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1.
2.
对拟南芥(Arabidopsis thaliana)IQM3基因的功能进行了分析.结果表明,推定IQM3的启动子中存在多种光、非生物胁迫和植物激素反应的顺式作用元件,可能参与植物对环境变化的反应.RT-PCR分析表明,IQM3在拟南芥莲座叶、花序叶、茎、花和根中的表达较强,但在荚果中的表达很弱;IQM3基因的T-DNA插入突变体iqm3-1和iqm3-2分别是功能缺失和超表达突变体,对这些突变体的表型分析表明,IQM3基因与种子萌发及幼苗子叶膨大有密切关系.  相似文献   

3.
Bovine thyroid glands are known to contain a complex array of gangliosides. One of the predominant gangliosides was isolated and analyzed by gas-liquid chromatography and mass spectrometry. The carbohydrate composition was fucose, N-acetylneuraminic acid, galactose, N-acetylgalactosamine, and glucose in molar ratios of 1:1:2:1:1. The structure of the ganglioside was identified as:
  相似文献   

4.
S. Izawa  Donald R. Ort 《BBA》1974,357(1):127-143
NH2OH-treated, non-water oxidizing chloroplasts are shown to be capable of oxidizing ferrocyanide and I? via Photosystem II at appreciable rates (? 200 μequiv/h per mg chlorophyll). Using methylviologen as electron acceptor, ferrocyanide oxidation can be measured as O2 uptake, as ferricyanide formation, or as H+ consumption (2 Fe2+ + 2H+ + O2 → 2 Fe3+ + H2O2). I? oxidation can be measured as methylviologen-mediated O2 uptake, or spectrophotometrically, using ferricyanide as electron acceptor. The oxidation product I2 is re-reduced, as it is formed, by unknown reducing substances in the reaction system.The rate-saturating concentrations of these donors are very high: 30 mM with ferricyanide and 15 mM with I?. Relatively lipophilic Photosystem II donors such as catechol, benzidine and p-aminophenol saturate the photooxidation rate at much lower concentrations (< 0.5 mM). It thus seems that the oxidation of hydrophilic reductants such as ferricyanide and I? is limited by permeability barriers. Very likely the site of Photosystem II oxidation is embedded in the thylakoid membrane or is situated on the inner surface of the membrane.The efficiency of phosphorylation (P/e2) is 0.5 to 0.6 with ferrocyanide and about 0.5 with I?. In contrast the P/e2 ratio is 1.0 to 1.2 when water, catechol, p-aminophenol or benzidine serves as electron donor. These differences imply that only one of two phosphorylation sites operate when ferrocyanide and I? are oxidized. Ferrocyanide and I? are also chemically distinct from other Photosystem II donors in that their oxidation does not involve proton release. It is suggested that the mechanism of energy conservation associated with Photosystem II may be only operative when the removal of electrons from the donor results in release of protons (i.e. with water, hydroquinones, phenylamines, etc.).  相似文献   

5.
BCNU and 10 related chloroethylnitrosoureas were tested for their ability to induce sex-linked recessive lethals in Drosophila spermatozoa. All chloroethylnitrosoureas tested were potent mutagens. Among the substances with one chloroethylnitrosourea group, chlorozotocin, BCNU and methanesulfonyloxyethyl chloroethylnitrosourea exhibited the strongest mutagenic effects. Two hydroxyalkyl chloroethylnitrosoureas behaved as potent mutagens too, although the mutation frequencies obtained were one order of magnitude lower relative to the other substances. Among the compounds with two chloroethylnitrosourea groups, bisCNU-ethane and bisCNU-diphenylmethane were most active. When the interconnecting polymethylene chain was elongated from 2 methylene groups (bisCNU-ethane) to 6 methylene groups (bisCNU-hexane), the mutagenic activity decreased by a factor of 2. The mutagenic activity of polymethylene bischloroethylnitrosoureas with connecting chains of intermediate length was not different from bisCNU-hexane. Differences in mutagenic activity were supposed to reflect different concentrations reaching the target cells, possibly in part as a result of differences in transportability of the substances.  相似文献   

