Preparation and Characterization of P700-Enriched Photosystem-I Complexes from the Thermophilic Cyanobacterium, Synechococcus sp.

P700 was enriched relative to antenna pigments by treating thethylakoid membranes from thermophilic cyanobacterium (Synechococcussp.) with diethylether. The total Chi a/P700 ratio of the membraneswas 147 but decreased to 13 after the treatment with ether whichhad been 70% saturated with water. Vitamin K₁ and carotenoidswere completely removed by this treatment. The low chlorophylla to P700 ratio was retained in photosystem I reaction-centercomplexes purified from the ether-extracted membranes with TritonX-100. The midpoint potential of P700 was considerably loweredby the ether treatment of the thylakoid membranes but was partiallyreversed by the further treatment of the extracted membraneswith Triton X-100. Photo-oxidation of P700 in the purified complexeswas extremely slow under continuous illumination, indicatingthat there is no significant leakage of electrons from the primaryelectron acceptor to other bound acceptors or O₂. The photooxidationof P700 was appreciably accerelated on addition of vitamin K₃(or K₁). (Received June 23, 1988; Accepted November 25, 1988)     

Effect of Intracellular ATP Levels on the Light-Induced H+ Efflux from Intact Cells of Cyanidium caldarium

The light-induced H⁺ efflux observed at acidic pH in Cyanidiumcells was shown to be an active H⁺ transport depending on theintracellular ATP produced by cyclic photo-phosphorylation.Triton X-100 was found to act as an effective uncoupler in intactCyanidium cells without collapsing the pH gradient across theplasma membrane. Triton X-100 at 0.015% significantly reducedthe intracellular ATP levels, stimulated the p-BQ, Hill reactionand completely inhibited the light-induced H⁺ efflux. Inhibitionof the H⁺ efflux by Triton X-100 correlated well with the depressionof the apparent rale of light-induced ATP synthesis as wellas the decrease in the intracellular ATP level in light. The light-induced H⁺ efflux was completely inhibited by diethylstilbestrol,a specific inhibitor of plasma membrane ATPase, without anychanges in the intracellular ATP level, thereby suggesting theparticipation of the plasma membrane ATPase in the light-inducedH⁺ efflux. ¹The data in this paper are included in the Ph. D. dissertationsubmitted by M. Kura-Hotta to Tokyo Metropolitan University. (Received February 3, 1984; Accepted June 14, 1984)     

Location of the Electron Accepting Site of a b-Type Cytochrome Oxidase in Purified Chromatophore Membranes and Spheroplast Membrane Vesicles from Photosynthetically Grown Rhodopseudomonas sphaeroides

Purified chromatophore membranes and spheroplast membrane vesicleswere prepared from Rhodopseudomonas sphaeroides by the methodof Michels and Konings (1978). The cytochrome c oxidase activityof the spheroplast membrane vesicles was about 15-fold higheron a bacteriochlorophyll basis than that of the chromatophoremembranes. The cytochrome c oxidase activity of the chromatophoremembranes was greatly stimulated (about 10-fold) by an additionof Triton X-100 (0.1%), but there was less stimulated (about1.5-fold) in the case of spheroplasts. The pH optimum of theoxidase activities of the spheroplast membrane vesicles andof chromatophore membranes treated with 0.1% Triton X-100, andthe salt dependencies of the activity of both preparations werethe same. These results show that the membrane-bound b-type cytochromeoxidase of this bacterium accepts electrons from ferrocytochromec on the periplasmic side of the membrane (on the outer surfaceof the spheroplast membrane vesicles). These results also areconsistent with the fact that cytochrome c₂ is located in theperiplasmic space in this bacterium. (Received January 24, 1984; Accepted April 24, 1984)     

Mechanisms of the acido- and thermo-phily of Cyanidium caldarium Geitler I. Effects of temperature, pH and light intensity on the photosynthetic oxygen evolution of intact and treated cells

