FLUORESCENCE YIELD OF CHLOROPHYLL A AND PHOTOCHEMICAL ACTIVITIES OF ISOLATED CHLOROPLASTS

1. Effect of various treatments on the fluorescence yield of chlorophyllo in isolated chloroplasts was studied in relation to the activitiesof the HILL reaction and the ascorbate photooxidation.
2. CMUand o-phenanthroline showed no appreciable effect on thefluorescenceyield at the concentration which completely inhibited the HILLreaction.
3. 0.01% SDS was sufficient to inactivate the HILLreaction completelyand caused a 40% decrease in the fluorescenceyield, althoughno shift of the absorption and fluorescencebands could be observed.At higher concentrations of SDS, thefluorescence yield increasedby more than three times the originalvalue and the absorptionand fluorescence bands shifted by 5rap toward the shorter wavelengthside.
4. Ultraviolet irradiation,incubation at pH 9.2, heating at 40and digestion with trypsinresulted in loss of the HILL activityand decrease of the fluorescenceyield.
5. The DPIP-mediated photooxidation of ascorbate was enhancedbyheating broken chloroplasts at 55 for 5 min, and inactivatedat 70. The photooxidation of ascorbate in the absence of thedye was inhibited by 60% on heating at 55. The o-phenanthroline-sensitivephotooxidation of ascorbate was inactivated at 55. The o-phenanthroline-resistantphotooxidation of ascorbate was rather thermostable. The fluorescenceyield was reduced by 40–50% at 55.

¹ Present address: Biological Laboratory, General EducationDepartment, Kyushu University, Otsubo-machi, Fukuoka.     

EFFECT OF LIPASE-DIGESTION ON PHOTOCHEMICAL ACTIVITIES OF ISOLATED CHLOROPLASTS

In order to elucidate the role of lipids in photosynthesis,chloroplasts were digested with lipase, and the effect of lipase-digestionon some photochemical activities was studied. The HILL reactionwas sensitive to the digestion, but chloroplasts having intactmembrane were somewhat resistant to the action of lipase. Theinactivation by lipase digestion seems to be due to the destructionof a component necessary for the Hill reaction to proceed. Thechloroplasts treated with lipase showed the following activities. (1) Active photooxidation of reduced cytochrome c and menadione. (2) Photooxidation of ascorbate, which was enhanced in the presenceof DPIP, and retarded in the absence of the dye. (3) NADP-photoreduction in the presence of the DPIP-ascorbatecouple, as the electron donor. These facts suggested that the site attacked with lipase wasresponsible for the photochemical oxygen evolution. The decrease in the fluorescence intensity of chlorophyll awas also observed during the digestion. ¹Present address : Biological Laboratory, General EducationDeparment, Kyushu University, Otsubo-machi, Fukuoka.     

Light-induced changes of b-type cytochromes in the electron transport chain of Euglena chloroplasts

Light-induced changes of b-type cytochromes in Euglena chloroplastswere studied spectrophotometrically.

1. In the dark and at pH 6.5, most of the cytochrome 558 in chloroplastswas in the reduced state, and most of the cytochrome 563, inthe oxidized state. Illumination of chloroplasts at pH 6.5 induceda rapid, but slight oxidation of cytochrome 552 and cytochrome558. The magnitude of photooxidation of cytochrome 558 was greatlyenhanced by the addition of 3-(3',4'-dichlorophenyl)-1,1-dimethylurea(DCMU). The rate of photooxidation in the presence of DCMU wasstimulated by the addition of 0.15 µM Euglena cytochrome552, or 100 µM methyl viologen.
2. Euglena chloroplasts,incubated at 55°C for 5 min showedno significant absorbancechanges for about 10 min after theonset of illumination. However,greater photooxidation of cytochrome558 was observed afterprolonged illumination, or in the presenceof DCMU or ethylenediaminetetraaceticacid (EDTA). Similar resultswere obtained with chloroplastspre-treated at pH 9.0–10.0for 5 min.
3. At pH 9.5, andin the dark, both cytochrome 563 and cytochrome558 were inan almost reduced state. On illumination at thispH, both cytochromeswere photooxidized, with a complicatedkinetics, showing aninitial rapid and small absorbance decrease,followed by a stagnantphase of temporary retarded reaction.In the presence of DCMUor EDTA, photooxidation proceeded rapidlywithout a stagnantphase.
4. At pH 6.5 cytochrome 558, on cessation of illumination,wasquickly reduced to the initial level. At pH 9.5, there wasalsoappreciable re-reduction of cytochrome 558 and 563 whenthelight was turned off at an early stage of illumination.Theamounts of re-reduction of the cytochromes in the subsequentdark period, however, decreased as photooxidation of cytochromesproceeded. This decrease was accelerated by the presence ofDCMU.
5. At pH 9.5 ascorbate and manganese served as electrondonorsfor die DCMU-sensitive photooxidation of cytochromes558 and563.
6. Experimental results are discussed with specialreference tothe occurrence of two pools of electron carriers,one at thereducing side and the other at the oxidizing sideof photosystem2. The role of manganese in the latter pool ofelectron carriersis also discussed.

