capacity and Proteins in Senescing Leaves at Top Positions of Two Cultivars of Rice in Relation to the Source Capacities of the Leaves for Carbon and Nitrogen

Senescing leaves are a source organ of both carbon and nitrogenbut, because degradation of chloroplast proteins and exportof their degradation products to sink organs give rise to lossof the photosynthetic capacity, the leaves serve as the sourceof nitrogen only at the cost of their source capacity for carbon.Changes in the photosynthetic capacity and levels of proteinsin leaves at the top four positions of two cultivars of rice,Nipponbare and Akenohoshi, during the ripening stage were investigatedtaking the trade-off relationship between the two source capacitiesinto consideration. Rate of light-saturated photosynthesis (Pmax)in leaves decreased more rapidly in Nipponbare than in Akenohoshiafter heading. Various proteins were also degraded during senescence,with Nipponbare leaves showing faster loss of proteins thanthe corresponding leaves of Akenohoshi. Decline in Pmax wascorrelated, similarly in the two cultivars, with losses of ribulose-l,5-bisphosphatecarboxylase/oxygenase, soluble proteins, chlorophyll a thatbound to the reaction center complexes of the two photosystems,the activity of whole-chain electron transport, and a majorpart of insoluble proteins during senescence. The results suggestthat degradation of proteins during senescence of rice leavesis coordinated so as to enable the leaves to perform photosynthesiswith a high use efficiency of protein and export nitrogen ata low or nearly minimum cost of the source capacity for carbon. ⁵ Present address: Section of Biology, University of California,Davis, California 95616, U.S.A. ⁶ Present address: Faculty of Agriculture, Utsunomiya University,350 Mine-machi, Utsunomiya, 321 Japan.     

Photosynthetic metabolism of 14CO2 in the process of the "glucose-bleaching" of Chlorella protothecoides

Changes in photosynthetic carbon metabolism during the glucosebleaching of Chlorella protothecoides cells were investigatedusing NaH¹⁴CO₃ as tracer. Several hours after incubating thegreen algal cells in the glucose medium in the dark, the ratesof ¹⁴C-incorporation into glucose polymers and sucrose decreasedand the incorporation into the lipid fraction (fatty acids)greatly increased. At this stage, the rate of photosynthetic¹⁴CO₂ fixation and the chlorophyll content were practicallythe same as in the starting green cells. Afterwards, the photosyntheticcapacity and chlorophyll content continued to decrease throughoutthe experimental period. In contrast, when photosynthetic ¹⁴CO₂fixation of green cells was carried out in the medium containingglucose, the rate of ¹⁴C-incorporation into glucose polymersincreased, though there was no change in the incorporationsinto sucrose and the lipid fraction. ¹Part of this investigation was reported at the Conference "ComparativeBiochemistry and Biophysics of Photosynthesis" (Japan-U.S. CooperativeScience Program) held at Hakone, Japan in 1967. ²Present address: Faculty of Agriculture, Tamagawa University,Machida-shi, Tokyo, Japan. (Received June 10, 1974; )     

Translocation of organic compounds in sunflower III. Effect of oligomycin, ouabain and phlorizin on translocation of sugars

The apical portions of intact sunflower leaves were infiltratedwith ¹⁴C-glucose, ¹⁴C-fructose or 3-O-methyl-¹⁴C-glucose andthe basal portions were treated with inhibitors. The effects of oligomycin, ouabain and phlorizin on translocationwere studied. Inhibition of translocation from the basal portionof the leaf to the stem was determined by experiments usingoligomycin. In other experiments, each leaf was divided intothree parts. The apical portion was fed with ¹⁴C-glucose andthe basal part treated with oligomycin. The effects of oligomycinon the distribution of ¹⁴C-glucose, ¹⁴C-sucrose, ¹⁴C-fructoseand ¹⁴C-sugar phosphate along the three parts of the leaf wereinvestigated. Inhibition of sucrose synthesis in the leavestreated with oligomycin was observed. Oligomycin inhibited ¹⁴Ctranslocation from the leaf. ¹Present address: Department of Biology, Faculty of Science,Science University of Tokyo, Kagurazaka, Shinjuku-ku, Tokyo,Japan. (Received August 17, 1978; )     

