Proline Rich Polypeptide (PRP-1) Increases the Superoxide-Producing and Ferrihemoglobin Reducing Activities of Cytochrome B<Subscript>558</Subscript> Isoforms from Human Lymphosarcoma Tissue Cells

The two cytochromes (cyt) b₅₅₈ of acidic nature, one—95–100 kDa and another one, 60–70 kDa were isolated for the first time from the human’s lymphosarcoma tissue cells using gel filtration and ion exchange chromatography. These hemoproteins possess NADPH dependent O₂ ⁻-producing and ferrihemoglobin-reducing activities. The incubation of neuropeptide PRP-1 (5 μg) with cytochrome b₅₅₈, caused elevation of these activities. The gel filtration results indicated possible binding of PRP-1 to these cytochromes b₅₅₈. PRP-1 activated both NADPH dependent O₂ ⁻-producing and ferriHb-reducing activities of the cyt b¹ ₅₅₈ and cyt b² ₅₅₈, obtained from human lymphosarcoma tissue cells. One can assume that PRP-1 associated with cyt b₅₅₈ on the surface of the tumor cells by increasing both NADPH dependent O₂ ⁻-producing and ferriHb-reducing activities of cyt b₅₅₈, increases the oxidation- reduction status. Changing the oxidation–reduction status and oxygen homeostasis of the tumor cells by PRP-1 can serve as one of the possible explanation of antitumorigenic effect of this cytokine.     

The kinetics of reactions around the cytochrome bf complex studied in an isolated system

The kinetics of oxidation and reduction of P700, plastocyanin, cytochrome f and cytochrome b-563 were studied in a reconstituted system consisting of Photosystem I particles, cytochrome bf complex and plastocyanin, all derived from pea leaf chloroplasts. Decyl plastoquinol was the reductant of the bf complex. Turnovers of the system were initiated by laser flashes. The reaction between oxidised P700 and plastocyanin was non-homogeneous in that a second-order rate coefficient of c. 5×10^–7 M^–1 s^–1 applied to 80% of the P700⁺ and c. 0.7×10⁷ M^–1 s^–1 to the remainder. In the presence of bf complex, but without quinol, the electron transfer between cytochrome f and oxidised plastocyanin could be described by a second-order rate coefficient of c. 4×10⁷ M^–1 s^–1 (forward), and c. 1.6×10⁷ M^–1 s^–1 (reverse). The equilibrium coefficient was thus 2.5. Unexpectedly, there was little reduction of cytochrome f ⁺ or plastocyanin⁺ by electrons from the Rieske centre. With added quinol, reduction of cytochrome b-563 occurred. Concomitantly, electrons appeared in the oxidised species. It was inferred that either the Rieske centre was not involved in the high-potential chain of electron transfer events, or that, only in the presence of quinol, electrons were quickly passed from the Rieske centre to cytochrome f ⁺. Additionally, the presence of quinol altered the equilibrium coefficient for the cyt f/PC interaction from 2.5 to c. 5. The reaction between quinol and the bf complex was describable by a second-order rate coefficient of about 3×10⁶ M^–1 s^–1. The pattern of the redox reactions around the bf complex could be simulated in detail with a Q-cycle model as previously found for chloroplasts.Abbreviations AQS anthraquinone sulphonate - cyt cytochrome - cyt b-563(H) high-potential cyt b-563 - cyt b-563(L) low potential cyt b-563 - FeS(R) the Rieske protein of the cyt bf complex, containing an Fe₂S₂ centre - PC plastocyanin - PS photosystem - P700 reaction centre in PS I     

Interaction between cadmium, zinc and silver-substituted plastocyanin and cytochrome b 6 f complex — heavy metals toxicity towards photosynthetic apparatus

This paper reports the results of research on the interaction between the cytochrome f of the active cytochrome b ₆ f complex (incubated with Cd-, Zn-, and Ag-substituted plastocyanins) and Cu-plastocyanin. The presented studies show, that the metal derivatives of plastocyanin can have an influence on the photosynthetic electron transfer path: cytochrome b ₆ f complex — photosystem I. The metal-substituted plastocyanins occupy the plastocyanin electron transfer site of the cytochrome f. The stopped-flow measurements show, that although the metal derivatives of plastocyanin do not influence the rate of cyt f- Pc electron transfer, creation of the non-electron-transfer complexes characterised by a strong binding between the cyt f and substituted plastocyanins and their slow release, dependent on the redox state of the substituted metal, results in the decrease of a turnover of the cytochrome complex. The research was done in the Department of Plant Biochemistry, Freiburg University, Sch?nzlestrasse 1, 79 104 Freiburg, Germany     

