LACTATE OXIDATION SYSTEM IN ACETOBACTER SUBOXYDANS, WITH SPECIAL REFERENCE TO CARBON MONOXIDE-BINDING PIGMENT

1. Lactate oxidation system was investigated in Acetobacter suboxydans,which was found to have cytochromes a and b, but no cytochromec. Haemoprotein 558 was also found to exist.
2. Carbon monoxideinhibited the lactate oxidation in the darkbut not in the light.WARBURG'S partition constant was estimatedto be 7.
3. Additionof haemoprotein 558 noticeably enhanced the oxygenuptake bythe LDH preparation, which was obtained from bacterialcellsand partially purified.
4. Haemoprotein 558 has protohaem asits prosthetic group. Notonly its absorption spectrum is reminiscentof that of peroxidase,but it also shows peroxidase-like reactivitywith some ligandswith a few exceptions.
5. Ferrohaemoprotein558 reacts with oxygen, forming, at first,a complex, whichhas its SORET absorption peak at 423 mµ.The absorptionmaximum then shifts to 417 mµ, indicatinga transformationto another compound. One of these two productsis likely tobe the oxygenated ferro-haemoprotein 558.
6. The mutual transformationbetween cytochrome B and haemoprotein558 is discussed.

(Received October 8, 1965; )     

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; )     

Cytochrome b-563 redox changes in intact CO-fixing spinach chloroplasts and in developing pea chloroplasts.

Intact spinach chloroplasts, capable of high rates of photochemical oxygen evolution with CO2 as electron acceptor (120-350 mumol O2 mg chlorophyll-1 h-1) were examined for cytochrome redox changes. The response of the cytochromes in intact chloroplasts to oxidants and reductants appears to be governed by the permeability of the chloroplast envelope. The low potential cytochromes (b-559LP and b-563) were more slowly reduced at 25 degrees C by dithionite than is the case with broken chloroplasts. At 0 degrees C, the reduction of the low potential cytochromes in intactchloroplasts was extremely slow. The chloroplast envelope is impermeable to ferricyanide, slowly permeable to ascorbate and rapidly permeable to reduced dichlorophenolindophenol. Light-induced redox changes of cytochrome b-563 in intact chloroplasts were examined both at 0 degrees and 25 degrees C. A red/far-red antagonism on the redox changes of cytochrome b-563 was observed at 0 degrees C under anaerobic conditions. 3-(3,4-dichlorophenyl)-1, 1-dimethlyurea (DCMU) inhibited the photoreduction of cytochrome b-563 in red light following far-red illumination. The photooxidation of cytochrome b-563 under anaerobic conditions was not influenced by DCMU or 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB). The photoreduction of cytochrome b-563 under aerobic conditions was much less efficient than its photooxidation under anaerobic conditions. Developing pea chloroplasts showed much greater light-induced redox changes of cytochrome b-563 than did intact spinach chloroplasts. Our data are consistent with the view that cytochrome b-563 functions on a cyclic pathway around Photosystem I, but it appears that cyclic flow is sensitive to the relative poising of the redox levels of cytochrome b-563 and the components of the non-cylic pathway.     

Dual roles of ubiquinone as primary and secondary electron acceptors in light-induced electron transfer in chromatophores of Chromatium D.

The effects of isooctane-extraction on the quantum yield ofphotooxidation of cytochromes in chromatophores of Chromatiumvinosum, strain D, were investigated. The initial rate of photooxidation of cytochrome c-555 in theisooctane-extracted chromatophores was decreased by repeatedor prolonged preillumination in the presence of 30 mM ascorbate.The minimum number of light quanta absorbed during preilluminationto cause the maximum decrease in the photooxidation of cytochromec-555 was about 2% of the number of bacteriochlorophyll moleculespresent. In the absence of ascorbate no lowering of the initial rateof cytochrome photooxidation was observed after prolonged orrepeated illumination. No decrease in the initial rate due topreillumination was observed in lyophilized or ubiquinone-readdedchromatophores. The initial rate of photooxidation of both the cytochromes c-555and c-552 in partially isooctane-extracted chromatophores (50–90%extraction of ubiquinone) was also decreased by repeated orprolonged illumination in the presence of 30 mM ascorbate. Our previous and present studies indicate that about 10% ofthe total ubiquinone- 7 functions as the primary electron acceptorfor the photooxidation of cytochrome c-552, and that the majorpart of the ubiquinone functions as the common secondary electronacceptor for the photooxidation of cytochromes c-555 and c-552in Chromalium chromatophores. Therefore, ubiquinone probablyhas dual roles in the light-induced electron transfer of Chromatiumchromatophores. (Received July 23, 1975; )     