(Received March 11, 1970; )     

Studies on cytochromes in photosynthetic electron transport system I. photoreduction and photo-oxidation of cytochrome b559 by photosystem II in spinach chloroplasts

Light-induced redox-reactions of cytochrome b₅₅₉ in spinachchloroplasts were investigated. Illumination of chloroplastsinduced photoreduction of cytochrorne b₅₅₉ Red light (650 nm)was more effective than far-red light (725 nm), indicating thatthe photoreduction is a photosystem II-mediated reaction. Onaddition of DCMU, the photoreduction was eliminated and a photooxidationof cytochrome b₅₅₉ was observed. The rate of this photooxidationwas faster with photosystem II light than with photo-systemI light. On addition of Mn⁺⁺ the photooxidation was partly suppressed;far-red light became as effective as red light in inducing photooxidationof cytochrome b₅₉₉, in the presence of DCMU and Mn⁺⁺. Ascorbate completely suppressed photooxidation of cytochromeb⁵⁵⁹ In the presence of ascorbate, however, photooxidation wasobserved in the presence of inhibitors or after inhibitory treatmentsof chloroplasts which affected the oxidizing side of systemII. These inhibitors and inhibitory treatments, but not DCMU,decreased the redoxpotential of cytochrome b₅₅₉. Reactivationof Hill reaction in Tris-washed chloroplasts by indophenol-ascorbatetreatment was not accompanied by an abolishment of photooxidationof cytochrome b₅₅₉. A possible mechanism is proposed to account for these reactionsof cytochrome b₅₅₉ in the photosynthetic electron transportin chloroplasts. (Received April 4, 1972; )     

A Quantitative Study of Mitosis in Eudorina elegans in Culture

A list of the determinations in this work is given below:

1. Under standard conditions with a photoperiod, the generationtime is five days. The generation time is shorter in continuouslight.
2. There are temperature-dependent cleavage and mitoticgradientswithin a colony.
3. A diurnal peak of mitosis occurstwo hours before the onsetof darkness.
4. Under standard conditions(a) the mitotic index rises to a maximumof 10 per cent, twodays after inoculation; (b) the mitotictime is ten minutes;and (c) the mitotic rate is 71 cells per10³cells per hour atthe mitotic peak.

     

PHOTOCHEMICAL REDUCTION AND OXIDATION OF MENADIONE (VITAMIN K3) IN CHLOROPLASTS

1. Menadione (vitamin K³) was found to be completely reduced byilluminated spinach chloroplasts under highly anaerobic conditionand in the presence of ethylenediamine tetraacetate (EDTA) inthe reaction mixture. This photoreductive reaction is sensitivetoward heat-treatment and inhibited by 2?10^-3M hydroxylamine.
2. In the presence of oxygen, the reduced form of menadione israpidly photooxidized by chloroplasts. This photooxidative activityalso is suppressed by heat-treatment but not inhibited by hydroxylamine.
3. Dyes which are inefficient as HILL oxidants such as thionineand methylene blue were found to be readily reduced by illuminatedchloroplasts, if the experimental conditions were appropriateto prevent the reoxidation of the photoreduced dyes; i.e., exhaustiveremoval of oxygen and the addition of EDTA in the reaction mixture.Menadione was found to accelerate the HILL reaction with thesedyes as oxidant under such experimental conditions.
4. In thepresence of molecular oxygen in the reaction mixture,menadionewas found to inhibit the HILL reaction with 2,6–dichlorophenolindophenol as oxidant, while the reaction rate was little influencedin high anaerobiosis.
5. These findings are explained by theintermediary oxidation and(photo-) reduction of menadione asan intermediary hydrogencarrier, and by the trends toward rapidphotooxidation of reducedmenadione.