EFFECT OF VITAMIN E SUPPLEMENTATION AND PARTIAL SUBSTITUTION OF POLY- WITH MONO-UNSATURATED FATTY ACIDS IN PIG DIETS ON MUSCLE,AND MICROSOME EXTRACT a-TOCOPHEROL CONCENTRATION AND LIPID OXIDATION

The experiment was organized in a 3×2 factorial arrangement with three dietary fat blends and a basal (20 mg kg^?1 diet) or supplemented (220 mg kg^?1) level of α-tocopheryl acetate. Dietary vitamin E and monounsaturated to polyunsaturated fatty acid ratio (dietary MUFA/PUFA) affected muscle α-tocopherol concentration (α-tocopherol [log μg g^?1]=0.18 (±0.105)+0.0034 (±0.0003)·dietary α-tocopherol [mg kg^?1 diet] (P<0.0001)+0.39 (±0.122)·dietary MUFA/PUFA (P<0.0036)). An interaction between dietary α-tocopherol and dietary MUFA/PUFA exists for microsome α-tocopherol concentration (α-tocopherol [log μg g^?1]=1.14 (±0.169) (P<0.0001)+0.0056 (±0.00099)·dietary α-tocopherol [mg kg^?1 diet] (P<0.0001)+0.54 (±0.206)·dietary MUFA/PUFA (P<0.0131)?0.0033 (±0.0011)·dietary α-tocopherol [mg kg^?1)]×dietary MUFA/PUFA (P<0.0067)), and hexanal concentration in meat (hexanal [ng·g^?1]=14807.9 (±1489.8)?28.8 (±10.6) dietary α-tocopherol [mg·kg^?1] (P<0.01)?8436.6 (±1701.6)·dietary MUFA/PUFA (P<0.001)+24.0 (±11.22)·dietary α-tocopherol·dietary MUFA/PUFA (P<0.0416)). It is concluded that partial substitution of dietary PUFA with MUFA lead to an increase in the concentration of α-tocopherol in muscle and microsome extracts. An interaction between dietary α-tocopherol and fatty acids exists, in which at low level of dietary vitamin E inclusion, a low MUFA/PUFA ratio leads to a reduction in the concentration of α-tocopherol in microsome extracts and a concentration of hexanal in meat above the expected values.     

On the question of the identity of cytochrome b-560 in thylakoid stromal membranes

Stromal membranes enriched in PS I contain a low potential cytochrome with a reduced -band peak close to 560 nm. The identity of this cytochrome component has been ascribed either to a low potential form of the Photosystem II cytochrome b-559 or to a different cytochrome with a reduced -band of 560 nm. The half-bandwidth of the 560 nm component in stromal membranes is identical to that of purified cytochrome b-559. Western blots show that the stromal membranes contain an amount of PS II cytochrome b-559 -subunit that is more than sufficient to account for the cytochrome b-560 detected spectrophotometrically in these membranes. These immunochemical data and the similarity of (i) the spectral peaks, and (ii) the redox properties of low potential PS II cytochrome b-559 and the b-560 component, suggest that the simplest inference is that the cytochrome b-560 protein in stromal membranes is identical to the PS II cytochrome b-559.Abbreviations: A absorbance - cyt cytochrome - DCBQ 2,5-dichloro-p-benzoquinone - E_mx midpoint potential at pH x - hbw half-bandwidth - LP low potential - MD menadiol - MES 2-(N-morpholino)ethanesulfonic acid - MHQ methylhydroquinone - PS I-PS II photosystems I, II - SDS-PAGE sodium dodecylsulfate polyacrylamide gel electrophoresis     

Effects of reactive oxygen species on α-tocopherol production in mitochondria and chloroplasts of Euglena gracilis

