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; )     

Cyt b-559 (Fd) Participating in Cyclic Electron Transport in Spinach Chloroplasts: Evidence for Kinetic Connection with the Cyt b6/f Complex

A small fraction of low potential Cyt b-559, amounting to only13% of total Cyt b-559 in spinach chloroplasts, is analyzedwith the help of a highly selective, computer-controlled spectrophotometer,which simultaneously applies 16 pulse modulated narrow bandmeasuring beams with wavelengths in the cytochrome -band (500–600nm) for recordings of time resolved difference spectra. ThisCyt b-559 fraction remains oxidized upon dark incubation withascorbate and is reduced upon illumination. It can be reducedby cyclic PSI in an antimycin A-sensitive reaction or in thecourse of antimycin A-insensitive linear electron transportvia the Cyt b₆/f complex. Reduction by NADPH in the dark requiresferredoxin. Simultaneous recordings of Cyt b-563 and Cyt f revealclose kinetic connection between this Cyt b-559 fraction andthe low potential chain of the Cyt b₆/f complex. These resultsconfirm and extend previous observations of Miyake et al. 1995(Plant Cell Physiol. 36: 743) in maize mesophyll thylakoids,which led to the hypothesis that Cyt b-559 (Fd) occupies theposition of the postulated ferredoxin-plastoquinone reductase(FQR) in cyclic electron transport. (Received March 9, 1999; Accepted May 21, 1999)     

Developmental Changes in Amounts of Thylakoid Components in Plastids of Barley Leaves

Changes in the amounts of several components of the photosyntheticelectron-transport system during greening of etiolated barleyleaves were studied on a "per plastid" basis. P700 and Q_A, whichwere initially absent from etioplasts, appeared 2 h after thestart of illumination in complete complexes of PS I and PS II,respectively. From 6 h, they increased rapidly in amount witha constant stoichiometric ratio of 1:1. Amounts of Cyt f, Cytb₆, Cyt b-559 and FeS, initially present in etioplasts at levelsthat were one-third to half of those in mature chloroplasts,also increased rapidly after 6 h of illumination. The molarratio of Cyt f, Cyt b₆ and Cyt b-559 was the same in etioplastsand in mature chloroplasts, namely 1:2:2. After 4 h of illumination,levels of FeS increased at nearly the same rate as those ofthe PS I complex. The increase in levels of all components wasmarked after 6 h of illumination, probably due to the energysupplied by developing plastids that had just become photosyntheticallycompetent. The results are discussed in relation to the timeof appearance of chlorophyll-protein complexes and photochemicalactivities. ¹ Present address: Department of Botany, Faculty of Science,Kyoto University, Kyoto, 606-01 Japan.     

Effects of Light Stress on Redox Potential Forms of Cyt b-559 in Photosystem II Membranes Depleted of Water-Oxidizing Complex

Effects of photoinhibition on the redox properties of Cyt b-559were studied with NH₂OH treated PSII membranes, which are depletedof the water-oxidizing complex. The membranes contained threeredox forms (HP-, IP- and LP-forms) of Cyt b-559, with E_m valuesof +435, +237 and +45 mV, respectively. A novel intermediate-potentialform of Cyt b-559 was generated during photoinhibition on thedonor side of PSII: photoinhibitory illumination (7,000 µEm^–2 s^–1) for 1 min induced a 30% decrease in thelevel of the HP-form, with concomitant generation of the intermediate-potential(IP-) form whose E_m value was about +350mV. Prolonged illumination(10 min) resulted in complete loss of the HP-form and an apparentincrease in the level of the IPform. After further photoinhibitorytreatment (60 min), complete loss of the IP'-form was observedand levels of the IP- and LP-forms each increased to about 50%of the total amount of Cyt b-559. Kinetic analysis of thesedata led to the conclusion that the HP-form is converted tothe LP-form via two intermediate-potential forms (IP' and IP),and that IP'-form appears only at the early phase of photoinhibition. (Received March 30, 1994; Accepted February 27, 1995)     

A Parallel Study of Pigment Bleaching and Cytochrome Breakdown during Aging of Thylakoid Membranes