(Received July 2, 1960; )     

Light-reactivation of (Tris-washed) -DPIP-treated chloroplasts : manganese incorporation, chlorophyll fluorescence, action spectrum and oxygen evolution

Incorporation of ⁵⁴Mn into Tris (pH 8.8, 1 hr)-washed chloroplastsand oxygen evolving activity were stimulated by DPIP treatmentand light-reactivation, but inhibited by atebrin, DCCD, gramicidinJ, DCMU and EDTA. Omission of DTT on the light-reactivationresulted in accumulation or deposit of Mn in chloroplasts whichhad no function for the recovery of oxygen-evolving activity.The chlorophyll fluorescence quenched by Tris-washing was restoredby DPIP-treatment and light-reactivation. The chloroplast structure,monitored by its packed volume and optical density at 750 nm,changed reversibly with inhibition and DPIP-treatment. The actionspectrum of light-reactivation suggested that the effectivelight-receptor might be photosystem II. ¹ Present address: Department of Biological Science, TsukubaUniversity, Niihari, Ibaragi 300-31, Japan. (Received January 7, 1976; )     

The Hill reaction and oxygen uptake in isolated pine chloroplasts

1. The Hill reaction and oxygen uptake in chloroplasts preparedfrom pine leaves were studied. Pine chloroplasts active forthe Hill reaction were isolated from mature leaves in the presenceof 25% PEG in the isolation buffer. Time courses of the Hillreaction in chloroplasts isolated from leaves at different seasonsdiffered. In chloroplasts isolated in the autumn, Hill activitydecreased rapidly with illumination time. This rapid decreaseof Hill activity was inferred to result from concomitant productionof some inhibitory substance(s) during the Hill reaction.
2. Theprotective effect of PEG on inactivation by aging of pinechloroplastswas found. In the presence of PEG, chloroplastswere stabilizedand Hill activity was maintained even afterstorage for 26 hr;whereas, in the absence of PEG inactivationby aging proceededrapidly and oxygen uptake occurred after20 hr.
3. Chloroplastsisolated without PEG had no ability of the Hillreaction; but,inversely showed pronounced oxygen uptake. Oxygenuptake wasalso observed in aged or DCMU-inhibited chloroplasts.The presenceof benzoquinone strongly suppressed oxygen uptake.

¹ Present address: Laboratory of Biology and Chemistry, Universityof Naval Architecture of Nagasaki, Nagasaki, Japan. (Received January 27, 1971; )     

Microbiological Synthesis of Fat: THE EFFECTS OF NITROGEN LEVEL ON THE METABOLISM OF PENICILLIUM LILACINUM THOM IN A SUCROSE MEDIUM

1. A study has been made of the relationships between the synthesesof carbohydrate, protein, and fat by Penicillium lilacinum Thomin presence of different amounts of sodium nitrate us a definedsucrose salts medium.
2. Under the defined experimental conditionsincreases in the concentrationof NO^–₂ in the medium werefollowed by increases in therates at which nitrogen and sugarwere taken up by the fungus,in the quantities assimilated,and in total and protein nitrogenin the felt. These conditionsprevailed so long as unassimilatedsugar was available.
3. Mediaof lower NO^–₃ concentration (for example, 0·32or 0·64 per cent. (w/v) NaNO^–₂;) yielded feltsricher in carbohydrate than were those grown in media of higherNO^–₂; content (0·96 or 1·28 per cent. (w/v)NaNO₃ The carbohydrate content of the felts increased graduallyuntil the sugar in the medium was exhausted; carbohydrate contentthen decreased.
4. Media of lower NO^–₃; concentration weremore conduciveto fat synthesis than those of higher NO^–₃;content.