Characterization of new strains of nonphotosynthetic mutants of Chlamydomonas reinhardtii II. Quinones and cytochromes b-559, b-563 and c-553 in twelve mutants having impaired Photosystem II function

Twelve new strains of nonphotosynthetic mutants of Chlamydomonasreinhardtii having impaired functioning of Photosystem II werestudied with respect to their quinone and chloroplastic cytochromecontents and to various photooxidation reactions of cytochromesb-559 and c-553. The quinones were analyzed by chromatography,cytochromes b-563 and c-553 were measured spectrophotometricallyafter solubilization by Triton X-100, and cytochrome b-559 wasstudied by means of low-temperature difference spectra. Noneof these mutants showed a great deficiency of plastoquinoneA, ubiquinone Q9, cytochrome b-563 or cytochrome c-553. Butall lacked an ascorbate-reducible pool of cytochrome b-559 photooxidizableat 77?K. In spite of this deficiency, five mutants (Fl 18, Fl29, Fl 47, Fl 50, Fl 59) showed an appreciable photooxidationof cytochrome b-559 in the presence of FCCP at room temperature.The other strains performed only weak cytochrome b-559 photooxidationin the presence of FCCP, DCMU and DBMIB or p-benzoquinone (Fl39, Fl 42, Fl 52, Fl 54, Fl 57, Fl 60); in the mutant Fl 33,no cytochrome photooxidation was observed. These results pointed out that the pool of ascorbate-reduciblecytochrome b-559 photooxidizable at 77?K is different from thepool photooxidizable in the presence of FCCP at room temperature. (Received February 8, 1979; )     

Changes in Light-Induced Electron Transfer Through Cytochrome b-563 Depending on the Oxidation-Reduction Conditions in Intact Cells of the Cyanobacterium Synechocystis PCC 6714

Flash-induced redox changes of cytochrome b-563 were studiedin intact cells of the cyanobacterium Synechocystis PCC 6714.The redox reactions of this cytochrome depended on the redoxstate of the electron transport system, as determined by a balancebetween the influx of electron from substrates and the effluxto molecular oxygen. Under aerobic conditions, flash-inducedchanges in cytbchrome b-563 were almost insignificant in thephotoheterotrophic cells grown in the presence of DCMU (0.1mM) and glucose (60 mM), whereas a rapid reduction of the cytochrome,followed by a re-oxidation, was clearly observed when the respiratoryoxidase was inhibited by KCN (1 mM). Under anaerobic conditions,when cytochrome b-563 was fully reduced in the dark, a prominentoxidation of the cytochrome was observed after a flash; thesubsequent re-reduction was very slow. The oxidation of cytochromeb-563 was inhibited by the addition of 2-heptyl-4-hydroxyquinolineN-oxide (HQNO). These results suggest that electron transferin the cytochrome bf complex occurs by a modified Q-cycle mechanism,the reaction sequence of which depends on the redox states ofcytochrome b-563 and plastoquinone. Flash-induced oxidationand reduction of cytochrome b-563 in cells grown under photoautotrophicconditions were less prominent, but the patterns of the reactionswere consistent with the suggested interpretation. (Received May 9, 1988; Accepted August 15, 1988)     

STUDIES ON ALGAL CYTOCHROME: I. ENZYMIC ACTIVITIES PERTAINING TO PORPHYRA TENERA CYTOCHROME 553 IN CELL-FREE EXTRACTS

1. Enzymic activities pertaining to Porphyra tenera cytochrome553 were investigated with cell-free extracts of a red alga,Porphyra tenera, and various fractions prepared therefrom.
2. Thealgal extracts were found to be incapable, in the dark,of catalyzingoxidation of reduced cytochrome 553 at a ratesufficient toaccount for the respiratory oxygen-uptake in theintact cell.Oxidation of cytochrome 553 was highly acceleratedon illumination.The former reaction was found to be cyanide-sensitiveand thelatter, cyanide-insensitive. Both activities were foundto belocalized in the particulate fraction of the cell extract.
3. Significantactivities of reduced pyridine nucleotide-cytochromereductasewere discovered in the soluble fraction of the cellextract,the reaction being two or three times faster with TPNHthanwith DPNH as electron donor. There was no reaction withsuccinatein the presence of cytochrome and 2,6–dichlorophenolindophenol.
4. Porphyra tenera cytochrome 553 was shown to be localized inthe plastids of the algal cell.
5. Possible functions of cytochrome553 in the algal metabolismwere discussed.