The effects of reactive oxygen species (ROS) on α-tocopherol production in mitochondria and chloroplasts of Euglena gracilis were investigated. Addition of an organic carbon source to the medium resulted in increased mitochondrial activity, intracellular O₂ ^- concentration and α-tocopherol productivity in E. gracilis W₁₄ZUL (a chloroplast deficient mutant). α-Tocopherol productivity of the wild-type strain (with both mitochondria and chloroplast) was higher than that of the W₁₄ZUL strain. In the case of the wild strain, the O₂ ⁻ generated in chloroplasts was efficiently scavenged by the α-tocopherol synthesized inside the chloroplast. In photoheterotrophic culture (with an organic carbon source), there was a positive correlation between α-tocopherol production and O₂ ⁻ generation. Addition of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (an inhibitor of photosynthesis) resulted in increased O₂ ⁻ generation and α-tocopherol productivity. These results indicate that the ROS generated in mitochondria and chloroplasts play important roles in α-tocopherol production by E. gracilis. The presence of chloroplasts and generation of intracellular ROS are important for efficient production of α-tocopherol.     

The Important Role of Lipid Peroxidation Processes in Aging and Age Dependent Diseases

Any change in the cell membrane structure activates lipoxygenases (LOX). LOX transform polyunsaturated fatty acids (PUFAs) to lipidhydroperoxide molecules (LOOHs). When cells are severely wounded, this physiological process switches to a non-enzymatic lipid peroxidation (LPO) process producing LOO^· radicals. These oxidize nearly all-biological molecules such as lipids, sugars, and proteins. The LOO^· induced degradations proceed by transfer of the radicals from cell to cell like an infection. The chemical reactions induced by LO^· and LOO^· radicals seem to be responsible for aging and induction of age dependent diseases. Alternatively, LO^· and LOO^· radicals are generated by frying of fats and involve cholesterol-PUFA esters and thus induce atherogenesis. Plants and algae are exposed to LOO^· radicals generating radiation. In order to remove LOO^· radicals, plants and algae transform PUFAs to furan fatty acids, which are incorporated after consumption of vegetables into mammalian tissues where they act as excellent scavengers of LOO^· and LO^· radicals. Figure 6 of this article is reprinted from the paper of G. Spiteller: “Peroxyl radicals: Inductors of neurodegenerative and other inflammatory diseases. Their origin and how they transform cholesterol, phospholipids, plasmalogens, polyunsaturated fatty acids, sugars and proteins into deleterious products” published in Free Radic. Biol. Med. 41, 362–387 (2006) Elsevier, 2006 by permission from Elsevier.     

Molecular Phylogeny of the Chipmunks Inferred from Mitochondrial Cytochrome b and Cytochrome Oxidase II Gene Sequences

There are currently 25 recognized species of the chipmunk genus Tamias. In this study we sequenced the complete mitochondrial cytochrome b (cyt b) gene of 23 Tamias species. We analyzed the cyt b sequence and then analyzed a combined data set of cyt b along with a previous data set of cytochrome oxidase subunit II (COII) sequence. Maximum-likelihood was used to further test the fit of models of evolution to the cyt b data. Other sciurid cyt b sequence was added to examine the evolution of Tamias in the context of other sciurids. Relationships among Tamias species are discussed, particularly the possibility of a current sorting event among taxa of the southwestern United States and the extreme divergences among the three subgenera (Neotamias, Eutamias, and Tamias).     

Interactions of uranyl ion with cytochrome <Emphasis Type="Italic">b</Emphasis><Subscript>5</Subscript> and its His39Ser variant as revealed by molecular simulation in combination with experimental methods

The biological toxicity of uranyl ion (UO₂²⁺) lies in interacting with proteins and disrupting their native functions. The structural and functional consequences of UO₂²⁺ interacting with cytochrome b ₅ (cyt b ₅), a small membrane heme protein, and its heme axial ligand His39Ser variant, cyt b ₅ H39S, were investigated both experimentally and theoretically. In experiments, although cyt b ₅ was only slightly affected, UO₂²⁺ binding to cyt b ₅ H39S with a K _D of 2.5 μM resulted in obvious alteration of the heme active site, and led to a decrease in peroxidase activity. Theoretically, molecular simulation proposed a uranyl ion binding site for cyt b ₅ at surface residues of Glu37 and Glu43, revealing both coordination and hydrogen bonding interactions. The information gained in this study provides insights into the mechanism of uranyl toxicity toward membrane protein at an atomic level.     