Photosynthetic oxygen evolution in an acido- and thermo-philicunicellular alga, Cyanidium caldarium, was measured under variousconditions, using a Clark-type oxygen electrode. 1). Maximum Hill reaction activity with p-benzoquinone as theHill oxidant was obtained at 45°C in a wide pH range from1.0 to 7.0. 2) The pH activity curve showed two peaks at pH3.0 and 7.0. The Hill activity had an optimum at pH 3.0 in cellspreilluminated under strong light (300,000 lux, 30 min, 40°C).Sonication of algal cells abolished the pH 3.0 component ofthe Hill reaction producing an activity maximum at pH 7.0. 3)Endogenous O₂ evolution in the absence of the Hill oxidant,which lasted for several minutes after illumination, had a maximumat pH 7.0. 4) This endogenous O₂ evolution was abolished bysonication. 5) KCN inhibited endogenous O₂ evolution, but notthe Hill reaction in the presence of p-benzoquinone. (Received August 19, 1974; )     

Inhibition of an aa3-Type Two-Subunit Cytochrome c Oxidase from Nitrobacter agilis by N,N'-Dicyclohexylcarbodiimide

The electron transfer activity of an aa₃-type two-subunit cytochromec oxidase of Nitrobacter agilis was inhibited by DCCD. Althoughthe activity of the purified cytochrome c oxidase dissolvedin 1% Triton X- 100 was not affected by DCCD even at a ratioof 1,000 mol DCCD per mol cytochrome aa₃, the activity of theenzyme dissolved in 0.02% Tween 20 or 0.02% Triton X-100 wasinhibited by 60% or more at a ratio of 1,000 mol DCCD per molcytochrome aa₃. The results of SDS polyacrylamide gel electrophoresisof the enzyme incubated with DCCD suggested that subunit IImight be a binding site for DCCD. (Received February 23, 1985; Accepted April 23, 1985)     

Enzyme system catalyzing formation of cis-3-hexenal and n-hexanal from linolenic and linoleic acids in Japanese silver (Farfugium iaponicum Kitamura) leaves

Leaf alcohol (cis-3-hexenol) and leaf aldehyde (trans-2-hexenal)are responsible for the green odor in leaves and fruits. cis-3-Hexenal,a precursor of cis-3-hexenol and trans-2-hexenal, was producedfrom linolenic acid by a homogenate of Farfugium japonicum (Japanesesilver) leaves. n-Hexanal was produced from linoleic acid bya homogenate of the leaves. The enzyme system catalyzing formationof C₆-aldehydes from linolenic and linoleic acids was localizedin chloroplast lamellae, and required oxygen for reaction. C₁₈-unsaturatedfatty acids such as linolenic acid, linoleic acid and -linolenicacid, which have carboxyl groups and cis-1, cis-4-pentadienesystems including a double bond at C-12, acted as substrates,and C₆-aldehydes (cis-3-hexenal or n-hexanal), but not C₉-aldehydes,were produced from them. The properties of the enzyme systemin chloroplasts were as follows: optimal pH 7.0; stable at pH5 to 7; thermolabile and no activity at 50?C. These propertieswere very similar to those of tea chloroplasts. The enzyme systemcould be solubilized from chloroplasts by 2% Triton X-100, butwas very unstable in solubilized form. (Received July 9, 1976; )     

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; )     

Mechanisms of the acido- and thermophily of Cyanidium caldarium Geitler IV. Loss of these characteristics due to enzyme treatment

Both the acidophily and thermophily of Cyanidium caldarium weredestroyed by lipase treatment. Galactolipase was most effectivelipolytic enzyme for eliminating these characteristics. Thethermophily was also destroyed by protease treatment. (Received November 20, 1976; )     

The effect of detergent Triton X=100 on the light induced changes in the fluorescence yield of chloroplasts]

