Purification and Some Properties of Soluble Cytochromes, Cytochrome c-551 and Cytochrome c-550, from a Facultative Methylotroph, Protaminobacter ruber strain NR-1

Two soluble cytochromes of the C-type, cytochrome c-551 andcytochrome c-550, were purified from the bacteriochlorophyll-containingcells of a facultative methylotroph, Protaminobacter ruber StrainNR-1, by ion-exchange chromatography and gel-filtration. Cytochrome c-551 had absorption maxima at 551, 522 and 416 nmin the reduced form, and at 525, 410 and 273 nm in the oxidizedform. This cytochrome was a slightly basic protein with an isoelectricpoint of 8.4. It had a mid-point redox potential of 272 mV atpH 7.0. The molecular weight of this protein was 13,500 and13,700 by sodium dodecylsulfate polyacrylamide gel electrophoresis(SDS-PAGE) and gel-filtration, respectively. Cytochrome c-550 had absorption maxima at 550, 522 and 415 nmin the reduced form, and at 527, 409 and 278 nm in the oxidizedform. This cytochrome was acidic, having an isoelectric pointof 4.3. It had a mid-point redox potential of 227 mV at pH 7.0.Its molecular weight was 19,500 and 22,000 by SDS-PAGE and gel-filtration,respectively. (Received August 4, 1984; Accepted October 22, 1984)     

Purification of Sulphite-Cytochrome c Reductase of Thiobacillus novellus and Reconstitution of Its Sulphite Oxidase System with the Purified Constituents

Sulphite-cytochrome c reductase (sulphite: ferricytochrome coxidoreductase, EC 1.8.2.1 [EC] ) derived from Thiobacillus novelluswas purified by chromatography on a DEAE-cellulose column andby gel filtration with a Sephadex G-100 column. Although thereductase thus purified moved as a single band both in gel filtrationand in isoelectric focusing it was always split into two bandsby polyacrylamide gel electrophoresis; the one had the enzymaticactivity and showed absorption spectrum of cytochrome, whilethe other had no activity and was colourless, in contrast withthe results reported by Charles and Suzuki [(1966) Biochim.Biophys. Acta 128: 522]. The enzymatic properties of the purifiedreductase were almost the same as those of the enzyme obtainedby Charles and Suzuki. Cytochrome c-551 free of the reductase activity was obtained.Its molecular weight was determined to be 23,000 by polyacrylamidegel electrophoresis in the presence of sodium dodecyl sulphate.The cytochrome seemed to exist in the organism as a complexwith the reductase or a subunit of the enzyme. In the stateof the complex with the enzyme, the cytochrome was reduced veryquickly on addition of sulphite, while the cytochrome free ofthe reductase activity was hardly reduced by the enzyme withsulphite. A sulphite oxidase system was reconstituted with the reductase,cytochrome c-550 and cytochrome oxidase highly purified fromthe bacterium. ¹ Present address: Water Research Institute, Nagoya University,Nagoya 464, Japan ² Present address: Institute for Biological Science, SumitomoChemical Co., Ltd., Takarazuka, Hyogo 665, Japan (Received January 23, 1981; Accepted March 9, 1981)     

The Photoreaction Unit in Rhodopseudomonas viridis

We have examined the properties of the photoreaction unit (PRU)purified from the photo-synthetic membrane of Rhodopseudomonasviridis by polyacrylamide gel electrophoresis in the presenceof 3-[(3-cholamidopropyl)dimethylammonio]-l-propanesulfonate(CHAPS). The absorption spectrum and the X-ray diffraction patternof the isolated PRU were quite similar to those of the PRU inthe native photosynthetic membrane. Cytochrome, the H-, M-,and L-subunits of the reaction center (RC), and the -, ß-and -subunits of light-harvesting chlorophyll protein (LH) wereretained in the PRU. Levels of bacteriochlorophyll b and carotenoidsin PRU were predominantly unchanged during the purificationprocedure. Gel filtration indicated a molecular weight of about540 kDa in the presence of 0.5% CHAPS. Two high-potential hemes(Em = 360 mV) and two low-potential hemes (Em = 5 mV) were observedin the PRU. The molar extinction coefficient of the PRU at 1,005nm was estimated to be 4.3 µM^–l.cm^–l The purifiedPRU showed a light-induced current response between two electrodes. (Received February 2, 1990; Accepted July 18, 1990)     