Aging of freshly isolated thylakoid membranes from spinach leaves(Spinacia oleracea L.) leads to dramatic alterations in boththe cytochrome (b_{559 (HP)} and f) composition and pigment (chlorophyllsa and b and ß-carotene) content. These changes occurat a faster rate under anaerobic conditions or after heatingthylakoid membranes, and in light as well as in darkness. Inaddition, when thylakoid membranes are heated at 78°C for8 min, or incubated in the presence of an emulsion of linoleicacid, a huge decrease in both cytochrome (particularly cyt.b_{559 (HP)}) and pigment contents occur. Whatever the experimentalconditions, cytochrome b_{559 (HP)} destruction occurs as soonthe aging process starts. Conversely, pigment bleaching is detectableafter an initial lag phase of about 60–70 min. Then, thetwo processes (cytochrome breakdown and bleaching of pigments)appear to take place in parallel. The addition of salicylhydroxamicacid or 8-hydroxy-quinoline, two radical scavenger components,to the aging medium strongly reduces the rate and extent ofcytochrome breakdown and pigment bleaching. On the basis of these results, a tentative scheme accountingfor the bleaching of pigments and the breakdown of cytochromesduring aging in vitro of thylakoid membranes is proposed. Itis suggested that these changes are mediated via a non-enzymaticmechanism in which free radicals could be implicated. The possiblerole of free radicals inducing ultrastructural changes at thelevel of chloroplast membranes in senescent leaves is also considered. (Received October 11, 1985; Accepted January 24, 1986)     

Characterization of New Strains of Nonphotosynthetic Mutants of Chlamydomonas reinhardtii III. Photosystem II-Related Thylakoid Proteins in Five Mutants and Double Mutants

PS II-enriched particles of the wild type, of three mutantsand of two double mutants of Chlamydomonas reinhardtii wereanalyzed by lithium dodecylsulfate polyacrylamide gel electrophoresisat 4°C. The mutant Pg 27 was devoid of light-harvestingChl-protein complex (CP) CP II, but had normal cytochrome b-559and displayed all wild type photochemical activities. The mutantFl 50 lacked a pool of cytochrome b-559 photooxidizable at 77K but was able to photooxidize a second pool at 293 K in thepresence of FCCP; it showed some weak PS II activity. The mutantFl 39 lacked both these cytochrome b-559 pools and did not displayany PS II activity. The double mutants Fl 39 Pg 28 and Fl 50Pg 27 had defects similar to those of their respective parentsFl 39 or Fl 50 but, in addition, they were devoid of Chi b andof CP II. In these four mutants having impaired PS II function,five proteins of M_r=50,000, 47,000, 33,000, 27,000 and 19,000were totally (Fl 39, Fl 39 Pg 28) or partly (Fl 50, Fl 50 Pg27) missing. The first two of these proteins corresponded tothe apoproteins of CP III and IV. These results pointed out a strong correlation between thesefive proteins, cytochrome b-559 and PS II primary photochemistry.In mutation and cross experiments, these five PS II-associatedproteins and cytochrome b-559 appeared to be linked characterscontrolled by nuclear gene(s), but they behaved independentlyof CP II. (Received January 24, 1983; Accepted July 20, 1983)     

Effects of CaCl2-washing on EPR Signals of Cytochrome b559 in Photosystem II Preparation from Spinach Chloroplasts

Washing of PS II preparation by 1 M CaCl₂ inactivates oxygenevolution without loss of bound manganese [Ono and Inoue (1983)FEBS Lett. 164: 255]. Most of the high-potential Cyt b₅₅₀, whichamounts to about a half of the total Cyt b₅₅₉ in untreated preparation,was converted to its low-potential form by CaCl₂-washing. Theeffect was similar to that of Tris-washing. The peak positionof the g_s band of the EPR spectrum of the CaCl₂-washed preparation(g=2.95) was the same as that of the low potential form of untreatedpreparation but was slightly different from that of the Tris-washedor heat-treated preparation (g=2.98). ¹ Present address: Department of Biology, Faculty of Science,Tokyo Metropolitan University, Fukazawa 2-1-1, Setagaya, Tokyo158, Japan. (Received November 14, 1984; Accepted January 30, 1985)     

Studies on cytochromes in photosynthetic electron transport system II. Participation of photosystem I in the light-induced oxidation-reduction of cytochrome b559 in spinach chloroplasts

The role of photosystem I in the photooxidation-reduction reactionsof cytochrome b₅₅₉ was elucidated by studying the effects ofelectron acceptors and inhibitors of photosystem I on reactionsof the cytochrome in spinach chloroplasts. We concluded thatthe cytochrome is photoreduced through photosystem I and, inthe presence of DCMU and ferrocyanide, is photooxidized by photosystemI. (Received December 20, 1972; )     