It is shown that light induced changes of the fluorescence yield (delta F) of isolated chloroplasts are affected by Triton X-100. delta F value descreases with the increase of the detergent concentration from 0 to 0.03%, increases in the range of 0.03--0.05% and is irreversibly blocked at concentrations more than 0.08--0.1%. The same dependence of delta F on the detergent concentration is obtained for "digitonin" fragments of chloroplasts enriched in the photosystem 2, but not for fragments enriched in the photosystem 1. Light induced delta F of chloroplasts treated by detergent were activated by hydroxylamine and saturated at lower light intensities than delta F of untreated chloroplasts. Addition of 0.01% Triton resulted in an activation of light induced delta F of chloroplasts with damaged donor part of photosystem 2. It is suggested that the complex dependence of delta F of chloroplasts on the Triton concentration is due to superposition of several effects: the uncoupling of photophosphorylation, inactivation of the electron transport chain in the donor and acceptor parts of photosystem 2, and changes of acting concentration of Triton X-100 within the range of critical micelle concentration.     

Inactivation and activation of various membranal enzymes of the cholesterol biosynthetic pathway by digitonin

The activity of rat liver microsomal squalene epoxidase is inhibited effectively by digitonin. Concentrations of 0.8 to 1.2 mg/ml of digitonin cause total inhibition of microsomal (0.75 mg protein/ml) squalene epoxidase either in microsomes that were pretreated with digitonin and subsequently washed and subjected to epoxidase assay or when digitonin was added directly to the assay. The inhibition of squalene epoxidase by digitonin is concentration-dependent and takes place rapidly within 5 min of exposure of the microsomes to digitonin. Octylglucoside, dimethylsulfoxide, CHAPS, as well as cholesterol or total microsomal lipid extract were ineffective in restoring the digitonin-inhibited squalene epoxidase activity. Epoxidase activity in digitonin-treated microsomes was fully restored by Triton X-100. The reactivation by Triton X-100 displays a concentration optimum with maximal reactivation of the epoxidase (0.7 mg protein/ml) occurring at 0.2% Triton X-100. Microsomal 2,3-oxidosqualene-lanosterol cyclase is also inhibited by digitonin. Higher concentrations of digitonin are required to obtain full inhibition of the cyclase activity and only 40% inhibition of cyclase activity is observed at 1 mg/ml of digitonin. Solubilized (subunit size 55 to 66 kDa) and microsomal (subunit size 97 kDa) 3-hydroxy-3-methylglutaryl CoA reductase are totally unaffected by the same concentration of digitonin. Squalene synthetase, another microsomal enzyme in the biosynthetic pathway of cholesterol, is activated by digitonin. A 2.2-fold activation of squalene synthetase is observed at 0.8 mg/ml of digitonin. The results agree with a model in which squalene, and to a lesser degree 2,3-oxidosqualene, are segregated by digitonin into separate intramembranal pools.(ABSTRACT TRUNCATED AT 250 WORDS)     

Preparation of a Photoactive Reaction Center Complex Containing Photo-reducible Fe-S Centers and Photooxidizable Cytochrome c from the Green Sulfur Bacterium Chlorobium tepidum

A photoactive reaction center (RC) complex was isolated fromthe green sulfur bacterium Chlorobium tepidum by solubilizationof membranes with Triton X-100, followed by sucrosedensity gradientcentrifugation, DEAE Bio-Gel A chromatography, and hydroxyapatitechromatography. The purified RC complex contained about 50–70bacteriochlorophyll molecules (BChl) per P840, as assayed byphotooxidafion. It showed a near-infrared BChl a absorptionpeak at 814 nm and shoulders at about 800 and 835 nm at roomtemperature. SDS-PAGE analysis revealed 6 polypeptides withapparent molecular masses of 100, 65, 41, 32, 23, and 18 kDa.The RC complex binds functional P840 and Cyt c₅₅₁, which werephotooxidized by continuous illumination at room temperature.Upon flash excitation, the bound Cyt c₅₅₁ was oxidized, andrereduced in the dark with a half-time of 16 and 400 ms in thepresence and absence of 0.1 mM 2,6-dichlorophenol indophenol,respectively, at room temperature. At 551 nm, the amount ofthe Cyt c photooxidized by continuous illumination was 60% ofthe amount determined by chemical oxidation-reduction. The functionalCyt c₅₅₁/P840 ratio was calculated to be 1.2–1.7. EPRspectroscopy at cryogenic temperatures revealed that the RCcomplex binds three photoreducible Fe-S centers designated tobe CF_A, CF_B and CF_X (C for Chlorobium). CF_A and CF_B were reducedin the dark with dithionite at pH 10. (Received May 26, 1993; Accepted October 4, 1993)     

Mechanism of autolysis of Neisseria gonorrhoeae.