Kinetic studies of electron transfer in the cyt b 5 : metHb system

 The kinetics of methemoglobin reduction by cytochrome b ₅ has been studied by stopped-flow and saturation transfer NMR. A forward rate constant k _f = 2.44×10⁴ M^–1 s^–1 and a reverse rate constant k _b = 540 M^–1s^–1 have been observed at 10 mm, pH 6.20, 25  °C. The ratio k _f/k _b = k _eq = 43.6 is in good agreement with the equilibrium constant calculated from the electrochemical potential between cyt b ₅ and methemoglobin. A bimolecular collisional mechanism is proposed for the electron transfer from cyt b ₅ to methemoglobin based on the kinetic data analysis. The dependence of the rate constants on ionic strengths supports such collisional mechanism. It is also found that the reaction rate strongly depends on the conformations of methemoglobin. Received: 20 February 1996 / Accepted: 4 June 1996     

The role of the membrane bound cytochromes of b- and c-type in the electron transport chain of Rhodobacter capsulatus

(1) The electron transport system of heterotrophically dark-grown Rhodobacter capsulatus was investigated using the wild-type strain MT1131 and the phototrophic non-competent (Ps^-) mutant MT-GS18 carrying deletions of the genes for cytochrome c ₁ and b of the bc ₁ complex and for cytochrome c ₂. (2) Spectroscopic and thermodynamic data demonstrate that deletion of both bc ₁ complex and cyt. c ₂ still leaves several haems of c- and b-type with Em_7.0 of +265 mV and +354 mV at 551–542 nm, and +415 mV and +275 mV at 561–575 nm, respectively. (3) Analysis of the oxidoreduction kinetic patterns of cytochromes indicated that cyt. b ₄₁₅ and cyt. b ₂₇₅ are reduced by either ascorbate-diaminodurene or NADH, respectively. (4) Growth on different carbon and nitrogen sources revealed that the membrane-bound electron transport chain of both MT1131 and MT-GS18 strains undergoes functional modifications in response to the composition of the growth medium used. (5) Excitation of membrane fragments from cells grown in malate minimal medium by a train of single turnover flashes of light led to a rapid oxidation of 32% of the membrane-bound c-type haem complement. Conversely, membranes prepared from peptone/yeast extract grown cells did not show cyt. c photooxidation. These results are discussed within the framework of an electron transport chain in which alternative pathways bypassing both the cyt. c ₂ and bc ₁ complex might involve high-potential membrane bound haems of b- and c-type.Abbreviations AA antimycin A - CCCP carbonylcyanide m-chlorophenyl hydrazone - CN^- cyanide - DAD diaminodurene - Q₂H₂ ubiquinol-2 - Q-pool ubiquinone-10 pool - RC photochemical reaction center     

Morphological evaluation and antioxidant activity of <Emphasis Type="Italic">in vitro</Emphasis>- and <Emphasis Type="Italic">in vivo</Emphasis>-derived <Emphasis Type="Italic">Echinacea purpurea</Emphasis> plants

An effective in vitro protocol for rapid clonal propagation of Echinacea purpurea (L.) Moench through tissue culture was described. The in vitro propagation procedure consisted of four stages: 1) an initial stage - obtaining seedlings on Murashige and Skoog (MS) basal medium with 0.1 mg L⁻¹ 6-benzylaminopurine, 0.1 mg L⁻¹ α-naphthalene acetic acid and 0.2 mg L⁻¹ gibberellic acid; 2) a propagation stage — shoot formation on MS medium supplemented with 1 mg L⁻¹ 6-benzylaminopurine alone resulted in 9.8 shoots per explant and in combination with 0.1 mg L⁻¹ α-naphthalene acetic acid resulted in 16.2 shoots per explant; 3) rooting stage — shoot rooting on half strength MS medium with 0.1 mg L⁻¹ indole-3-butyric acid resulted in 90% rooted microplants; 4) ex vitro acclimatization of plants. The mix of peat and perlite was the most suitable planting substrate for hardening and ensured high survival frequency of propagated plants. Significant higher levels were observed regarding water-soluble and lipid-soluble antioxidant capacities (expressed as equivalents of ascorbate and α-tocopherol) and total pnenols content in extracts of Echinaceae flowers derived from in vitro propagated plants and adapted to field conditions in comparison with traditionally cultivated plants.     