Artificial Quinones Replace the Function of Quinone Electron Acceptor (QA) in the Isolated D1-D2-Cytochrome b559 Photosystem II Reaction Center Complex

Various benzo- and naphthoquinone derivatives were introducedinto the purified photosystem II Dl-D2-cytochrome b₅₅₉ reactioncenter complex, which lacks the intrinsic plasto-quinone electronacceptors. Effects of these quinones on the electron transferreactions in nanoseconds to milliseconds time range were studiedat room and cryogenic temperatures. 1) The addition of quinonesto the purified photosystem II reaction center complex suppressedthe nanosecond charge recombination between oxidized reactioncenter chlorophyll a (P680⁺) and reduced pheophytin a (Ph^–),and stabilized P680⁺ up to millisecond time range at 280 K andat 77 K. 2) In the reaction center complex supplemented withdibromothymoquinone (DBMIB), P68O was almost fully oxidizedand cytochrome b₅₅₉ was partially reduced by flash excitation.A semi-quinone-like signal with a peak around 320 nm was alsoinduced but the shift of pheophytin absorption band (C55O) wasnot observed. 3) Halogenated quinones, especially DBMIB, werebetter electron acceptors than unsubstituted or methylated quinones.4) The affinities of quinones to the reaction center complexwere weakly dependent on their molecular structure. (Received July 9, 1991; Accepted August 15, 1991)     

Chromatic Regulation of Cytochrome Composition and Electron Transfer from Cytochrome b6-f Complex to Photosystem I in Anacystis nidulans (Tx 20)

Cytochrome composition of the cyanobacterial photosyntheticsystem was studied with Anacystis nidulans (Tx 20) in relationto the chromatic regulation of photosystem composition. Comparisonof cytochrome compositions in cells with a high PS I/II ratio(3.0, grown under weak orange light) and with a low ratio (1.6,grown under weak red light) indicated that cytochrome compositionwas also changed in the chromatic regulation of photosystemcomposition. Two types of cytochrome change were observed: 1)contents of cytochromes C₅₅₃ and c₅₄₈ were changed in parallelwith the changes in PS I content, and 2) cytochrome b₅₅₃ andcytochrome b₆-f complex were held at a constant molar ratioto PS II. The molar ratio, PS II : cytochrome b₅₅₉ : cytochromeb₆-f complex : cytochrome c₅₅₃ : PS I : cytochrome C₅₄₈, inthe red-grown cells was 1 : 2.5 : 1.3 : 0.17 : 1.6 : 0.67, andthe ratio in the orange-grown cells, 1:2.4:0.9:0.32:3.0:1.2.In both types of cells, almost all cytochrome f in the cytochromeb₆-f complex was rapidly oxidized after multiple flash activation,indicating that all cytochrome b₆-f complexes in cells of bothtypes are functionally connected to PS I, even when the molarratio to PS I is largely changed. The content of cytochromeC₅₅₃ was at most 0.14 of PS I, suggesting that the cytochrometurns over several times per one turnover of PS I. ¹Present address: Department of Biology, Faculty of Science,Tokyo Metropolitan University, Fukazawa 2-1-1, Setagaya, Tokyo158, Japan. (Received January 20, 1986; Accepted March 17, 1986)     

Contents of Cytochromes, Quinones and Reaction Centers of Photosystems I and II in a Cyanobacterium Synechococcus sp.

The contents of photosystem I and photosystem II reaction centers,cytochrome c-553, cytochrome c-550, cytochrome f, cytochromeb-559, cytochrome b-563, plastoquinone and vitamin K₁ in thecyanobacterium Synechococcus sp. were determined. About threephotosystem I reaction centers were present for each photosystemII reaction center. The amounts of cytochromes functioning betweenthe two photosystems were approximately half those of the photosystemI reaction center. Plastocyanin was not detected, while plastoquinoneand vitamin K₁ were present in excess of other electron carriersand reaction centers. The results indicate the importance ofplastoquinone and cytochrome c-553 for cooperation of the tworeaction centers through electron transport. ¹Present address: Toray Basic Research Laboratory, 1111 Tebiro,Kamakura, Kanagawa 248, Japan. (Received June 17, 1982; Accepted January 17, 1983)     

Chromatographic separation of photosystems I and II from the thylakoid membrane isolated from a thermophilic blue-green alga