Temperature-Induced Change of Chlorophyll a Forms in Phosphatidylcholine Liposomes

Absorption spectra of chlorophyll a in phosphatidylcholine liposomesat different temperatures were analyzed by a curve fitting method.The absorption spectrum was found to be composed of one majorband with a peak at 670–671 nm and minor bands with peaksat 650–652, 662–663 and 684–686 nm. Upon coolingbelow the phase transition temperature of the lipid, the componentabsorbing at 670–671 nm increased significantly at theexpense of the component absorbing at 662–663 nm. No changein the extents of other bands was observed. ¹ CIW-DPB Publication No. 795. ²On leave from the Department of Biology, Faculty of Science,Kanazawa University, Marunouchi, Kanazawa 920, Japan. (Received December 20, 1982; Accepted April 27, 1983)     

A Cytochrome P450 Mediated Naringenin 3'-Hydroxylase from Sweet Orange Cell Cultures

A microsomal flavonoid 3'-hydroxylase (F3'H) catalyzing themetabolism of naringenin to eriodictyol in Citrus sinensis (L.)Osbeck cv. ‘Hamlin’ cell suspension cultures wasshown to be a cytochrome P450 enzyme. This reaction requiredO₂ and NADPH and was inhibited by CO, with partial reversalof CO-inhibition by light at 450 nm. Cytochrome P450 contentranged from 10–20 pmol (mg microsomal protein)^–1.The F3'H reaction was shown to be linear in regard to proteinconcentration between 2.5 and 25 µg of microsomal protein.The optimum pH for the reaction was 7.4–7.6 and the temperatureoptimum was between 30 and 37°C. The apparent K_m and V_maxfor naringenin were 24 µM±3.2 and 81.4±7.9pmol eriodictyol min^–1 (mg protein)^–1, respectively.The microsomal F3'H was also capable of forming dihydroquercetinfrom dihydrokaempferol (40 pmol min^–1 (mg protein)^–1)and of quercetin from kaempferol (3.25 pmol min^–1 (mgprotein^–1). Cytochrome c and ketoconazole were the bestinhibitors of WH activity followed by piperonyl butoxide anda-naphthoflavone. Light was shown to be an inducer of the F3'Halmost doubling the specific activity and increasing the microsomalcytochrome P450 content by 30% over that of dark grown cells.F3'H activity was also confirmed in microsomal preparationsof young (new flush) leaves from ‘Hamlin’ treesand flavedo of ‘Hamlin’ oranges, ‘Marsh’grapefruit, and ‘Lisbon’ lemon. No activity wasobserved in older, hardened leaves and albedo of all the fruittested. Initiation of embryogenesis in the ‘Hamlin’cell suspension cultures by switching from a sucrose mediumto a glycerol-based medium resulted in the down-regulation ofF3'H. ¹Mention of a trademark, warranty, proprietary product, or vendordoes not constitute a guarantee by the U.S. Department of Agricultureand does not imply its approval to the exclusion of other productsor vendors that may also be suitable.     

Isolation and some properties of copper-binding proteins found in a copper-resistant strain of yeast

Copper-binding proteins were extracted from a copper-resistantstrain of Saccharomyces cerevisiae which was obtained by repeatedsubculturing in a copper-containing medium. They were separatedinto three types through purification steps such as salt fractionation,gel filtration and preparative polyacrylamide gel electrophoresis.They resembled each other in amino acid composition. Acidicamino acids, lysine, serine, glycine and half-cystine constituteda large part of the protein, with a small amount of hydrophobicamino acids. Aromatic amino acids and methionine were almostabsent. The molecular weight of the components was estimatedto be about 10,000 by Sephadex gel filtration and electrophoresison polyacrylamide gel (slope method). Absorption spectra ofthe components exhibited a broad band at 275 nm, but none inthe visible region, thus resembling that of copper-thionein.Moreover, the absorption band at 275 nm changed markedly onaddition of Ag⁺, Hg2⁺, CN^– or H₂O₂, which are well knownas thiol reagents. These components were abo produced in theparent cells, if they could grow in a copper-containing medium.Based the results of experiments using various culture conditionsand some other yeast species, a possible role of the componentsis discussed. (Received July 13, 1976; )     

Photosynthetic Properties of Guard Cell Protoplasts from Vicia faba L.