Induction of Cytosolic Acetyl-Coenzyme A Carboxylase in Pea Leaves by Ultraviolet-B Irradiation

Levels of subunits of two acetyl-coenzyme A carboxylases werehigh in small leaves of Pisum sativum, decreased with growth,and remained constant in fully expanded leaves. Irradiationof fully expanded leaves induced the cytosolic isozyme only.This result suggests a key role for the cytosolic enzyme inprotection against UV-B. ¹Present address: Laboratory of Molecular Genetics, BiotechnologyInstitute, Akita Prefectural College of Agriculture, 2-2 Minami,Ohgata, Akita, 010-04 Japan ²Present address: Laboratory of Plant Molecular Biology, Schoolof Agricultural Sciences Nagoya University, Nagoya, 464-01 Japan     

INCORPORATION OF RADIOACTIVE CARBON FROM H14CO3-INTO SUGAR CONSTITUENTS BY A BROWN ALGA, EISENIA BICYCLIS, DURING PHOTOSYNTHESIS AND ITS FATE IN THE DARK

When the fronds of Eisenia bicyclis were exposed to H¹⁴CO₃^–in the light, the radioactive carbon was rapidly incorporatedinto mannitol. Even after illumination of such a short periodas 5 min, about seventy percent of the total radioactivity incorporatedwas found in this compound, and the specific radioactivity ofthis alcohol decreased very rapidly during the subsequent darkincubation. Among various cellular polysaccharides examined,only laminaran showed a similar quick response with respectto the specific radioactivity change. On the basis of thesefindings it was concluded that mannitol and laminaran form storagesubstances in the brown alga, and they are possibly interchangeableas sucrose and starch do in higher plants. ¹This work was partly reported at the 27th Annual Meeting ofthe Botanical Society of Japan, Nagoya, 1962, and at the 28thAnnual Meeting of the Botanical Society of Japan, Okayama, 1963. ²Contribution from the Shimoda Marine Biological Station, TokyoKyoiku University, No. 149.     

Changes in glutamate dehydrogenase activity in cut-injured sweet potato root tissue

Changes in glutamate dehydrogenase activity in sweet potatoroot tissue in response to slicing were investigated with mitochondrialand supernatant fractions. Results indicated that activity inmitochondrial fraction had decreased, whereas activity in supernatantfraction had increased, 12 hr after slicing. The increase inactivity in the supernatant fraction may be related to the regenerationof phenylalanine, a precursor of polyphenols. ¹This paper constitutes Part 104 of the Phytopathological Chemistryof Sweet Potato with Black Rot and Injury. ²Present address: Laboratory of Biochemistry, Faculty of Agriculture,University of Tokyo, Bunkyoku, Tokyo 113, Japan. (Received August 15, 1972; )     

An effective time for CO2 gas treatment in overcoming self-incompatibility in Brassica

An investigation was made to determine the effective time forCO₂ treatment in overcoming self-incompatibility in Brassica.CO₂ was effective when supplied to a self-pollinated flowerwhile hundreds of pollen grains were germinating on the stigma.Since the effective time coincides with the attachment of pollentubes to papilla cells, it is thought that CO₂ produces a metabolicchange in these cells during attachement. ¹Part of a thesis submitted for the Dr. of Agr. degree by thesenior author at Tohoku University. ²Present address: Faculty of Agriculture, Kobe University, Nada-ku,Kobe, Japan. (Received December 7, 1972; )     

Characterization of Hexose Transporter for Facilitated Diffusion of the Tonoplast Vesicles from Pear Fruit