Cytochrome b type oxidases in the respiratory chains of the phytopathogenic fluorescent bacteria Pseudomonas cichorii and Pseudomonas aptata

Membrane fragments from the phytopathogenic bacteria Pseudomonas cichorii and Pseudomonas aptata have been examined. A branched respiratory chain is operative in P. cichorii whereas a linear electron transport system characterizes the related bacterium P. aptata. Both species contain several b type cytochromes resolved by redox titration analysis, but no a type components may be detected. In contrast, only P. cichorii is endowed with c type cytochromes and hence with cytochrome c oxidase activity. Among the b type cytochromes, two high-potential components, with Em_7.0 at +250 mV and +380 mV, have been kinetically characterized and tentatively associated with cyanideresistant and cytochrome c oxidase activities, respectively. Cytochrome b-250 should correspond to the spectrally detectable cytochrome o whereas cytochrome b-380 is functionally similar to cytochrome b-410 described in Rhodopseudomonas capsulata. This conclusion seems to blur previous reported data on other obligate aerobes in which cytochrome o has been generally associated with cytochrome c oxidase and also suggests that a more accurate reconsideration of the actual physiological role of cyt. o in bacterial respiration is necessary. Furthermore the question arises whether cyt. b-410 like oxidases, i. e. high-potential b's similar to cyt. b-410 of R. capsulata, may be widely distributed among aerobes rather than restricted to facultative photosynthetic prokaryotes.     

Optimization of low-cost drying methods to minimize lipid peroxidation in <Emphasis Type="Italic">Spirulina platensis</Emphasis> grown in the Philippines

Three low-cost drying methods (sun, solar, and draft oven) were optimized to produce Spirulina powder of optimal quality. Optimization in the pre-dehydration stage included the use of two antioxidants, α-tocopherol and tertiary-butyl hydroquinone (TBHQ), and two blanching methods, microwave and water bath, to inactivate enzymes. The efficiency of the pre-dehydration treatments at minimizing lipid peroxidation were evaluated in terms of the product’s oxidative stability using the thiobarbituric acid (TBA) test. The sample with the lowest TBA reactive substance (TBARS) value was considered the most stable. TBHQ was found to be significantly better than α-tocopherol in minimizing lipid peroxidation in blanched samples while α-tocopherol was better than TBHQ in unblanched samples. Microwave blanching exerted a greater stabilizing effect than water bath blanching. The combined effect of TBHQ and microwave blanching was found to be the most effective pre-dehydration treatment for minimizing lipid peroxidation in drying Spirulina. Among the three low-cost optimized drying methods, sun-drying produced a dried product with the lowest TBARS value (0.472 mg malondialdehyde.kg⁻¹), which was closest to that of the spray-dried (control) sample (0.434 mg MDA.kg⁻¹). Draft oven and solar drying produced dried products with the same average TBARS value (0.56 mg MDA.kg⁻¹). Sun-drying, when optimized, produced a dried product that was almost as stable as the spray-dried product. Presented at the 6th Meeting of the Asian Pacific Society of Applied Phycology, Manila, Philippines     

Increased α-tocopherol content in soybean seed overexpressing the <Emphasis Type="Italic">Perilla frutescens γ-tocopherol methyltransferase</Emphasis> gene

Tocopherols, with antioxidant properties, are synthesized by photosynthetic organisms and play important roles in human and animal nutrition. In soybean, γ-tocopherol, the biosynthetic precursor to α-tocopherol, is the predominant form found in the seed, whereas α-tocopherol is the most bioactive component. This suggests that the final step of the α-tocopherol biosynthetic pathway catalyzed by γ-tocopherol methyltransferase (γ-TMT) is limiting in soybean seed. Soybean oil is the major edible vegetable oil consumed, so manipulating the tocopherol biosynthetic pathway in soybean seed to convert tocopherols into more active α-tocopherol form could have significant health benefits. In order to increase the soybean seed α-tocopherol content, the γ-TMT gene isolated from Perilla frutescens was overexpressed in soybean using a seed-specific promoter. One transgenic plant was recovered and the progeny was analyzed for two generations. Our results demonstrated that the seed-specific expression of the P. frutescens γ-TMT gene resulted in a 10.4-fold increase in the α-tocopherol content and a 14.9-fold increase in the β-tocopherol content in T2 seed. Given the relative contributions of different tocopherols to vitamin E activity, the activity in T2 seed was calculated to be 4.8-fold higher than in wild-type seed. In addition, the data obtained on lipid peroxidation indicates that α-tocopherol may have a role in preventing oxidative damage to lipid components during seed storage and seed germination. The increase in the α-tocopherol content in the soybean seed could have a potential to significantly increase the dietary intake of vitamin E.     