Guard cell protoplasts were isolated enzymatically from theepidermis of Vicia faba L. and their photosynthetic activitieswere investigated. Time courses of light-induced changes inthe chlorophyll a fluorescence intensity of these protoplastsshowed essentially the same induction kinetics as found formesophyll protoplasts of Vicia. The transient change in thefluorescence intensity was affected by DCMU, an inhibitor ofphotosystem II; by phenylmercuric acetate, an inhibitor of ferredoxinand ferredoxin NADP reductase; and by methyl viologen, an acceptorof photosystem I. Low temperature (77 K) emission spectra ofthe protoplasts had peaks at 684 and 735 nm and a shoulder near695 nm. A high O₂ uptake (175 µmol mg^–1 Chl hr^–1)was observed in guard cell protoplasts kept in darkness, whichwas inhibited by 2 mM KCN or NaN₃ by about 60%. On illumination,this O₂ uptake was partially or completely suppressed, but itssuppression was removed by DCMU, which indicates that oxygenwas evolved (150 µmol mg^–1 Chl hr^–1) photosynthetically.We concluded that both photosystems I and II function in guardcell chloroplasts and that these protoplasts have high respiratoryactivity. (Received January 30, 1982; Accepted May 15, 1982)     

Isolation of the Photoactive Reaction Center Complex that Contains Three Types of Fe-S Centers and a Cytochrome c Subunit from the Green Sulfur Bacterium Chlorobium limicola f. thiosulfatophilum, Strain Larsen

The photoactive reaction center (RC) complex from the greensulfur bacterium Chlorobium limicola f. thiosulfatophilum, strainLarsen, was isolated after solubilization and ammonium sulfatefractionation followed by ion-exchange chromatography. The spectrumof the complex was almost identical with that of the similarRC complex isolated by Feiler et al. [(1992) Biochemistry 31:2608–2614] except for the presence of cytochrome c₅₅₁instead of c₅₅₃ in the latter study. A molecular ratio of BChla to P840 of the isolated RC complex was assayed to be 25–35.SDSPAGE analysis revealed that the isolated complex containedthree major polypeptides with apparent molecular masses of 68,41 and 21 kDa, respectively. The 21-kDa polypeptide was identifiedto be a heme-binding protein by staining the gel for peroxidaseactivity. The cytochrome c₅₅₁ was oxidized by flash light ina biphasic manner with half times of 90 and 390 µs, respectively,that coincided with the reduction half times of P840⁺. Threedistinct iron-sulfur centers assigned to F_A, F_B and F_x, respectively,from their g-values were detected by EPR spectroscopy at cryogenictemperature. These results suggest that the present preparationcontains a minimal functional unit of the RC of this bacterium,and that this complex appears to lie on a evolutionary linebetween RC's of purple bacteria and photosystem I. (Received August 18, 1992; Accepted October 28, 1992)     

Effects of growth conditions on formation of cytochrome system of a denitrifying bacterium, Pseudomonas stutzeri

Cytochrome systems in cells of a denitrifying bacterium, Pseudomonasstutzeri (VAN NIEL strain), grown under different atmosphericconditions were compared with reference to the effects of nitrateand nitrite on cytochrome synthesis. When a culture was sufficiently aerated (aerobic conditions),synthesis of all cytochrome components was repressed, regardlessof the presence or absence of nitrate and nitrite. When aeratedmoderately (semi-aerobic conditions), both soluble and paniculatecytochromes c-552 and cytochrome b-558 contents markedly increasedeven in the absence of nitrate and nitrite. Under anaerobic or semi-aerobic conditions, nitrite inducedcytochrome a₂–c synthesis. This inductive effect of nitritewas counteracted by nitrate. Nitrate also repressed particulatecytochrome c-552 synthesis to some extent but nitrite did not. ¹Present address: Department of Biochemistry, Hiroshima UniversitySchool of Dentistry, Hiroshima, Japan (Received June 24, 1969; )     