     

Localization of the reaction site of cytochrome 552 in chloroplasts from Euglena gracilis. Effects of a specific antibody on endogenous, external and reincorporated cytochrome 552 in chloroplast membranes

Euglena chloroplasts, isolated by Yeda press treatment contain endogenous cytochrome 552. Antibodies against cytochrome 552 from Euglena gracilis do not agglutinate chloroplasts and do not inhibit photosynthetic electron flow from water to NADP⁺. There is also no influence on cyclic photophosphorylation with phenazine methosulfate as mediator and on photooxidation of endogenous cytochrome 552. However, in the presence of cholate the photooxidation of the cytochrome is inhibited by antibodies.Cyclic photophosphorylation is not restored by addition of cytochrome 552 to the assay mixture but is stimulated by trapping the cytochrome in the thylakoid vesicles during sonication.Trapped cytochrome 552 is not accessible to antibodies. It is concluded that the original site of action for endogenous cytochrome 552 is inside the thylakoids. This site can be dislocated to the outside during fragmentation of chloroplasts.     

Reactions of b-cytochromes in the red alga Porphyridium aerugineum

1. 1. The kinetics of light-induced absorbance changes due to oxidation and reduction of cytochromes were measured in a suspension of intact cells of the unicellular red alga Porphyridium aerugineum. Absorbance changes in the region 540–570 nm upon alternating far-red light and darkness indicated the oxidation of cytochrome ƒ and reduction of cytochrome b₅₆₃ upon illumination. The relative efficiencies of far-red and orange light indicated that both reactions were driven by Photosystem I.

2. 2. Experiments with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), with anaerobic cells and in alternating far-red and orange light indicated that cytochrome b₅₆₃ reacts in a cyclic chain around Photosystem I, and that the reduced cytochrome does not react with oxygen or with another oxidized product of Photosystem II. The quantum requirement for the photoreduction was about 6 quanta/equiv at 700 nm. A low concentration of N-methylphenazonium methosulphate (PMS) enhanced the rate of reoxidation of cytochrome b₅₆₃ in the dark. In the presence of higher concentrations of PMS a photooxidation, driven by Photosystem I, instead of reduction was observed. These observations suggest that PMS enhances the rate of reactions between reduced cytochrome b₅₆₃ and oxidized products of Photosystem I.

3. 3. In the presence of carbonylcyanide m-chlorophenylhydrazone (CCCP) a light-induced decrease of absorption at 560 nm occurred. Spectral evidence suggested the photooxidation of cytochrome b₅₅₉ under these conditions. Inhibition by DCMU and a relatively efficient action of orange light suggested that this photooxidation is driven by Photosystem II.

PHOTOOXIDATION REACTIONS BY CHLOROPLASTS SOLUBILIZED WITH SURFACE-ACTIVE AGENTS

1. Solubilization of chioroplasts with a mixture of 1 per centDuponol C and 1 per cent Span 80 (3: 1) caused a destructionof activity in the HILL reaction, but the treatment broughtabout an increase by about 60 per cent in the rate of ascorbatephotooxidation in the presence of DPIP. Heating the broken chloroplastscaused a marked decrease in the photooxidation activity. Byadding surface- active agents to the boiled preparation, theactivity was restored up to almost 80 per cent of the originallevel.
2. With colloidal suspensions of isolated chiorophylls,ascorbatewas only slightly photooxidized in the presence ofDPIP. Byaddi tion of the surface-active agents, the activitywas greatlyenhanced.
3. Dependency of the photooxidation bywhole and solubilized chloroplastsand isolated chlorophylla on the presence of DPIP was examined.DPIP can serve as anintermediate electron carrier in solubilizedchloroplasts aswell as in whole chloroplasts.
4. Effect of o-phenanthrolineon ascorbate photooxidation by thesethree preparations wastested. With solubilized chloroplastsand isolated chlorophylls,the addition of the inhibitor hadno influence on their ascorbatephotooxidation either in thepresence or absence of DPIP.
5. Treatmentof whole chloroplasts with the surface-active agentsinducedan activity of photooxidation of cytochrome c. The electron-flowpattern for the photooxidation of ascorbate by whole and solubilizedchloroplasts was briefly discussed.