6.
B.R. Velthuys  J. Amesz 《BBA》1975,376(1):162-168
Delayed fluorescence (luminescence) from spinach chloroplasts, induced by short saturating flashes, was studied in the temperature region between 0 and ?40 °C. At these temperatures, in contrast to what is observed at room temperature, luminescence at 40 ms after a flash was strongly dependent, with period four, on the number of preilluminating flashes (given at room temperature, before cooling). At ?35 °C luminescence of chloroplasts preilluminated with two flashes (the optimal preillumination) was about 15 times larger than that of dark-adapted chloroplasts. The intensity of luminescence obtained with preilluminated chloroplasts increased steeply below ?10 °C, presumably partly due to accumulation of reduced acceptor (Q?), and reached a maximum at ?35 °C.In the presence of 50 mM NH4Cl the temperature optimum was at ?15 °C; at this temperature luminescence was increased by NH4Cl; at temperatures below ?20 °C luminescence at 40 ms was decreased by NH4Cl. At room temperature a strongly enhanced 40-ms luminescence was observed after the third and following flashes. The results indicate that both the S2 to S3 and the S3 to S4 conversion are affected by NlH4Cl.Inhibitors of Q? reoxidation, like 3-(3, 4-dichlorophenyl)-1, 1- dimethylurea, did only slightly affect the preillumination dependence of luminescence at sub-zero temperatures if they were added after the preillumination. This indicates that these substances by themselves do not accelerate the deactivation of S2 and S3.  相似文献   

7.
Yuichiro Nishizaki 《BBA》1973,314(3):312-319
The relationship between the kinetics of ATP formation and proton release in chloroplast suspensions by acid-base transition were studied by means of a stopped-flow spectrophotometer. The time course of ATP synthesis shows two-phase kinetics, fast and slow, corresponding to the two-phase efflux of protons from the chloroplasts. Under certain conditions of the experiments, about 50% of the H+ gradient is constantly utilized for ATP formation in both phases. However, the ratio of ATP formed to the amount of protons leaked out, changes depending on the rate constants of proton efflux.  相似文献   

8.
The 14-3-3 protein family interacts with more than 2000 different proteins in mammals, as a result of its specific phospho-serine/phospho-threonine binding activity. Seven paralogs are strictly conserved in mammalian species. Here, we show that during adipogenic differentiation of 3T3-L1 preadipocytes, the level of each 14-3-3 protein paralog is regulated independently. For instance 14-3-3β, γ, and η protein levels are increased compared to untreated cells. In contrast, 14-3-3ε protein levels decreased after differentiation while others remained constant. In silico analysis of the promoter region of each gene showed differences that explain the results obtained at mRNA and protein levels.  相似文献   

9.
Prompt and delayed chlorophyll fluorescence have been studied in broken spinach chloroplasts at pH values down to 2.6. No direct effect of low pH on the primary charge separation in Photosystem II was observed. The irreversible inactivation of a secondary electron donor in a narrow pH range around pH 4.5 was demonstrated. At lower pH values the photooxidized form of a more primary electron donor, revealed by its efficient fluorescence quenching, was reduced with a half time of about 200 μs, 25% by another electron donor and 75% by back reaction with the reduced acceptor. The electron donation had a half time of 800 μs and was practically irreversible. The back reaction had a pH dependent half time: about 270 μs at pH 4 and increasing towards lower pH. The competition of both reactions resulted in a net efficiency of the charge separation at pH 4 of 25%, increasing towards lower pH.  相似文献   

10.
Bruce Diner  David Mauzerall 《BBA》1973,292(1):285-290
A cell-free preparation has been isolated from a mutant of Cyanidium caldarium, grown under conditions such that there is 15 times less chlorophyll per photosynthetic unit than in normal green algae. The preparation is sensitive to 3-(3,4-dichlorophenyl)-1,1-dimethylurea and shows the well-characterized oscillation of O2 yield, from saturating flashes, following a period of dark adaptation. Greening experiments with dark-grown, wild-type Cyanidium show that the synthesis of photosynthetic units precedes that of bulk chlorophyll and that the O2-producing system is assembled before the total system coupled to CO2. No large-scale cooperation of chlorophyll molecules is required for O2 production.  相似文献   

11.
G. Dubertret  P. Joliot 《BBA》1974,357(3):399-411
The formation and the organization of Photosystem II photosynthetic units during the greening of a dark-grown Chlorella vulgaris, mutant 5/520, have been investigated by analysing the kinetics of the “activation” of oxygen evolution and of the fluorescence induction.