Mechanism of Photoregulated Carotenogenesis in Rhodotorula minuta I. Photocontrol of Carotenoid Production

Rhodotorula minuta cells, which have only traces of carotenoidswhen grown in the dark, started carotenoid production with theonset of illumination and the amount increased almost linearlyuntil 70 hr then remained constant thereafter when incubationwas continued under illumination, with the number of cells continuingto increase. The rate of carotenoid production [Vc (µgg^–1 hr^–1)] depended on the intensity of light [I(ergcm^–2 sec^–1)], with the relationship of Vc=0.74 logI–1.46. The final carotenoid content [C(µg g^–1)]of cells incubated under continuous light was also controlledby the light intensity [I], with the relationship of C=52 logI–81. Control of carotenoid production by light occursas a two-phase process consisting of a temperatureindependentphotochemical reaction and light-independent biochemical reactions. (Received September 12, 1981; Accepted February 20, 1982)     

Photochemical Apparatus Organization in the Diatom Cylindrotheca fusiformis: Photosystem Stoichiometry and Excitation Distribution in Cells Grown under High and Low Irradiance

The photochemical apparatus organization in the thylakoid membraneof the diatom Cylindrotheca fusiformis was investigated in cellsgrown under high and low irradiance. High light (HL, 200µE.m^–2.s^–1)grown cells displayed a relatively low fucoxanthin to chlorophyll(Chl) ratio, a low photosystem (PS) stoichiometry (PSII/PS I=1.3/1.0)and a smaller photosynthetic unit size in both PS I and PS II.Low light (LL, 30µE.m^–2.s^–1) grown cells displayeda 30% elevated fucoxanthin content, elevated PS II/PS I=3.9/1.0and larger photosynthetic unit size for PS II (a change of about100%) and for PS I (by about 30%). In agreement, SDS polyacrylamidegel electrophoresis of thylakoid membrane polypeptides showedgreater abundance of PS I, RuBP carboxylase and ATP synthasepolypeptides in HL cells. In contrast, LL grown cells exhibitedgreater abundance of light-harvesting complex polypeptides.Assuming an efficiency of red (670 nm) light utilization of1.0, the measured efficiency of blue (481 nm) light utilizationwas 0.64 (HL cells) and 0.72 (LL cells). The lower efficiencyof blue versus red light utilization is attributed to the quenchingof absorbed energy by non-fucoxanthin carotenoids. Differencesin the efficiency of blue light utilization between HL and LLgrown cells are attributed to the variable content of fucoxanthin.The results support the hypothesis of a variable Chl a-Chl c-fucoxanthinlight-harvesting antenna associated with PS II and PS I in Cylindrotheca. (Received February 10, 1988; Accepted April 6, 1988)     

Auxin-Binding Protein in Etiolated Mung Bean Seedlings: Purification and Properties of Auxin-Bindmg Protein-II

An auxin-binding protein (ABP-II) was purified from the extractof etiolated mung bean seedlings by affinity chromatographyon 2,4-D-linked Sepharose 4B and by gel filtration on Sepharose4B and Sephacryl S-200. The molecular weight was estimated tobe about 190,000 by gel filtration on Sephacryl S-200. ABP-IIgave a single band corresponding to a molecular weight of about48,000 on SDS-polyacrylamide gel electrophoresis. The dissociationconstants of ABP-II for 2,4-D determined by amrnonium sulfateprecipitation and equilibrium dialysis were 9.5?10^–6 Mand 1.1?10^–5 M, respectively. ¹⁴C-2,4-D-binding to ABP-IIwas reversible and inhibited by addition of IAA, naphthalene-1-aceticacid, 2,4,5-trichlorophenoxyacetic acid or p-chlorophenoxyisobutylicacid to the assay mixture. (Received September 5, 1984; Accepted November 5, 1984)     

Properties of the Cytochrome c Oxidase Activity of Cytochrome b561 from Photoanaerobically Grown Rhodopseudomonas sphaeroides