¹ Contribution No. 130 from the Department of Biology, Facultyof Science, Kyushu University. Aided in part by Grant-in-Aidfor Fundamental Scientific Research from the Ministry of Education. (Received August 23, 1962; )     

Localization of the reaction site of cytochrome 552 in chloroplasts from Euglena gracilis. Cytochrome content and photooxidation in different chloroplast preparations

Isolated Euglena chloroplasts retain up to 50% of cytochrome 552 on a chlorophyll basis compared to the content of cells. Cytochrome 563 is found in equal amount in chloroplasts and cells. The amount of cytochrome 552 retained depends on the isolation procedure of chloroplasts.Cytochrome 552 can be further liberated from chloroplasts by mechanical treatment or incubation with detergent. It is concluded that cytochrome 552 is not tightly bound in the membrane but rather trapped in the thylakoids of the chloroplasts.In photosynthetic electron flow, cytochrome 552 is functioning as donor for photosystem I, mediating electron flow from cytochrome 558 to P₇₀₀ under our conditions.Antimycin A stimulates the photooxidation of cytochrome 552 and of cytochrome 558.The rates of electron flow from water to NADP⁺ and of cyclic photophosphorylation mediated by phenazine methosulfate correlate with the content of endogenous cytochrome 552 in the chloroplasts. External readdition of cytochrome 552 to deficient chloroplasts causes reconstitution of NADP⁺ reduction but not of cyclic photophosphorylation. Mechanical treatment or other means of fragmentation of chloroplasts results in the exposure of originally buried reaction sites for external cytochrome 552.     

Effects of Net and Local Charges on the Interaction between Chemically-Modified Horse Heart Cytochrome c and P700 in Photosystem 1-Enriched Subchloroplast Particles

Effects of salt and pH on the re-reduction of P700 by chemically-modifiedhorse heart cytochrome c after a flash illumination were examinedin Triton-treated P700- enriched subchloroplast particles (TSF-1particles). At low salt concentrations net charges on the membrane surfaceand native, guanidinated or succinylated cytochrome c were majorfactors that determined the reaction rates, as in the reactionbetween plastocyanin and P700 [Tamura et al. (1981) Plant &Cell Physiol. 22: 603]. The reaction rates also depended onreactant-specific factors, particularly the localized distributionof charges on macromolecules and their interaction over shortdistances, as well as on long-range Coulombic interaction. Theeffect of this type became clearer at high salt concentrations. (Received October 7, 1982; Accepted December 20, 1982)     

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; )     

PARTIAL PHOTO-REPRESSION OF THE GLYOXYLATE BY-PASS IN EUGLENA

1. Addition of exogenous acetate or ethanol to autotrophic culturesof Euglena gracilis strain Z induces formation of the glyoxylateby-pass.
2. Visible light decreases the activity of malate synthasein greenEuglena by about 50%. No such effect was found in apermanentlybleached mutant.
3. Aconitase activity parallelsthat of malate synthase, but isocitricdehydrogenase activityis constant under all conditions examined.
4. Oxygen consumptionis proportional to the activities of malatesynthase and aconitase,but not to that of isocitric dehydrogenase.
5. The results ofsimilar studies with other growth substrates(pyruvate, malate,succinate) suggest that some of the oxygenconsumed by C₂-grownEuglena may not be associated with energyproduction.

(Received March 25, 1966; )     

Purification and characterization of two soluble cytochromes from the alkalophile Bacillus firmus RAB

A soluble cytochrome c and soluble cytochrome b were purified from the alkalophilic Bacillus firmus RAB. The cytochrome c, with an alpha band at 552 nm, had an apparent molecular weight of 16,500 and was acidic, with a pI of 3.4. At both pH 7.0 and 8.3, the midpoint potential of c-552 was +66 mV. Above pH 8.3, the cytochrome exhibited a pH-dependent decrease in midpoint potential. This property, among others, distinguished the cytochrome c-552 from other membrane-associated c-type cytochromes. The soluble cytochrome b, with an alpha band maximum at 558 nm, had a molecular weight of approx. 15,500 and was also an acidic protein, with a pI of 3.07. It exhibited a pH-independent midpoint potential of +28 mV.     