     

COMPONENTS OF THE ELECTRON-TRANSFERRING SYSTEM IN ACETOBACTER SUBOXYDANS AND RECONSTRUCTION OF THE LACTATE OXIDATION SYSTEM

1. Cytochromes a₁⁵⁹⁰, b⁵⁶⁰, c₁⁵⁵⁴ and c₁⁵⁵² were isolated andpurifiedfrom a strain of Acetobacter suboxydans. The proceduresusedwere described in detail.
2. The main cytochrome band at550-560 mµ in intact cellssplitted at liquid air temperatureinto two bands, 551 mµ(strong) and 559 mµ (weak).
3. Optical and physiological properties of the four cytochromeswere investigated. Lactic dehydrogenase activity was found tobe associated with cytochrome c₁⁵⁵⁴. The two c₁-type cytochromes,especially cytochrome c₁⁵⁵⁴, persisted in their reduced formafter the purification through many steps.
4. By some combinationsof isolated components reconstruction ofthe oxygen uptake systemcould be realized.
5. The oxygen-consuming activity of purifiedoxidase preparationswas accelerated by a-tocopherol but notby Emasoll 4130 andTween 80.
6. Some discussions were made onthe nature of terminal oxidase,the role of cytochrome c₁⁵⁵²in the electron-transport system,and persistence of reducedstate of c₁-type cytochromes.
7. A possible scheme of the electron-transferringsystem of Acetobactersuboxydans was presented.

(Received May 16, 1960; )     

STUDIES ON CHLOROPHYLLASE OF CHLORELLA PROTOTHECOIDESI. ENZYMATIC PHYTYLATION OF METHYL CHLOROPHYLLIDE

1. The relation between chlorophyll content and the hydrolyticactivity of chlorophyllase in Chlorella protothecoides was examined.An increase in the activity was parallel to that in chlorophyllcontent during the development of green colouration, or greeningcourse, in the bleached cells. The activity sharply declinedand a parallel disappearance of chlorophyll was also found duringbleaching of the green cells.
2. A partially purified water-solublepreparation of chlorophyllasewas obtained by n-butanol treatmentand fractionation with coldacetone. It showed high activityand hydrolyzed 2 mg chlorophylla per hr per mg protein.
3. Forseparation and identification of the pigments concernedin thechlorophyllase reaction, a new solvent system of paperchromatographywas introduced.
4. When methyl chlorophyllide a and phytol wereincubated withthe enzyme, two products were formed. By comparisonwith theRf values of isolated pure substances, one was identifiedaschorophyll a and the other as chlorophyllide a. This enzymedid not catalyze the phytylation of free chlorophyllide a, butit had the ability to attach phytol to methyl chlorophyllidea. The final step in the biosynthesis of chlorophyll a is brieflydiscussed.

¹ Contribution No. 158 from the Department of Biology, Facultyof Science, Kyushu University. Supported in part by a grant-in-aidfor Fundamental Scientific Research from the Ministry of Education.     

Biological activity of phyllosinol, a phytotoxic compound isolated from a culture filtrate of Phyllosticta sp.

1. Phyllosinol is a phytotoxic metabolite of Phyllosticta sp. Thissubstance at 100 µg/ml produced dark grey necrotic lesionson the leaf of red clover. Sensitivities of various plant speciesto phyllosinol differed both quantitatively and qualitatively.
2. Phyllosinol reduced root growth in rice seedlings by 60% at10^–4 M, whereas stimulation of root elongation occurredat a concentration range from 10^–9 to 10^–5 M.
3. Phyllosinolat 2.5x10^–4M promoted adventitious root formationin epicotylsof Azukia cuttings by about 100%. Promotion waspartly reducedby simultaneous application of cysteine.
4. IAA-induced elongationof isolated Avena coleoptile sectionswas inhibited by phyllosinolat a concentration range from 10^–5to 10^–3M.
5. Sulfhydrylcompounds, i.e. cysteine and glutathione relievedinhibitioncaused by phyllosinol in IAA-induced elongation ofAvena coleoptilesections.
6. GA₃-induced elongation of wheat leaf sections wasslightly inhibitedby phyllosinol at 10^–4M.
7. Phyllosinolalso has antibiotic activity. Among the organismstested, Phycomycetesand Gram-negative bacteria appeared mostsusceptible to phyllosinol.