Cytochrome b₅₆₁ from Rhodopseudomonas sphaeroides had cytochromec (c2) oxidase activity and a pH optimum at 6.0 for this activity.The activity was affected by the ionic strength of the reactionmixture. The apparent K_m and maximal velocity (V_max) valuesin the absence of addea salts were 14 µM and 120 nmoloxidized per min per mg protein for horse heart cytochrome c.Reduced horse heart cytochrome c was reoxidized in first-orderkinetics by this cytochrome b₅₆₁. The specific activity was0.7 s^–1 per mg protein at 20°C at the concentrationof 30 µMM cytochrome c. Activity was inhibited by KCN and NaN₃, but not by antimycin.The addition of a low concentration of KCN to the cytochromeb₅₆₁ produced a change in the absorption spectrum, evidencethat KCN interacts with the heme moiety of cytochrome b₅₆₁.Results of this and preceeding studies show that the cytochromeoxidase (cytochrome "o") described earlier (Sasaki et al. 1970)is cytochrome b₅₆₁. (Received May 16, 1983; Accepted September 8, 1983)     

Corrigendum

Due to an apparent fault in the telex system, a number of mistakeswere not corrected in this paper. The corrected lines are givenbelow p. 539: line 17In vivo fluorescence action spectra of chl a p. 541: Figure 2 legend, line 92.5 µW cm^–2 at 550nm (0.12 µE m^–2 s^–1 p. 542: Figure 3 legend, line 5( 89 µE m^–2 s^–1).Monochromatic beam intensity was 6 µW cm^–2 at 550nm (–0.28 µE m^–2 s^–1), Figure 3 legend, lines 8 and 9with intensity of 3 mW cm^–2( 179 µE m^–2 s^–1) Monochromatic beam intensitywas 7 5 µW cm^–2 at 550 nm (0.35 µE m^–2s^–1). line 6tivity. The match between the spectra of chl a fluorescenceand PSII O₂ evolution is lines 23–25fluorescence increasingly deviate from thoseof PSII O2 evolution. We attribute this discrepancy to selectivelight scattering by the algae. This scattering increases substantiallywith decreasing wavelength at that region when using a standardspectrofluorometer p. 543: Figure 4 legend, lines 3 and 4as in Chroomonas, withintensity of 2 mW cm^–2 ( 120 µE m^–2 s^–1).Monochromatic beam intensity was 15 µW cm^–2 at 550nm ( 0.7 µE m^–2 s^–1). line 7:ment types in the oceans. While all photoautotrophicorganisms have chl a (the bulk lines 12 and 13:and Barrett (1983). Our spectral data reflectthe great variability in pigment composition and functionalassociation in the major groups of algae. lines 25 and 26:Hiller, 1983). However, blue-violet and redPSII activity is much lower in cryptomonads than might be expectedfrom their absorption spectra (Haxo and Fork, 1958; Haxo, 1960), p. 544: Table I, column 3, entry 6:R-phycocyanin Table 1 legend, lines 1 and 2:^aHaxo and Blinks (1950); ^bFork(1961); ^cHaxo et al. (1955); ^dO'Carra and O'hEocha (1976); ^cresemblesDelesseria decipiens, Haxo and Blinks (1950, Figure 20); ^fHaxoand Fork (1969), like lines 1 and 2:I) indicates that these pigments are affiliatedwith PSII, perhaps exclusively, as in the red algae. In Rhodomonas,the peak of activity at 465 nm may be due to chl c absorp- p. 545: line 2:xanthophyll (fucoxanthin in diatoms, peridininin dinoflagellates and chl c. The ac line 7:shown to be similar to those of the much-studied Chlorella(Vidaver, 1966; Ried, 1972). line 14:tivity of PSII in algae. Spectrofluorometers, with theirsuperior sensitivity and stability, line 34:of natural populations, making these spectra more similarto the PSII photosynthesis lines 36 and 37:Large differences between the values of FIIfor different components within the algal population can distortfluorescence spectra, if they do not correspond with dif lines 41 and 42:different components are not similar to eachother. The necessary handling procedures of natural samples,such as filtration (Yentsch and Yentsch, 1979; Neori et al.,1984), p. 546: lines 20 and 21:DOE contract DE-AT03-82ER60031, anda grant to A.N., O.H.H. and F.T.H. from the Foundation for OceanResearch. Travel to the IInd GAP workshop was facilitated by lines 25 and 26:the culture of Chroomonas, J.Lance for helpwith cultures, J. and E.Yguerabide for the use of their spectrofluorometer,C.R.Booth, Y.Blatt and L.Petrosian for technical line 28:This study was in partial fulfilment for a Ph.D. degreeby A.N. line 42:Dutton.H.J., Manning.W.M. and Duggar.B.M. (1943) Chlorophyllfluorescence and energy transfer in the     