1. 1. The existence during the early stages of the greening of a stationary photosynthesis demonstrates the presence of active Photosystem II at these initial stages, which are integrated in a functional whole, leading to overall photosynthesis.

2. 2. The rise-time of oxygen evolution has been measured using far-red and green light in order to estimate the relative number of chlorophylls per unit. The amount of chlorophyll a remains relatively constant during the greening, while the progressive addition of chlorophyll b causes the size of the units to increase approx. 2-fold.

3. 3. The induction kinetics of the fluorescence are exponential during the early phases of greening and later become distinctly sigmoidal; this suggests that the first units synthesized on the surface of the membrane are isolated from each other by obstacles preventing electronic excitation transfers and that such obstacles which might correspond to some distance between such units, can disappear at later stages, allowing energy transfers to occur.

These observations suggest that the Photosystem II units represent organized functional entities. They apparently consist of a relatively constant number of chlorophyll a molecules, which during the greening is complemented progressively by the addition of chlorophyll b.  相似文献   


12.
目的:用原核表达的方法获得带有6个His标记的小鼠层粘连蛋白α5链LG1-3组件的重组蛋白,并制备其多克隆抗体。方法:利用RT-PCR技术,从小鼠心肌组织中扩增出小鼠层粘连蛋白α5链LG1-3组件cDNA片段,将该片段与原核表达载体pET-28a连接,构建重组表达质粒pETLG1-3并转化大肠杆菌BL21(DE3)获得重组表达菌株。用IPTG诱导重组大肠杆菌BL21(DE3)/pETLG1-3表达,SDS-PAGE分析表明在相对分子质量60000处有特异性重组蛋白表达条带,并经Western印迹进一步鉴定。用含融合蛋白的聚丙烯酰胺凝胶颗粒免疫家兔,制备抗小鼠层粘连蛋白α5链LG1-3组件多克隆抗体,ELISA方法检测抗体滴度。结果:从小鼠心肌组织中克隆了层粘连蛋白α5链LG3组件的基因,并在大肠杆菌得以表达和纯化;制备了重组蛋白的多克隆抗体,其滴度可达到1∶10240。结论:小鼠层粘连蛋白α5链LG1-3组件重组蛋白及其多克隆抗体的获得,为后续研究其功能打下了基础。  相似文献   

13.
14.
J.A. Van Best  L.N.M. Duysens 《BBA》1975,408(2):154-163
The kinetics of the fluorescence yield Ф of chlorophyll a in Chlorella pyrenoidosa were studied under anaerobic conditions in the time range from 50 μs to several minutes after short (t12 = 30 ns or 5 μs) saturating flashes. The fluorescence yield “in the dark” increased from Ф = 1 at the beginning to Ф ≈ 5 in about 3 h when single flashes separated by dark intervals of about 3 min were given.After one saturating flash, Ф increased to a maximum value (4–5) at 50 μs, then Ф decreased to about 3 with a half time of about 10 ms and to the initial value with a half time of about 2 s. When two flashes separated by 0.2 s were given, the first phase of the decrease after the second flash occurred within 2 ms. After one flash given at high initial fluorescence yield, the 10-ms decay was followed by a 10 s increase to the initial value. After the two flashes 0.2 s apart, the rapid decay was not follewed by a slow increase.These and other experiments provided additional evidence for and extend an earlier hypothesis concerning the acceptor complex of Photosystem II (Bouges-Bocquet, B. (1973) Biochim. Biophys. Acta 314, 250–256; Velthuys, B. R. and Amesz, J. (1974) Biochim. Biophys. Acta 333, 85–94): reaction center 2 contains an acceptor complex QR consisting of an electron-transferring primary acceptor molecule Q, and a secondary electron acceptor R, which can accept two electrons in succession, but transfers two electrons simultaneously to a molecule of the tertiary acceptor pool, containing plastoquinone (A). Furthermore, the kinetics indicate that 2 reactions centers of System I, excited by a short flash, cooperate directly or indirectly in oxidizing a plastohydroquinone molecule (A2?). If initially all components between photoreaction 1 and 2 are in the reduced state the following sequence of reactions occurs after a flash has oxidised A2? via System I: Q?R2? + A → Q?R + A2? → QR? + A2?. During anaerobiosis two slow reactions manifest themselves: the reduction of R (and A) within 1 s, presumably by an endogenous electron donor D1, and the reduction of Q in about 10 s when R is in the state R? and A in the state A2?. An endogenous electron donor, D2, and Q? compete in reducing the photooxidized donor complex of System II in reactions with half times of the order of 1 s.  相似文献   