STUDIES ON COMPONENTS OF RESPIRATORY SYSTEM OF BEGONIA LEAVES

Investigations were made of the properties of diaphorase, cytochromec reductases, cytochrome c oxidase, and other components ofelectron transfer system in various fractions of leaf homogenateof Begonia semperflorens.

1. All the fractions tested showed the existence of cytochromec oxidase, succinic- and reduced diphosphopyridine nucleotide-cytochromec reductases, and diaphorase. Activities of these enzymes werefound to be associated mainly with the particulate fractions.The particulate fractions showed, in particular, a capacityof reducing oxidized cytochrome c with fumarate, malate, -ketoglutarate,ß-hydroxy-butyrate, and citrate.
2. Optimum pH foroxidation of cytochrome c by the particulatefractions was foundto be 5.5, while that for reduction was7.2.
3. The activityof cytochrome c reductase was partially suppressedby malonate.Partial inhibition of cytochrome c oxidase wascaused by azideand cyanide, the inhibitory effects observedbeing strongerwith particulate fractions than with solublefractions.

(Received August 11, 1962; )     

The light-induced oxidation-reduction reaction of cytochrome b-559 in membrane fragments of the blue-green alga Anabaena variabilis

Light-induced oxidation-reduction reactions of cytochrome b-559were investigated with membrane fragments of Anabaena variabilisand supplementarily with Plectonema boryanum. The oxidation-reduction reactions of cytochrome b-559 observedwith membrane fragments were similar in their kinetics to thoseof the cytochrome in aged chloroplasts. The reactions were annihilatedby the addition of Ferro, indicating that the cytochrome ofhigh redox potential (E'_o=+373 mV, pH 6.5) was photoreducedand oxidized. Titration with reducing agents indicated that cytochrome b-559is contained in Anabaena membrane fragments in an amount 1.5times as much as the content of P700 on a molar basis; the contentof the species of high redox potential was estimated to be around70%. Kinetic treatment of the photoreduction indicated that the cytochromewas reduced at some site of the electron transport system betweenthe two photosystems. The photo-oxidation depended on the actionof either photosystem II or I even in the presence of DCMU,indicating that the photooxidation was induced by both photosystems.The oxidation by photosystem I action was inhibited by HgCl₂-treatment,indicating that this reaction is mediated by plastocyanin. EDTA (5?10^-3 M) suppressed the cytochrome photoreduction andenhanced the rapid phase of the photooxidation. The latter effectappeared only when an appropriate dark time (3 min) was insertedafter the cytochrome photoreduction. The phenomenon was interpretedas showing that EDTA modifies the reactivity of the electroncarrier which directly donates electrons to cytochrome b-559.The oxidation, and probably also the reduction of cytochromeb-559, was assumed to be regulated by the oxidation-reductionstate of this carrier. (Received April 26, 1974; )     

Light-induced changes in the fluorescence yield of chlorophyll a in Anacystis nidulans II. The fast changes and the effect of photosynthetic inhibitors on both the fast and slow fluorescence induction