The Effects of Light Intensity and External Potassium Level on Root/Shoot Ratio and Rates of Potassium Uptake in Perennial Ryegrass (Lolium perenne L.)

Loliun perenne L. (cv.S. 23) was grown on vermiculite in winterin a heated greenhouse for 8 weeks under factorial combinationsof two potassium regimes (nominally 6 parts/10⁶ and 156 parts/10⁶in Hewitt's solution) and three densities of artificially supplementedvisible radiation flux (36.1, 7.3, and 2.2 W m^–2). Growthand potassium uptake were studied through the calculation ofvarious growth functions from fitted curves. There was little effect of potassium treatment but the experimentalmaterial responded markedly to light. Leaf-area ratio in thethree treatments showed extreme plasticity in increasing from2–3 x 10^–2 through 6 x 10^–2 to 8–9 x10^–2 m² g^–1 as light intensity decreased. Correspondingdecreases in unit leaf rate, however, caused over-all reductionsin relative growth rate. Specific absorption rates for potassium (A_K, dry-weight basis)were strongly reduced at the lower light intensities but alsodisplayed complex ontogenetic drifts. Values of the allometricconstant, k (the ratio of root and shoot relative growth rates),decreased from c. 0.7 at 36.1 W m^–2 through c. 0.3 at7.3 W m^–2 to a value not significantly different fromzero (P < 0.05) at 2.2 W m^–2. In material grown under the two higher light intensities a constantinverse relationship was found between the mass ratio of rootand shoot and the corresponding activity ratio. The resultsconform to this model: Mass ratio = –0.001+45.0 (1/activityratio) where activity ratio is expressed as specific absorptionrate for potassium (in µg g root^–1 h^–1)/unitshoot rate (rate of increase of whole-plant dry weight per unitshoot dry weight, in mg g shoot^–1 h^–1). The implicationsof this relationship are discussed.     

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)     

Purification and properties of a nitrite reductase from Porphyra yezoensis Ueda

Nitrite reductase was extracted from the red alga Porphyra yezoensisUeda and purified through precipitation with ammonium sulfate,column chromatographies, and polyacrylamide gel disk electrophoresis.The enzyme preparation thus obtained showed a single band ondisk electrophoresis. The absorption spectrum had three maxima at 385 nm (Soret band),580 nm (-band), and 278 nm; the ratio of absorbance of the Soretband to the -band was 4.3. The molecular weight and the numberof amino acid residues were estimated to be 63,000 and 601,respectively. The enzyme activity was optimal at around pH 7.5, and its activitywas heat labile as indicated by reduction of activity by about70% when heated at 37°C for 10 min. The enzyme used ferredoxin and methyl viologen, but not NADP⁺or NAD⁺, as the electron carriers. Moreover, reduced forms ofthe latter two showed no effect on its activity. Km values ofthis enzyme for NO₂^–, Fd, and MV were 8.1 x 10^–4M, 4.3 x 10^–8 M, and 3.7 x 10^–4 M, respectively.Almost half of its activity was lost when potassium cyanidewas added at a concentration as low as 10^–5 M, and theKi value was 1.8 x 10^–5 M. Thus, the nitrite reductaseof Porphyra must be systematically grouped in EC 1.7.7.1 [EC] . Itresembled closely that of Chlorella, except for the amountsof some amino acids. ¹ Present address: Department of Biological Sciences, Universityof Tsukuba, Sakura-Mura, Ibaraki, 300-31 Japan. ² Present address: Department of Fisheries, College of Agricultureand Veterinary Medicine, Nihon University, Shimouma, Setagaya-ku,Tokyo, 154 Japan. (Received June 10, 1975; )     