15.
The kinetics of the photoreduction of C-550, the photooxidation of cytochrome b559 and the fluorescence yield changes during irradiation of chloroplasts at ?196 °C were measured and compared. The photoreduction of C-550 proceeded more rapidly than the photooxidation of cytochrome b559 and the fluorescence yield increase followed the cytochrome b559 oxidation. These results suggest that fluorescence yield under these conditions indicates the dark reduction of the primary electron donor to Photosystem II, P680+, by cytochrome b559 rather than the photoreduction of the primary electron acceptor.The photoreduction of C-550 showed little if any temperature dependence over the range of ?196 to ?100 °C. The amount of cytochrome b559 photooxidized was sensitive to temperature decreasing from the maximal change at temperatures between ?196 to ?160 °C to no change at ?100 °C. To the extent that the reaction occurred at temperatures between ?160 and ?100 °C the rate was largely independent of temperature. The rate of the fluorescence increase was dependent on temperature over this range being 3–4 times more rapid at ?100 than at ?160 °C. At ?100 °C the light-induced fluorescence increase and the photoreduction of C-550 show similar kinetics. The temperature dependence of the fluorescence induction curve is attributed to the temperature dependence of the dark reduction of P680+.The intensity dependence of the photoreduction of C-550 and of the photooxidation of cytochrome b559 are linear at low intensities (below 200 μW/cm2) but fall off at higher intensities. The failure of reciprocity in the photoreduction of C-550 at the higher intensities is not explained by the simple model proposed for the Photosystem II reaction centers.  相似文献   

16.
W. Kaiser  W. Urbach 《BBA》1976,423(1):91-102
1. Dihydroxyacetone phosphate in concentrations ? 2.5 mM completely inhibits CO2-dependent O2 evolution in isolated intact spinach chloroplasts. This inhibition is reversed by the addition of equimolar concentrations of Pi, but not by addition of 3-phosphoglycerate. In the absence of Pi, 3-phosphoglycerate and dihydroxyacetone phosphate, only about 20% of the 14C-labelled intermediates are found in the supernatant, whereas in the presence of each of these substances the percentage of labelled intermediates in the supernatant is increased up to 70–95%. Based on these results the mechanism of the inhibition of O2 evolution by dihydroxyacetone phosphate is discussed with respect to the function of the known phosphate translocator in the envelope of intact chloroplasts.2. Although O2 evolution is completely suppressed by dihydroxyacetone phosphate, CO2 fixation takes place in air with rates of up to 65μ mol · mg?1 chlorophyll · h?1. As non-cyclic electron transport apparently does not occur under these conditions, these rates must be due to endogenous pseudocyclic and/or cyclic photophosphorylation.3. Under anaerobic conditions, the rates of CO2 fixation in presence of dihydroxyacetone phosphate are low (2.5–7 μmol · mg?1 chlorophyll · h?1), but they are strongly stimulated by addition of dichlorophenyl-dimethylurea (e.g. 2 · 10?7 M) reaching values of up to 60 μmol · mg?1 chlorophyll · h?1. As under these conditions the ATP necessary for CO2 fixation can be formed by an endogenous cyclic photophosphorylation, the capacity of this process seems to be relatively high, so it might contribute significantly to the energy supply of the chloroplast. As dichlorophenyl-dimethylurea stimulates CO2 fixation in presence of dihydroxyacetone phosphate under anaerobic but not under aerobic conditions, it is concluded that only under anaerobic conditions an “overreduction” of the cyclic electron transport system takes place, which is removed by dichlorophenyl-dimethylurea in suitable concentrations. At concentrations above 5 · 10?7 M dichlorophenyl-dimethylurea inhibits dihydroxyacetone phosphate-dependent CO2 fixation under anaerobic as well as under aerobic conditions in a similar way as normal CO2 fixation. Therefore, we assume that a properly poised redox state of the electron transport chain is necessary for an optimal occurrence of endogenous cyclic photophosphorylation.4. The inhibition of dichlorophenyl-dimethylurea-stimulated CO2 fixation in presence of dihydroxyacetone phosphate by dibromothymoquinone under anaerobic conditions indicates that plastoquinone is an indispensible component of the endogenous cyclic electron pathway.  相似文献   