The thylakoid membrane of a thermophilic blue-green alga, Synechococcussp., was separated into four chlorophyll-containing fractionsby a single chromatographic manipulation with a diethylaminoethyl-cellulosecolumn after digitonin treatment. Photosystems I and II, orchlorophyll a forms, were unevenly distributed among the fourfractions, which were designated F-1, F-2, F-3 and F-4 in theorder of elution from the column. F-1 has a simple composition of the chlorophyll a form and totallylacks photochemical activity. This fraction may be an antennachlorophyll a-protein in the blue-green alga. F-2 is rich inshorter wavelength chlorophyll a forms and shows the three-bandedfluorescence emission spectrum characteristic of photosystemII at liquid nitrogen temperature. This fraction is highly activein 2,6-dichloroindophenol photoreduction and contains one photooxidizablecytochrome b₅₅₉ per 50–100 chlorophyll a, whereas theP-700 content is as low as one P-700 per 2,000 chlorophyll a.Thus, F-2 represents photosystem II in a highly purified state.F-3 is rich in photosystem I, since this fraction is inactivein 2,6-dichloroindophenol photoreduction, and contains one P-700per 200 chlorophyll a and smaller amounts of cytochrome b₅₅₉.Longer wavelength chlorophyll a forms are abundant and a peakat 730 nm is the most prominent in the low-temperature fluorescencespectrum in this fraction. F-4, which consists of larger membranefragments shows spectral and photochemical features similarto those of F-3. (Received August 8, 1979; )     

Chloroplast development in 4-thiouridine-cultured radish seedlings III. Photochemical activities in isolated plastids

Accumulation of chlorophyll, development of photosystem I andII activities and contents of chloroplastic components wereinvestigated in greening radish seedlings germinated and grownwith 4-thiouridine (4SU). The development of photosystem I activityprior to that of photosystem II was observed also in the 4SU-culturedgreening radish cotyledons in which chlorophyll accumulationwas inhibited up to 60–80% of that of the control. Photochemicalactivities expressed on a plastid protein basis decreased withthe increase of 4SU in the culture medium. In contrast to ferredoxinand ferredoxin-NADP reductase, which were present in significantamounts in the treated cotyledons, chloroplastic cytochromes(f, b₅₅₉ and b₆ decreased in the plastids from 4SU-culturedcotyledons. These results suggest that 4SU interferes in partwith protein synthesis in plastids and thereby with chloroplastdevelopment. (Received December 4, 1979; )     

Effect of Supra-High Irradiation on the Photosynthetic System of the Cyanophyte Synechocystis PCC 6714

Stability of thylakoid components under supra-high irradiancewas studied with the cyanophyte Synechocystis PCC 6714. Theactivity of overall photosynthesis was quickly inactivated (T_1/2=20min) under supra-high irradiance (300 W m^–2, white light).In parallel with the inactivation of photosynthesis, QA in PSII was also inactivated. Both inactivations were acceleratedby chloramphenicol (CAP) addition. The reactivation of PS IIrequired weak irradiation and was suppressed by CAP. However,PS I measured as P700 was very stable. The level of PS I measuredas P700 was not significantly reduced by the irradiation for12 h even in the presence of CAP while the level of Cyt b₅₅₉,component of PS II, was decreased markedly. The function ofPS I before and after supra-high irradiation with CAP was examinedby comparing sizes of P700 oxidation induced by a short flash,by a continuous light, and by determination of O₂-and ferredoxin-reduction.No difference was observed in PS I actions before and afterthe irradiation treatment. These results indicate that the PSI complex is very tolerant of supra-high irradiation. However,the cells grown under supra-high irradiance contained much fewerPS I and PS II complexes than Cyt b₆–f complexes. Theformer levels were reduced to a half to one fourth of thosebefore growth while the level of Cyt b₆–f complex wasnot reduced so much. A possible mechanism for changes in thylakoidcomposition under supra-high irradiation was discussed. (Received February 16, 1991; Accepted June 12, 1991)     

Variations with Age in Net Assimilation Rate and other Growth Attributes of Sugar-beet, Potato, and Barley in a Controlled Environment: With two Figures in the Text