Study on energy transfer between carotenoid and chlorophyll a in cytochrome b 6 f complex from Bryopsis corticulans

The excitation energy transfer between carotenoid and chlorophyll (Chl) in the cytochrome b ₆ f complex from Bryopsis corticulans (B. corticulans), in which the carotenoid is 9-cis-α-carotene, was investigated by means of fluorescence excitation and sub-microsecond time-resolved absorption spectroscopies. The presence of efficient singlet excitation transfer from α-carotene to Chl a was found with an overall efficiency as high as ∼ ∼24%, meanwhile the Chl a-to-α-carotene triplet excitation transfer was also evidenced. Circular dichroism spectroscopy showed that α-carotene molecule existed in an asymmetric environment and Chl a molecule had a certain orientation in this complex.Bin-Xing Li and Ping Zuo contributed equally to this work.     

Cytochrome b5 reductase–cytochrome b5 as an active P450 redox enzyme system in Phanerochaete chrysosporium: Atypical properties and in vivo evidence of electron transfer capability to CYP63A2

Two central redox enzyme systems exist to reduce eukaryotic P450 enzymes, the P450 oxidoreductase (POR) and the cyt b₅ reductase–cyt b₅. In fungi, limited information is available for the cyt b₅ reductase–cyt b₅ system. Here we characterized the kinetic mechanism of (cyt b₅r)–cyt b₅ redox system from the model white-rot fungus Phanerochaete chrysosporium (Pc) and made a quantitative comparison to the POR system. We determined that Pc-cyt b₅r followed a “ping-pong” mechanism and could directly reduce cytochrome c. However, unlike other cyt b₅ reductases, Pc-cyt b₅r lacked the typical ferricyanide reduction activity, a standard for cyt b₅ reductases. Through co-expression in yeast, we demonstrated that the Pc-cyt b₅r–cyt b₅ complex is capable of transferring electrons to Pc-P450 CYP63A2 for its benzo(a)pyrene monooxygenation activity and that the efficiency was comparable to POR. In fact, both redox systems supported oxidation of an estimated one-third of the added benzo(a)pyrene amount. To our knowledge, this is the first report to indicate that the cyt b₅r–cyt b₅ complex of fungi is capable of transferring electrons to a P450 monooxygenase. Furthermore, this is the first eukaryotic quantitative comparison of the two P450 redox enzyme systems (POR and cyt b₅r–cyt b₅) in terms of supporting a P450 monooxygenase activity.     

How rapid are the internal reactions of the ubiquinol:cytochrome c 2 oxidoreductase?

The temperature dependence of the partial reactions leading to turn-over of the UQH₂:cyt c ₂ oxidoreductase of Rhodobacter sphaeroides have been studied. The redox properties of the cytochrome components show a weak temperature dependence over the range 280–330 K, with coefficients of about 1 m V per degree; our results suggest that the other components show similar dependencies, so that no significant change in the gradient of standard free-energy between components occurs over this temperature range. The rates of the reactions of the high potential chain (the Rieske iron sulfur center, cytochromes c ₁ and c ₂, reaction center primary donor) show a weak temperature dependence, indicating an activation energy < 8 kJ per mole for electron transfer in this chain. The oxidation of ubiquinol at the Q_z-site of the complex showed a strong temperature dependence, with an activation energy of about 32 kJ mole^–1. The electron transfer from cytochrome b-566 to cytochrome b-561 was not rate determining at any temperature, and did not contribute to the energy barrier. The activation energy of 32 kJ mole^–1 for quinol oxidation was the same for all states of the quinone pool (fully oxidized, partially reduced, or fully reduced before the flash). We suggest that the activation barrier is in the reaction by which ubiquinol at the catalytic site is oxidized to semiquinone. The most economical scheme for this reaction would have the semiquinone intermediate at the energy level indicated by the activation barrier. We discuss the plausibility of this simple model, and the values for rate constants, stability constant, the redox potentials of the intermediate couples, and the binding constant for the semiquinone, which are pertinent to the mechanism of the ubiquinol oxidizing site.Abbreviations (BChl)₂ P870, primary donor of the photochemical reaction center - b/c ₁ complex ubiquinol: cytochrome c ₂ oxidoreductase - cyt b _H cytochrome b-561 or higher potential cytochrome b - cyt b _L cytochrome b-566, or low potential cytochrome b - cyt c ₁, cyt c ₂, cyt c _t cytochromes c ₁ and c ₂, and total cytochrome c (cyt c ₁ and cyt c ₂) - Fe.S Rieske-type iron sulfur center, Q - QH₂ ubiquinone, ubiquinol - Q_z, Q_zH₂, Q_z ^– ubiquinone, ubiquinol, and semiquinone anion of ubiquinone, bound at quinol oxidizing site - Q_z-site ubiquinol oxidizing site (also called Q_o-(outside) - Q_o (Oxidizing) - Q_P (Positive proton potential) site) - Q_c-site uubiquinone reductase site (also called the Q_i-(inside) - Q_R (Reducing), or - Q_N (Negative proton potential) site) - UHDBT 5-(n-undecyl)-6-hydroxy-4,7-dioxobenzothiazol     