17.
18.
David B. Knaff 《BBA》1973,292(1):186-192
Removal of plastocyanin from Photosystem I subchloroplast particles had no effect on the Photosystem I photooxidation of cytochrome f. Chloroplasts depleted of plastocyanin by sonication lost the ability to reduce cytochrome f in Photosystem II light. Addition of plastocyanin restored the photoreduction of cytochrome f. These results are consistent with a plastocyanin site on the reducing side of cytochrome f.  相似文献   

19.
Isoproterenol (2 μM) stimulated the basal rate of 3-0-methylglucose transport into isolated human adipocytes by increasing the Vmax without changing the dissociation constant (Ks), while isoproterenol had no consistent effect on maximum insulin-stimulated glucose transport. In contrast, 1 mM 3-isobutyl-1- methylxanthine inhibited both basal and maximum insulin-stimulated transport by increasing the Ks without a significant change in Vmax. Glucose transport, therefore, is affected oppositely and by different kinetic parameters by two agents which are known to increase cyclic AMP levels in isolated human adipocytes.  相似文献   

20.
J. Amesz  M.P.J. Pulles  B.R. Velthuys 《BBA》1973,325(3):472-482

1. 1. Spinach chloroplasts were stored in the dark for at least 1 h, rapidly cooled to −40 °C, and illuminated with continuous light or short saturating flashes. In agreement with the measurements of Joliot and Joliot, chloroplasts that had been preilluminated with one or two flashes just before cooling showed a less efficient increase in the yield of chlorophyll a fluorescence upon illumination at −40 °C than dark-adapted chloroplasts. The effect disappeared below −150 °C, but reappeared again upon warming to −40 °C. Little effect was seen at room temperature in the presence of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), added after the preillumination.

2. 2. Light-induced absorbance difference spectra at −40 °C in the region 500–560 nm indicated the participation of two components, the socalled 518-nm change (P518) and C-550. After preillumination with two flashes the absorbance change at 518 nm was smaller, and almost no C-550 was observed. After four flashes, the bands of C-550 were clearly visible again.

3. 3. The fluorescence increase and the absorbance change at 518 nm showed the same type of flash pattern with a minimum after the second and a maximum at the fourth flash. In the presence of 100 μM hydroxylamine, the fluorescence response was low after the fourth and high again after the sixth flash, which confirmed the hypothesis that the flash effect was related to the so-called S-state of the electron transport pathway from water to Photosystem 2.

4. 4. The kinetics of the light-induced absorbance changes were the same at each wavelength, and, apart from the size of the deflection, they were independent of preillumination. Flash experiments indicated that the absorbance changes were a one-quantum reaction. This was also true for the fluorescence increase in dark-adapted chloroplasts, but with preilluminated chloroplasts several flashes were needed to approximately saturate the fluorescence yield.

5. 5. The results are discussed in terms of a mechanism involving two electron donors and two electron acceptors for System 2 of photosynthesis.

Abbreviations: DCMU, 3-(3,4-dichlorophenyl)-1, 1-dimethylurea  相似文献   


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