1. The intensity dependence and spectral variations during thefast transient of chlorophyll a (Chl a) fluorescence have beenanalyzed in the blue-green alga Anacystis nidulans. (Unlikethe case of eukaryotic unicellular green or red algae, the fastfluorescence induction characteristics of the prokaryotic blue-greenalgae had not been documented before.)
2. Dark adapted cellsof Anacystis exhibit two types of fluctuationsin the fluorescenceyield when excited with bright orange light(absorbed mainlyin phycocyanin). The first kinetic patterncalled the fast (sec)fluorescence transient exhibits a characteristicoriginal levelO, intermediary hump I, a pronounced dip D, peakP and a transitorysmall decline to a quasi steady state S.After attaining S,fluorescence yield slowly rises to a maximumlevel M. From M,the decline in fluorescence yield to a terminalT level is extremelyslow as shown earlier by Papageorgiou andGovindjee (8). Ascompared with green and red algae, blue-greenalgae seem tohave a small PS decline and a very characteristicslow SM rise,with a M level much higher than the peak P.
3. A prolonged darkadaptation and relatively high intensity ofexciting illuminationare required to evoke DPS type yield fluctuationsin Anacystis.At low to moderate intensities of exciting light,the time forthe development of P depends on light doses, butfor M, thisremains constant at these intensities.
4. Fluorescence emissionwas heterogeneous during the inductionperiod in Anacystis;the P and the M levels were relativelyenriched in short-wavelengthsystem II Chi a emission as comparedto D and S levels.
5. Thefast DPS transient was found to be affected by electrontransportcofactor (methyl viologen), and inhibitors (e.g.,DCMU, NH₂OH)in a manner suggesting that these changes are mostlyrelatedto the oxido-reduction level of intermediates betweenthe twophotosystems. On the other hand, the slow SM changesin fluorescenceyield, as reported earlier (5, 15), paralleloxygen evolution.These changes were found to be resistant toa variety of electrontransport inhibitors (O-phenanthroline,HOQNO, salicylaldoxime,DCMU, NH₂OH and Antimycin a). It issuggested that, in Anacystis,even in the presence of so-calledinhibitors of cyclic electronflow, a "high energy state" isstill produced.
6. Measurementsof Chlorophyll a fluorescence and delayed lightemission inthe presence of both DCMU and NH₂OH indicate thatthe slow SMchanges are not due to the recovery of the reactioncenter IIin darkness preceeding illumination.
7. Our results, thus, suggestthat in Anacystis a net electrontransport supported oxidation-reductionstate of the quencherQ regulates only partially the developmentof the DPS transient,but the development of the slow fluorescenceyield changes seemsnot to be regulated by these reactions.It appears, from datapresented elsewhere, that the slow risein the yield resultsdue to a structural modification of thethylakoid membrane.

¹We are grateful to the National Science Foundation for financialsupport. (Received November 21, 1972; )     

On the functional site of manganese in photosynthetic electron transport system

Normal Euglena chloroplasts contained 1 atom of Mn per 47±8chlorophyll molecules. The manganese content of chloroplastswas decreased by heat treatment. After complete removal of manganeseby incubation at 45°C for 5 min, Hill activity with DPIPas electron acceptor was abolished, but the activity of DPIPphotoreduction with diphenylcarbazide as electron donor wasunaffected. Hill activity was inactivated by incubating Euglena chloroplastsat alkaline pH. The presence of a high concentration of Trisduring incubation of chloroplasts at an alkaline pH had no additionaleffect on the activity drop. Donor-supported DPIP photoreduction in heated Euglena chloroplasts,as well as the normal Hill reaction in untreated chloroplasts,was inhibited by DCMU, HOQNO and ioxynil which block electrontransport at the reducing side of system II. These reactionswere also inhibited by another group of inhibitors; CCCP, salicylaldoxime,antimycin A and azide, which block electron transport at a sitebetween the electron carriers, Y₁ and Y₂ located on the oxidizingside of system II. Possible sites of inhibition by heat treatment and by inhibitorsand sites for entry of electrons from artificial electron donorsin the photosynthetic electron transport chain, especially inrelation to the functional site of endogenous manganese in chloroplasts,were proposed. (Received October 30, 1971; )     

Crystallization and some properties of cryptocytochrome c from aerobically-grown Pseudomonas denitrificans

1. 1. Analyses of cytochrome types in intact cells of aerobically-and anaerobically-grownPs. denitrificans indicated a higherratio of cytochrome c to cytochrome b in the former than inthe latter.
2. 2. Anaerobically-grown cells contained about twotimes as muchcryptocytochrome c as did aerobically-grown cells.
3. 3. Crystalline cryptocytochrome c obtained from the solublefraction of cell-free extracts of aerobically-grown cells manifestedthe same properties as cryptocytochrome c from anaerobically-growncells, i. e., absorption maxima, autooxidizability, redox potential,molecular weight, haem content, etc.
4. 4. Cryptocytochrome cwas reversibly converted to a true haemochrometype spectrumby alcohols, detergents, carboxylic acid salts,guanidine saltor high pH values.

(Received December 16, 1968; )