Seed specific expression of perilla γ-tocopherol methyltransferase gene increases α-tocopherol content in transgenic perilla (<Emphasis Type="Italic">Perilla frutescens</Emphasis>)

Increasing vitamin E activity in economically important oil crops such as perilla will enhance the nutritional value of these crops. Perilla (Perilla frutescens Britt) represents an important oil crop in Asian countries, including Korea. Using Agrobacterium-mediated transformation, we have engineered perilla with the γ-tocopherol methyltransferase (γ-TMT) gene under the control of seed-specific vicillin promoter. Molecular characterization including PCR, Southern and Northern blots confirmed that the γ-TMT transgene was successfully inherited to and expressed in the progeny plants. The γ -TMT transgene was specifically expressed in immature seeds of transgenic plants, leading to efficient conversion of γ-tocopherol to α-tocopherol and dramatic increase in seed α-tocopherol content, as detected by high performance liquid chromatography analysis. We also showed that such a high α-tocopherol content phenotype was transmitted to the progeny plants. In addition, there was no significant change in fatty acid composition in transgenic seeds as compared with untransformed control Yeupsil cultivar, suggesting the lack of interplay between the fatty acid and tocopherol biosynthesis pathways. This was the first report on over expression of the γ-TMT gene in transgenic perilla displaying desirable high α-tocopherol content phenotype. Since α-tocopherol has the highest vitamin E activity, the transgenic perilla with high α-tocopherol content in seeds developed in this study will benefit both human and animal health.     

The effect of biochanin A on the chlorophylls and carotenoids content in the alga <Emphasis Type="Italic">Chlorella vulgaris</Emphasis> Beijerinck

The present study was undertaken to determine the influence of biochanin A, isoflavone characterised by estrogenic activity, upon the content of chlorophylls and carotenoids in the cells of green alga Chlorella vulgaris Beijerinck (Chlorophyceae). On the 6^th day of cultivation under the influence of 10⁻⁶ M biochanin A exerted the greatest biological activity and the most stimulating effect on the analysed parameters: growth of the alga expressed by the cells number and the content of photosynthetic pigments in them. The total content of carotenoids was stimulated on the 6^th day of experiment in the range of 197 % but during the 9^th day only in 179 % in comparision with the control group (100 %). At the same time content of carotenes increased to the level of 123 – 119 % and xanthophylls to 208 – 178 %. Among the carotenes, β-carotene was characterised with the 3.7 times higher content in regard to the content of α-carotene on the 6^th day of cultivation and during the 9^th day — the 5.7 times domination. The content of xanthophylls that contain two atoms of oxygene in molecule (oxygen — poor xanthophylls) was intensively stimulated in the range of 224 %. Moreover, the oxygen — rich xanthophylls content reached the value 179 % when compared to the control. The greatest stimulation of the content of chlorophylls and its isomers was observed during the 3^rd day of cultivation of Chlorella vulgaris when it rose up to 166 % and to 156 % on the 6^th day. The content of chlorophyll b and its isomers was stimulated in 181 % on the 6^th day of culture and 155 % during the 9^th day of algal culture. The evidence on the stimulating effect of biochanin A as the main representative of isoflavones on the growth and content photosynthetic pigments in eucaryotic alga C. vulgaris was demonstrated in these studies.