(Received April 21, 1970; )     

PHOTOCHEMICAL ACTIVITIES OF SONICATED LAMELLAE OF SPINACH CHLOROPLASTS WITH SPECIAL REFERENCE TO THE ACTION OF CRS (CYTOCHROME C REDUCING SUBSTANCE)

The photooxidation of reduced DPIP with NADP and O₂ as finalelectron acceptors was studied with sonicated lamellae of spinachchloroplasts, with special reference to the possible role ofCRS, a newly discovered factor of photochemical system I. Acorrelation between inactivation of NADP-photoreduction anddissolution of CRS was observed on treatment of the lamellaewith various organic solvents. The treatment also suppressedthe O₂-linked photooxidation of reduced DPIP, although the suppressionwas not so marked as in the former reaction. The suppressedphotooxidation of reduced DPIP (with O₂ and NADP as electronacceptors) was partially restored on addition of dyes of negativeredox potential, such as methyl viologen. The experimental resultsindicate that a factor participates in the reactions of photochemicalsystem I, probably functioning as an electron carrier couplingthe photooxidation of P700 with the reduction of ferredoxinor O₂. The finding that the above mentioned activity of thefactor is destroyed by treatments which are effective in solubilizingCRS from the chloroplasts suggests the identity of the factorwith CRS. ¹ Present address: Nomura Research Institute of Technology andEconomics, Kamakura, Kanagawa.     

The Time Factor in Studies of Growth Inhibition in Excised Organ Sections

1. Apprehension over the adequncy of current techniques stimulateda detailed study of the time factor in the arsenate inhibitionof growth and respiration in excised stem and root sectionsof Pisum sativum.
2. Growth inhibition by arsenate sets in veryslowly, its rateof onset being related to the molar concentration(C) of arsenateate by the relation where T₅₀ is the time taken in hours to reduce the growthrateto 50 per cent of the control and K is a constant. An explanationof the physiological basis of this relationship is attempted.
3. Estimates were made of the final steady growth rate (relativeto control) in various arsenate concentrations. The inhibitionscalculated from this rate are held to approximate to the truearsenate effect and are shown to be very different from thosecalculated from ‘total growth’ measures.
4. Respirationof growing stem sections is not inhibited by thelow arsenateconcentrations that inhibit growth. Some inhibitionis indicatedat high concentrations (3 ? 10^–4M. and over)but onlyafter 15-20 hours of exposure.
5. Two per cent sucrose has noeffect on the arsenate inhibiitionof stem growth. Sucrose,however, markedly stimulates respirationin stem sections, butthis stimulation is prevented by arsenate.
6. The misinterpretationswhich may arise as a result of ignoringthe time factor in inhibitionstudies in excised organ sectionsare discussed and the desirabilityof constructing completegrowth curves in all such studies isstressed.

     

Two modes of inhibition by 2-heptyl-4-hydroxyquinoline- N-oxide of electron transport associated with photosystem 2 in spinach chloroplasts