The major autolysin(s) of Neisseria gonorrhoeae was solubilized from envelopes by extraction with 2% Triton X-100 containing 0.5 M NaCl. Neither Triton X-100 nor NaCl alone could effectively release the autolysin(s). The major autolysin is N-acetylmuramyl-L-alanine amidase (EC 3.5.1.28). The pH optimum for this reaction was broad, ranging from 5.5 to 8.5. Optimal hydrolysis of peptidoglycan occurred in 2% Triton X-100 in 0.1 M KCl. Attempts to purify the autolysin were unsuccessful. A rapid assay for enzyme activity was developed using radioactive cell walls as a substrate ([3H]diaminopimelic acid).     

Purification, Kinetic and Regulatory Properties of Phosphofructokinase from Chiorella pyrenoidosa

Phosphofructokinase was purified 585-fold from Chlorella pyrenoidosaby using a combination of ammonium sulphate fractionation, filtrationthrough Sepharose 4B and chromatography on DEAE-Sephacel. Enzymestability was maintained by the presence of 50 mM P_i at pH 6.6.The optimum pH for activity was 7.7. Concentrations of substratesrequired to achieve half maximal velocity in the standard assaywere 9 µM (ATP) and 0.2 mM (fructose-6-P). ATP above 0.5mM was inhibitory. Enzyme activity was inhibited by high concentrations(10–100 mM) of P_i but lower concentrations (1–5mM) were effective in relieving the influence of other inhibitorssuch as P enolpyruvate. Inhibition by P-enolpyruvate was greaterat lower pH and with less P_i in reaction mixtures: 50% inhibitioncould be attained with 0.1 mM P-enolpyruvate. Fructose-2,6-bisphosphate,which was shown to be present in Chlorella, had no effect onthe phosphofructokinase. Chlorella appeared to contain onlyone form of phosphofructokinase, possibly in the chloroplast.No pyrophosphate :D-fructose-6-P 1-phospho transferase activitycould be detected. (Received February 20, 1984; Accepted December 5, 1984)     

Specific Response of Partially Purified Cell Wall-Bound ATPases to Fungal Suppressor

It was found that NTPases were bound to cell walls of pea andcowpea. The suppressor in pycnospore germination fluid of apea pathogen, Mycosphaerella pinodes, inhibited the ATPase activityin the fraction, which was solubilized from pea cell wall with0.5% Triton X-100, in a dose-dependent manner, but rather enhancedthat from cowpea cell wall even at the concentration of 1 µgml^-1. Inhibition by the suppressor of pea cell wall-bound ATPasewas a mixed type of competitive and noncompetitive. Triton X-100PAGE and active staining of ATPase indicated that both TritonX-100 solubilized fractions contained plural molecules thathydrolyze ATP. The M_rs of cell wall-bound ATPases seem to beconsiderably different from those of plasma membranes, and thenumber of cell wall-bound ATPase molecules were different betweenpea and cowpea. The electroeluted fractions corresponding tothe bands of active-stained ATPases were also able to hydrolyzeNTP and PP_i. The respective electroeluted ATPases also showedthe species-specific response to the suppressor. These resultsmay confirm our previous concept that putative receptors forthe suppressor might tightly bind to cell wall-bound ATPaseor that the ATPase might be the receptor itself. (Received September 8, 1995; Accepted March 9, 1996)     

Oxidation-reduction reactions between electron transfer components and hydrogen peroxide in photosystem II of chloroplasts