Tonoplast vesicles were prepared from the flesh tissue of maturepear fruit. Sugar uptakes into the vesicles determined by twodifferent methods, the membrane and the gel filtration methods,were quite similar. The uptake was highest for glucose and subsequently,in order, for fructose, sucrose and sorbitol. It was not stimulatedby addition of ATP, although the vesicles could create a protongradient. However, the uptakes were significantly inhibitedby p-chloromercuribenzene sulphonate (PCMBS, SH-reagent andinhibitor of sugar transporter). Further, the PCMBS-sensitiveuptakes of glucose and fructose saturated with their increasedconcentrations. Thus, these PCMBS-sensitive uptakes are mediatedby the transporter of facilitated diffusion. The uptakes ofglucose or fructose each had two K_m values. K_m values for glucosewere 0.35 and 18 mM, and those for fructose were 1.6 and 25raM. The uptake of 0.2 mM glucose was inhibited by 2 mM fructoseand that of 2 mM fructose was inhibited by 2 mM glucose, butneither was inhibited by sucrose or sorbitol. O-methyl-glucose(OMG) also inhibited both the glucose and fructose uptakes.Therefore, the same transporter may mediate both glucose andfructose uptakes at lower concentrations; this hexose transportsystem differed from the sucrose and sorbitol transport systems. ¹Research Fellow of the Japan Society for the Promotion of Science. ²Present address: Faculty of Agriculture, Tohoku University,1-1 Tsutsumidori-Amamiyamachi, Aoba-ku, Sendai, 981 Japan.     

Studies on chlorophyll formation in Chlorella protothecoides III. Effects of chloramphenicol, cycloheximide, and ethionine on chlorophyll formation

Effects of chloramphenicol, cycloheximide, puromycin and ethionineon the light-independent and subsequent light-dependent processesof chlorophyll formation in "glucose-bleached" cells of Chlorellaprotothecoides were studied. These substances, except puromycin,strongly suppressed different phases of chlorophyll formation.Ethionine most strongly suppressed the light-independent phaseand chloramphenicol an early, relatively short process in thelight-dependent phase of chlorophyll formation. Cycloheximideseverely suppressed all phases of chlorophyll formation. Possibleimplications of these results for the biosynthesis of chlorophyllin algal cells are discussed. ¹ Present address: National Food Research Institute, Ministryof Agriculture and Forestry, Koto-ku, Tokyo 135, Japan. ² Laboratory of Entomology, Faculty of Agriculture, TamagawaUniversity, Machida-shi, Tokyo, Japan (Received October 5, 1972; )     

Demonstration of light-induced potential change in Chara cells lacking tonoplast

Chara cells without tonoplasts, prepared by replacing the cellsap with EGTA-containing media, showed essentially the samepattern of light-induced changes in membrane potential and membraneresistance as normal cells although the concentrations of ionsand ATP in the cytoplasm decreased considerably (1/3–1/10)after loss of the tonoplast. Removal of the tonoplast reducedthe rate of photosynthetic O₂ evolution to about 50% of thatof normal cells but did not affect the magnitude of light-inducedpotential change. Not a full but a certain level of electronflow seems necessary to activate the putative electrogenic H⁺-pump. ¹ Present address: Department of Botany, Faculty of Science,University of Tokyo, Japan. ² Present address: Niigata College of Pharmacy, Niigata 950-21,Japan. (Received September 4, 1978; )     

Photorespiration: stimulation of glycine decarboxylation by oxygen in tobacco leaf disks and corn leaf segments

Glycine decarboxylation, shown by us as an intermediate stepin CO₂ evolution during photorespiration, was enhanced by oxygentensions of up to 100%, whereas CO₂ evolution from glucose didnot increase when oxygen tensions were raised above 20%. Thus,we concluded that enhancement of photorespiration by oxygenis not only due to stimulation of glycolate oxidation, but alsoto stimulation of glycine decarboxylation. ¹ This work was reported at the Annual Meeting (1971) of theJapanese Society of Plant Physiologists in Okayama. ² The Okayama Tobacco Experiment Station, Japan Monopoly Corporation,Tamashima, Kurashiki, Okayama. ³ The Hatano Tobacco Experiment Station, Japan Monopoly Corporation,Naganuki, Hatano, Kanagawa. (Received October 19, 1971; )     

An efficient method of selecting photoautotrophic cells from cultured heterogeneous cells