2-Heptyl-4-hydroxyquinoline-N-oxide (HOQNO) exerted two modesof inhibition on the Hill reaction in spinach chloroplasts.The first mode of inhibition by HOQNO, which developed rapidlyand reversibly on addition of the inhibitor to chloroplasts,was observed in the Hill reaction with various electron acceptorsand in photoreduction of methyl viologen with ascorbate as electrondonor, but was not observed in methyl viologen photoreductionsupported by reduced DPIP. Fifty percent inhibition of the Hillreaction was obtained with HOQNO at a low concentration of theorder of 10^–6 M. Besides the fast-developing inhibition, HOQNO caused a progressivedecrease in the Hill activity during the reaction when ferrricyanidewas used as electron acceptor. Similar time-dependent inactivationoccurred when chloroplasts were incubated with HOQNO and ferricyanidein the dark. Chloroplasts, thus inactivated, showed loweredactivity for ascorbate-supported methyl viologen photoreductionbut had unchanged activity for photoreduction with reduced DPIPas electron donor. Progress of the time-dependent inhibitionwas accelerated by increasing the concentration of HOQNO orferricyanide and was suppressed by addition of ferrocyanide.On changing the ratio of ferri- to ferrocyanide in the reactionmedium, fifty percent protection of the Hill activity was obtainedwith a ferri- and ferrocyanide mixture giving the redoxpotentialof 560 mv. A simple kinetic model for the second time-dependentinhibition by HOQNO is presented. ¹ Present address: Department of Botany, Faculty of Science,Toho University, Narashino 275, Chiba, Japan. (Received January 19, 1971; )     

"GIGANTISM" OF CHLORELLA VULGARIS I. RELATION OF GIGANTISM TO CELL GROWTH AND DIVISION

1. The sugars which induced gigantism of Chlorella cells wereglucose,fructose, galactose, mannose, xylose and arabinose.These sugarswere utilized as respiratory substrates by thealgal cells.
2. The cellular division of Chlorella was stimulatedby glucoseand galactose, but suppressed by fructose, mannose,xylose andarabinose, while all these sugars evoked gigantism.No correlationwas found between cellular division and gigantism,
3. The photosynthetic activity of giant Chlorella varied withthesorts of sugars added. It was decreased by glucose, fructoseand mannose, but was unaffected by other sugars such as galactose,xylose and arabinose.
4. The respiratory activity of giant Chlorellacells as much higherthan that of control cells.
5. The amountsof protein-N and dry weight per unit volume of giantChlorellawere much less than those of control cells.

¹ Present address: Department of Chemistry, College of GeneralEducation, Osaka University, Toyonaka, Osaka.     

THE DISTRIBUTION OF FORMYLTETRAHYDROFOLATE SYNTHETASE IN PLANTS, AND THE PURIFICATION AND PROPERTIES OF THE ENZYME FROM PEA SEEDLINGS

1. Formyltetrahydrofolate synthetase (E. C. 6. 3. 4. 3) was foundto be widely distributed in higher plants and the high enzymeactivity was observed in green leaves of Brassica and Alliumspecies, spinach, and in pea seedlings. In pea seedlings, theenzyme activity changed during the course of germination, andmost of the enzyme activity was located in a soluble fractionof the cytoplasm.
2. The enzyme was labile and lost the activityrapidly, even whenstored at 5 in the presence of 0.1 M mercaptoethanol.It was,however, found that ammonium sulfate was very effectivein stabilizingthe enzyme activity.
3. The enzyme has been purifiedapproximately 500-fold from extractsof pea seedlings by treatmentswith ammonium sulfate, protaminesulfate, hydroxylapatite, calciumphosphate gel, and DEAE-cellulosecolumn chromatography.
4. Thepurified enzyme was specific for formate, ATP and FAH₄,andthe Michaelis constants for these reactants were 2.1 10^–2M, 5.1 10^–4 M, and 5.6 10^–3 M, respectively.
5. The optimum pH was found to be 8.0, and the optimal temperaturewas observed at 37. Both NH₄^$ and a divalent cation (Mg^SS orMn^SS) were required for the optimal activity.

¹ Studies on the Enzymatic Synthesis and Metabolism of FolateCoenzymes in Plants. II. (For the previous paper see reference(8)) A part of this paper was presented at the Meeting of theKansai Division of the Agricultural Chemical Society of Japan,Kyoto, January 29, 1966.     

Microbiological Synthesis of Fat: PRELIMINARY SURVEY OF THE FAT-PRODUCING MOULDS

1. A survey of potential fat-producing moulds has shown that atleast 40 strains from 10 species are of interest.
2. These havebeen grown on five different media and A. nidulans,P. spinu-losum,P. javanicum, P. piscarium, P. flavo-cinereum,P. oxalicum,A. flavus, A. flavipes have shown the most promise.
3. The fatcontent on felt weight was maximal at 39?7 per cent,with A.flavipes and 34?6 per cent, with F. lini, and on usedsugarwas maximal at 9?3 per cent, with A. flavipes and 6?7per cent,with A. nidulans.
4. The potential value of micro-organisms asfat producers is discussedwith reference to the moulds.