The light-induced oxygen evolution, photoreduction of 2,6-dichlorophenolindophenol (DPIP) and carotenoid photobleaching induced by carbonylcyanide m-chlorophenylhydrazone (CCCP) were investigated withspinach chloroplast fragments in the presence of H₂O₂. Oxygenevolution in the presence of H₂O₂ was not inhibited by CCCPand was only partially inhibited by 5 µM 3-(3,4-dichlorophenyl)-1,1-dimethylurea(DCMU) which completely inhibited the Hill reaction with DPIP.The degree of inhibition by DCMU was decreased by a simultaneousaddition of CCCP. Carotenoid photobleaching in the presenceof CCCP was stimulated by H₂O₂. The CCCP-induced carotenoidphotobleaching was completely inhibited by DCMU. However, itwas only partially inhibited by DCMU in the presence of H₂O₂.These data indicate that H₂O₂ donates electrons at a site betweenthe CCCP-sensitive site and the reaction center of photosystemII and is reduced at a site between the DCMU-blocked site andthe reaction center of photosystem II. ¹Present address: Department of Biology, Kyushu Dental College,Kitakyushu 803, Japan. (Received June 20, 1974; )     

Heat-Stability of Iron-Sulfur Centers and P-700 in Photosystem I Reaction Center Complexes Isolated from the Thermophilic Cyanobacterium Synechococcus elongatus

Stabilities of iron-sulfur centers and reaction center chlorophyllP-700 in Photosystem I reaction center complex (CP1-a), isolatedby sodium dodecyl sulfate treatment from the thermophilic cyanobacteriumSynechococcus elongatus, were studied by EPR and optical spectroscopy.P-700 was destroyed by treatment at temperatures above 80?Cfor 5 minutes with a half inactivation temperature of 93?C.The three iron-sulfur centers F_A, F_B and F_X showed similar thermalstabilities and were half inactivated at about 70?C. Thus, theisolated Photosystem I reaction center complexes of S. elongatusare still highly resistant to heat. (Received May 9, 1990; Accepted June 25, 1990)     

Characterization of a nuclear phosphatidylinositol 4-kinase in carrot suspension culture cells

We have shown previously that a nuclear phosphatidylinositol (PI) 4-kinase activity was present in intact nuclei isolated from carrot suspension culture cells (Daucus carota L.). Here, we further characterized the enzyme activity of the nuclear enzyme. We found that the pH optimum of the nuclear-associated PI kinase varied with assay conditions. The enzyme had a broad pH optimum between 6.5–7.5 in the presence of endogenous substrate. When the substrate was added in the form of phosphatidylinositol/phosphatidylserine (PI/PS) mixed micelles (1 mM PI and 400 μM PS), the enzyme had an optimum of pH 6.5. In comparison, the pH optimum was 7.0 when PI/Triton X-100 mixed micelles (1 mM PI in 0.025 %, v/v final concentration of Triton X-100) were used. The nuclear-associated PI kinase activity increased 5-fold in the presence of low concentrations of Triton X-100 (0.05 to 0.3 %, v/v); however, the activity decreased by 30 % at Triton X-100 concentrations greater than 0.3 % (v/v). Calcium at 10 μM inhibited 100 % of the nuclear-associated enzyme activity. The K_m for ATP was estimated to be between 36 and 40 μM. The nuclear-associated PI kinase activity was inhibited by both 50 μM ADP and 10 μM adenosine. Treatment of intact nuclei with DNase, RNase, phospholipase A₂ and Triton X-100 did not solubilize the enzyme activity. Based on sensitivity to calcium, ADP, detergent, pH optimum and the product analysis, the nuclear-associated PI 4-kinase was compared with previously reported PI kinases from plants, animals and yeast.     