An Alternative Electron Transfer Pathway Mediated by Chloroplast Envelope

Localization of redox active substance(s) in chloroplast envelopeswas revealed by means of the oxidation of Cyt c by isolatedouter and inner envelope preparations. Irradiated chloroplastsreduced extra-chloroplastic Cyt c probably by an envelope electrontransfer chain. The rate was saturated at a level of about 10µmol (mg Chl)^–1 h^–1 under weak light of 10µEm^–2 s^–1. Cyt c photoreduction was inhibited by DCMUbut not by 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB)indicating that the plastoquinone site is the junction of photosyntheticelectron transfer chain to envelope redox substance. Completesuppression of the non-cyclic photophosphorylation of thylakoidsby the presence of envelope membranes indicates that there isan alternative electron transfer path-way in envelope membranesthat bypasses over the pH-forming plastoquinone shuttle in thephotosynthetic electron transfer chain. ¹ Present address: Photosynthesis Research Laboratory, Instituteof Physical and Chemical Research (RIKEN), Wako, Saitama, 351-0198Japan.     

Studies on the Hill reaction of membrane fragments of blue-green algae III. Fluorescence characteristics of membrane fragments of Anabaena variabilis and Anabaena cylindrica

Fluorescence spectra of the pigment system at –196°Cin membrane fragments of Anabaena variabilis and A. cylindricawere investigated. The fluorescence spectra of membrane fragments having four emissionbands at 645–655, 685, 695 and 725 nm were basically similarto those reported for intact cells of blue-green algae, thoughthe emission from phycocyanin (645–655 nm) was far strongerwith membrane fragments than with intact algal cells. Incubation of membrane fragments of A. variabilis in a dilutebuffer (10^–2M, pH 7.5) caused an increase in the 645 nmfluorescence and slight decreases in the 685 and 695 nm fluorescences,but had no influence on the 725 nm fluorescence. The decreasein the 685 and 695 nm fluorescences of A. cylindrica was moremarked and had the same kinetics as the inactivation of photosystemII reaction measured by DPIP-photoreduction. When membrane fragments of A. cylindrica were incubated in thebuffer solution at room temperature or in the presence of MgCl₂(10^–3M) at 0°C; phycobilin aggregates, which emittedthe 655 and 685 nm fluorescence, were solubilized. This solubilizationwas not observed with membrane fragments of A. variabilis. (Received August 31, 1972; )     

Time-Resolved Spectroscopy of Chlorophyll-a like Electron Acceptor in the Reaction Center Complex of the Green Sulfur Bacterium Chlorobium tepidum

The absorption changes of chlorophyll (Chl) a-like pigments(C670) were studied by ns-ms laser spectroscopy at 77 K in theuntreated and urea-treated homodimeric reaction center (RC)complex of the green sulfur bacterium Chlorobium tepidum. Theuntreated RC complex contained 9 molecules of C670 in additionto 41 molecules of Bchl a and 0.9 molecules of menaquinone-7per one primary electron donor Bchl a dimer (P840). Upon photo-oxidationof P840, C670 showed an absorption change of a red-shift withan isosbestic wavelength at 668 nm. The absorption change ofP840 decayed with time constants (t_1/e) of 55 and 37 ms at 283and 77 K, respectively, and was assigned to represent the chargerecombination between P840⁺ and FeS^–. In the urea-treatedRC complex, a bleach peaking at 670 nm with a shoulder peakat 662 nm, which is ascribable to the reduced primary electronacceptor A₀^–, was detected after the laser excitationin addition to the shift at 668 nm indicating the formationof the P840⁺A₀^– state. The P840⁺A₀^– state decayedwith a t_1/e of 43 ns at 77 K and produced a triplet state p840^Tdue to the suppression of the forward electron transfer. Theseresults indicate the two different types of C670 species inthe RC complex; the one peaking at 670 nm functions as A⁰, whilethe other peaking at 668 nm shows the electrochromic shift,which presumably functions as the accessory pigment locatedin the close vicinity of P840. (Received May 17, 1999; Accepted July 14, 1999)