     

Inactivation of Ascorbate Peroxidase in Spinach Chloroplasts on Dark Addition of Hydrogen Peroxide: Its Protection by Ascorbate

Dark addition of hydrogen peroxide to intact spinach chloroplastsresulted in the inactivation of ascorbate peroxidase accompaniedby a decrease in ascorbate contents. This was also the casein reconstituted chloroplasts containing ascorbate, NADP⁺, NAD⁺and ferredoxin. The addition of hydrogen peroxide during light,however, showed little effect on ascorbate contents and ascorbateperoxidase activity in either the intact or reconstituted chloroplasts.In contrast to ascorbate peroxidase, the enzymes participatingin the regeneration of ascorbate in chloroplasts (monodehydroascorbatereductase, dehydroascorbate reductase and glutathione reductase)were not affected by the dark addition of hydrogen peroxide.Ascorbate contents increased again by illumination of the chloroplastsafter the dark addition of hydrogen peroxide. These resultsshow that the inactivation of the hydrogen peroxide scavengingsystem on dark addition of hydrogen peroxide [Anderson et al.(1983) Biochim. Biophys. Acta 724: 69, Asada and Badger (1984)Plant & Cell Physiol. 25: 1169] is caused by the loss ofascorbate peroxidase activity. Ascorbate peroxidase activitywas rapidly lost in ascorbate-depleted medium, and protectedby its electron donors, ascorbate, isoascorbate, guaiacol andpyrogallol, but not by GSH, NAD(P)H and ferredoxin. (Received June 14, 1984; Accepted August 15, 1984)     

Coupling of malate decarboxylation to CO2 fixation and the reduction of 3-phosphoglyceric acid in corn bundle sheath cells,2

1. In the presence of NADP⁺ and Mg⁺⁺, the bundle sheath strandsisolated from corn (Zea mays) leaves by cellulase treatmentsdecarboxylated malate in the light at an initial rate (200 µmoles/mgchl.hr), which was sufficient to account for photosyntheticCO₂ fixation in intact leaves. This rate gradually slowed downand then stopped. The final level of the malate decarboxylatedwas approximately equal to the amount of NADP⁺ added.
2. Rapidand continued decarboxylation of malate was observed whenNADP⁺,3-phosphoglyceric acid and ATP (and Mg⁺⁺) were addedtogether.The addition of ADP instead of ATP showed a similareffect.Light did not show any effect on the malate decarboxylationin the presence of ATP or ADP.
3. When malate was added to thebundle sheath strands in the presenceof exogenous NADP⁺ NADP⁺was rapidly reduced. The reductionstopped after 2 min when,73% of the added NADP⁺ was reduced.The further addition of3-phosphoglyceric acid and ATP broughtabout a decrease in theNADPH-level, which rose again to attaina new steady level.
4. The transfer of radioactivity from (1-¹⁴C-3-phosphoglycericacid to dihydroxyacetone phosphate in the bundle sheath strandsin the presence of ATP and NADP⁺ was greatly enhanced by theaddition of malate.
5. In the presence of ribose 5-phosphateand ATP, the rate of ¹⁴C-transferfrom (4-¹⁴C)-malate to theintermediates of the reductive pentosephosphate cycle was equalto that of ¹⁴CO₂ fixation in the light.

All these results support the current view that in the bundlesheath cells of C₄ plants belonging to the NADP-malic enzyme-group,the decarboxylation of malate is coupled to the fixation ofthe released CO₂ and the reduction of 3-phosphoglyceric acidformed as a result of CO₂ fixation. ¹ Part of this research was reported at the 40th Annual Meetingof the Botanical Society of Japan Osaka, December, 1975. ³ Present address: Laboratory of Chemistry, Faculty of Medicine,Teikyo University, 359 Otsuka, Hachioji-City, Tokyo 173, Japan. (Received April 30, 1977; )