A new and efficient method was demonstrated for the establishmentof photoautotrophic cultures of plant cells. Leaf segments ofAtropa belladonna, Datura stramonium and Hyoscyamus niger wereinoculated on sugar-free Linsmaier-Skoog agar medium then aeratedwith 1% CO₂ enriched air under 3,000 to 5,000 lux of illumination.Under these regulated conditions we could select photoautotrophicgreen cells efficiently, and these cells subsequently have grownwell under photoautotrophic conditions. ¹Department of Horticulture and Agriculture, Faculty of Agriculture,Kobe University, Kobe 657, Japan (Received June 12, 1980; )     

Partial purification and some properties of an L-{alpha}-amino-S-caprolactam-hydrolyzing enzyme from Cryptococcus laurentii

A new L-amlnolactam-hydrolyzing enzyme was partially purifiedfrom cells of Cryptococcus laurentii which can grow on L-aminolactamas a carbon and nitrogen source. The enzyme required a bivalentmetal ion, such as Mn²⁺ or Mg²⁺, and its molecular weight wasroughly estimated to be 1.5?10⁵ Some other properties were alsostudied. ¹ Present address: Department of Biology, Faculty of Science,Osaka City University Sumiyoshi-ku, Osaka 558, Japan. (Received June 20, 1977; )     

Changes in soluble proteins in potato leaves infected with Phytophthora infestans

A new protein was observed in the electrophoretic gel band ofleaves of cultivar susceptible to Phytophthora infestans, whenthe DNA fraction of a resistant hybrid was applied to the leaves.The Rf value of this band coincided with that of the hybrid6 hr after die inoculation of a race of P. infestans to whichit was resistant. ¹Present adress: Laboratory of Plant Pathology, College of Agriculture.Kyoto University, Kyoto, 606) Japan. ²His former family name was Nakao. (Received December 19, 1975; )     

Properties, development and cellular-localization of cinnamic acid 4-hydroxylase in cut-injured sweet potato

In sweet potato root tissue, cinnamic acid 4-hydroxylase activityincreased markedly in response to cut injury, and reached amaximum after 1 day of incubation. The patterns of developmentand successive decline were similar to those for phenylalanineammonia-lyase activity. The development of both enzyme activitieswas inhibited by cycloheximide. The activity was strictly dependenton pH of the homogenizing and reaction media. The optimum pHof the reaction was 8.0. The respective Km values for trans-cinnamicacid and NADPH were 2.6?10^-5 and 1.8?10^-6M. The activity wasnot affected by ß-mercaptoethanol and the intermediatesand product of the polyphenol biosynthetic pathway. Carbon monoxideinhibited strongly the activity and its inhibition was partiallyprevented by light. Thus, the enzyme may be involved in thecytochrome P-450 mediated electron transport system. Studiesusing differential centrifugation and sucrose density gradientcentrifugation, showed that the intracellular distribution of4-hydroxylase activity differed distinctly from that of themitochondrial marker enzyme and was not in accord with thatof NADPH-cytochrome c reductase activity. ¹This paper constitutes part 114 of the Phytopathological Chemistryof Sweet Potato with Black Rot and Injury. ²Present address: Laboratory of Biochemistry, Faculty of Agriculture,Nagoya University, Chikusa, Nagoya 464, Japan. (Received May 20, 1974; )     

Metabolism of glucose in relation to the lipid synthesis in the fruit of Persea americana MILL.

Studies on the lipogenesis in the fruit of avocado were undertakento elucidate the metabolism of glucose relative to the lipidsynthesis as an important process. The relative participationof the pentose phosphate pathway was determined. Approximately30% of the glucose metabolized by catabolic pathways was directlyoxidized to release carbon dioxide and to provide about 50%of the total reducing power responsible for the fatty acid synthesis.Whereas carbon number 1 of glucose was incorporated into theglyceryl moiety, carbon number 6 was incorporated into the fattyacyl moiety of glycerolipids in the tissue slices of the developingfruit. From the experiments in vitro, it may be concluded that,besides glucose-6-phosphate dehydrogenase, malic enzyme andisocitrate dehydrogenase participate in the provision of NADPH₂for the fatty acid synthesis in the mesocarp of avocado fruit. ¹Present address: Department of Botany, Faculty of Agriculture,Hokkaido University, Sapporo 060, Japan (Received January 13, 1969; )