Effects of detergent on the excited state structure and relaxation dynamics of the photosystem II reaction center: A high resolution hole burning study

Low temperature (4.2 K) absorption and hole burned spectra are reported for a stabilized preparation (no excess detergent) of the photosystem II reaction center complex. The complex was studied in glasses to which detergent had and had not been added. Triton X-100 (but not dodecyl maltoside) detergent was found to significantly affect the absorption and persistent hole spectra and to disrupt energy transfer from the accessory chlorophyll a to the active pheophytin a. However, Triton X-100 does not significantly affect the transient hole spectrum and lifetime (1.9 ps at 4.2 K) of the primary donor state, P680^*. Data are presented which indicate that the disruptive effects of Triton X-100 are not due to extraction of pigments from the reaction center, leaving structural perturbations as the most plausible explanation. In the absence of detergent the high resolution persistent hole spectra yield an energy transfer decay time for the accessory Chl a Q_Y-state at 1.6 K of 12 ps, which is about three orders of magnitude longer than the corresponding time for the bacterial RC. In the presence of Triton X-100 the Chl a Q_Y-state decay time is increased by at least a factor of 50.Abbreviations PS I photosystem I - PS II photosystem II - RC reaction center - P680, P870, P960 the primary electron donor absorption bands of photosystem II, Rhodobacter sphaeroides, Rhodopseudomonas viridis - NPHB nonphotochemical hole burning - TX Triton X-100 - DM Dodecyl Maltoside - Chl chlorophyll - Pheo pheophytin - ZPH ero phonon hole     

Nitrate-Sensitive ATPase Activity and Proton Pumping in Guard Cell Protoplasts of Commelina

ATPase activity was measured in crude homogenates of guard cellprotoplasts of Commelina communis L. using a linked enzyme assay.A low level of azide-sensitive ATPase activity was detectedwith a pH optimum of 6.8. This activity was stimulated by 0.01%(v/v) Triton X-100, and the pH optimum shifted to pH 7.4. Nitrate-sensitiveATPase activity was measured in the presence of azide and showeda pH optimum around pH 8.0. Proton pumping activity in a mixedpopulation of vesicles from GCP was monitored using fluorescencequenching of quinacrine. Mg-ATP dependent proton pumping wasobserved at pH 8.0, but not at pH 6.6. The activity at pH 8.0was inhibited by nitrate and DCCD but not vanadate. These dataindicate that activity of the tonoplast proton pump was beingmeasured. There was, however, no evidence for a tonoplast cation(K⁺)/proton antiporter under these assay conditions as potassiumdid not reduce the initial rate of pH gradient formation orincrease the rate of collapse of a pre-formed gradient afterinhibition of the pump. Key words: Tonoplast ATPase, proton pump, guard cell protoplasts, Commelina     

Characterization of ATPases Associated with Various Cellular Membranes Isolated from Etiolated Hypocotyls of Vigna radiata (L.) Wilczek

Cellular membrane fractions, including endoplasmic reticum (ER),Golgi-enriched membrane, plasma membrane and tonoplasts, wereisolated from Vigna radiata seedlings. Each of these membranefractions was associated with specific ATPases which were highlydependent on Mg²⁺. ATPases of ER, Golgi-enriched membrane andplasma membrane were sensitive to vanadate but the tonoplastATPase was not. ATPases were mostly dependent on Cl¹, but aslight stimulation by K⁺ was observed in the case of ATPasesof Golgi-enriched membrane and plasma membrane. KNO₃ inhibitedtonoplast ATPase but stimulated the other ATPases. ER ATPasecan be distinguished from other ATPases by the following characteristics:specific inhibition by KNO₂ and Triton X-100, stimulation bylow concentrations of diethylstilbestrol and 4,4'-diisothiocyanostilbene-2,2'-disulfonicacid, and high sensitivity to heat. The ATPases showed typicalMichaelis-Menten kinetics and had K_m values of 0.5 to 0.6 ITIMMg²⁺-ATP for ER, Golgienriched-membrane and tonoplast ATPases,and 2.27 msi Mg²⁺-ATP for plasma membrane ATPase. ATPases ofGolgi-enriched membranes and plasma membranes had similar properties,but they were still distinguishable by the differences in theirK_m values and their responses to Triton X-100. Based on theseresults, it is postulated that each cellular membrane is associatedwith a specific ATPase in cells of V. radiata. ¹Contribution No. 3171 from the Institute of Low TemperatureScience. (Received April 22, 1988; Accepted September 28, 1988)