Sugar-beet, potato, and barley plants were grown in a controlledenvironment, for periods of up to 10 weeks from sowing, witha light intensity of 1,8oo f.c. (4·9 cal./cm.²/hr.) anda temperature of 20° C. during the 18-hour photoperiod and15° C. during the dark period, to test whether net assimilationrate varied with age and differed between the three species. Net assimilation rate of all species based on leaf area (E_A)fell approximately linearly with time. During 5 weeks E_A ofsugar-beet decreased by only about 20 per cent. and E_A of potatodecreased by 50 per cent. E_A of barley remained approximatelyconstant for 4 weeks after sowing and was halved during thesubsequent 4 weeks. The average value of E_A for all times wasgreatest for sugarbeet and least for barley. Net assimilation rates based on leaf weight (E_W) and leaf N(E_N) decreased at about 15 per cent. of the initial value perweek for all species; this was similar to the mean rate of decreaseof E_A of potato and barley, but greater than that of E_A of sugar-beet.Mean values of E_W or E_N for potato and barley were similar andless than for sugar-beet. Relative growth rate (R_W), relative leaf growth-rate (R_A), andleaf-area ratio (F) fell with time at similar rates for allspecies. Average values of R_W decreased and of F increased inthe order sugar-beet, potato, barley. R_A was greatest for potatoand least for barley.     

Molecular Structure of a High-Potential Form of Thylakoid Cytochrome b-559 as Determined by Radiation Inactivation

Cytochrome b-559 in photosystem II can be characteristicallyconverted from a high- to a low-potential form. Taking thisresponse of Cyt b-559 as evidence for the denaturation of proteinmolecules, the sizes of the structures that stabilize the high-potentialform of Cyt b-559 in PS II membranes and thylakoids from spinachwere determined by radiation inactivation. When a target of26 kDa was inactivated in PS II membranes, Cyt b-559 was convertedto the low-potential form. The size was consistent with a molecularweight of Cyt b-559 in a proposed tetrameric structure thatconsists of two sets of 9.2-kDa and 4.3-kDa subunits [Widgeret al. (1985) FEBS Lett. 191: 186–190]. In contrast tothe functional size of 26 kDa in the PS II membranes, the functionalsize was 116 kDa in thylakoid membranes. The results suggestthe presence of an extra 90-kDa electron carrier between a redoxtitrator outside the membranes and the Cyt b-559, which maynot expose its active site to the surface of the thylakoids. (Received March 9, 1989; Accepted June 23, 1989)     

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; )     

Allozyme Variation in Turkmenian Populations of Wild Barley, Hordeum spontaneum Koch.

The extent and structure of genetic variation in 720 individualsrepresenting 36 populations of wild barley, Hordeum spontaneum,from Central Asia (Turkmenistan) were determined using starchgel electrophoresis of eight water soluble leaf proteins encodedby 13 loci. The populations were grouped into seven ecogeographicregions. The study found: (a) a similar amount of within populationgenetic diversity (H_e = 0.106), but lower total genetic diversity(H_T = 0.166) to that reported for Middle East populations ofH. spontaneum; (b) of the total genetic diversity, 61% was attributableto variation within populations, 27% between populations ofa region, and 12% among regions; (c) of the 42 alleles found,11 were ubiquitous, 22 were widespread and common, three localand common and seven local and rare; (d) there was a poor correlationbetween population genetic and geographic distances; and (e)the frequencies of only a few alleles correlated significantlywith climatic or geographic parameters. The extent and structureof genetic variation of Turkmenian populations, which representthe Central Asian part of the species' range, were significantlydifferent in some important aspects from Middle Eastern andeastern Mediterranean populations. The mosaic pattern of geneticvariation found in wild barley in the Middle East is less pronouncedin populations from Central Asia where there is less geneticdifferentiation among populations and regions, and more ubiquitousor common and fewer localized alleles. Copyright 2001 Annalsof Botany Company Allozyme, Central Asia, genetic diversity, Hordeum spontaneum, wild barley     

Inhibitory Effect of N,N'-Dicyclohexylcarbodiimide on Reduction of Cytochrome b560 and Stoichiometry of the Reduction in Chromatium Chromatophores

N,N'-Dicyclohexylcarbodiimide (DCCD) inhibited the flash-inducedreduction of cytochrome b₅₆₀, by blocking the electron flowbetween the secondary electron acceptor and cytochrome b₅₆₀presumably in the vicinity of the ubiquinone pool. The stoichiometryof the reduced cytochrome b₅₆₀ per reaction center bacteriochlorophylldimer was 0.77?0.12 throughout the redox potential range of150 to 390 mV at pH 7.0. The high stoichiometry suggested thatmost of the electrons ejected from the reaction center reducedcytochrome b₅₆₀. (Received January 19, 1982; Accepted March 15, 1982)