Involvement of Photosynthetic Carbon Reduction Cycle Intermediates in CO(2) Fixation and O(2) Evolution by Isolated Chloroplasts

The photosynthetic carbon reduction cycle intermediates can be divided into three classes according to their effects on the rate of photosynthetic CO₂ evolution by whole spinach (Spinacia oleracea) chloroplasts and on their ability to affect reversal of certain inhibitors (nigericin, arsenate, arsenite, iodoacetate, antimycin A) of photosynthesis: class I (maximal): fructose 1, 6-diphosphate, dihydroxyacetone phosphate, glyceraldehyde-3-phosphate, ribose-5-phosphate; class 2 (slight): glucose 6-phosphate, fructose 6-phosphate, ribulose-1, 5-diphosphate; class 3 (variable): glycerate 3-phosphate. While class 1 compounds influence the photosynthetic rate, they do not lower the Michaelis constant of the chloroplast for bicarbonate or affect strongly other photosynthetic properties such as the isotopic distribution pattern. It was concluded that the class 1 compounds influence the chloroplast by not only supplying components to the carbon cycle but also by activating or stabilizing a structural component of the chloroplast.     

Heterogeneity of dormancy in the turions of Spirodela polyrrhiza

Spirodela polyrrhiza exhibits at least two different types ofdormancy in turions induced by nitrogen deficiency, i.e., Y(young)- and O (old)-type turions produced at early and latestages in the formation process, respectively. On the otherhand, turions induced by relatively low temperature are mainlythe Y type. O-type turions germinate rapidly under darkness with the additionof NO₃-. However, under semi-anaerobic and anaerobic conditionsthey germinate only when exposed to light in the presence ofNO₃-. Y-type turions germinate in air after a definite dormant periodonly under light and in the presence of NO₃-. The dormancy isbroken by light regardless of the presence of NO₃-, althoughthe germination phase requires both. This dormancy is also brokenwhen a definite period of darkness is given in the absence ofNO₃-, and the germination proceeds in the presence of NO₃- withor without light. Thus, an alternative process exists for theY type in which the dormancy is released by either light ordarkness. (Received October 3, 1978; )     

不同浓度铜对紫背萍和青萍色素含量及抗氧化酶系统的影响

通过水培试验研究了不同浓度的重金属Cu对紫背萍(Spirodela polyrrhiza)和青萍(Lemna minor)的色素含量和抗氧化酶系统的影响.结果表明,低浓度Cu(0.056 mg·L^-1)的处理下,紫背萍和青萍的叶绿素a、叶绿素b和叶绿素(a+b)的含量均出现不同程度的增加,分别高出其对照11％、46％、22％和8％、15％、11％,而在高浓度Cu(0.18～5.60 mg·L^-1)的处理下,上述色素含量均显著下降,平均下降幅度分别达63％、62％、65%和46％、44％、45％.紫背萍体内丙二醛(MDA)含量为青萍的2.57倍.两种浮萍的超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和过氧化物酶(POD)的活性均随Cu浓度的增加而呈先升后降的趋势,紫背萍体内3种酶活性在Cu浓度仅为0.18 mg·L^-1时即达峰值,随后则大幅下降,而青萍体内3种酶活性却在Cu浓度分别升高到0.56、1.0和1.0 mg·L^-1时才达到峰值.可见,在Cu胁迫下,紫背萍受Cu毒害较青萍深,且其体内抗氧化酶系统也较青萍敏感.     

紫萍P143品系植物rbcS基因的cDNA克隆与表达

紫萍P14 3品系离体半叶状体在黑暗下培养 4d以后 ,rbcS基因的表达比完整植株显著降低 ;半叶状体在黑暗下培养 10d ,后再转移到长日照条件下培养 ,rbcS基因的表达能恢复到较高水平     

Phytoremediation of Cr(VI) by Spirodela polyrrhiza (L.) Schleiden employing reducing and chelating agents

Phytoremediation of Cr(VI) by Spirodela polyrrhiza in binary combinations with low molecular weight organic compounds (LMWOCs) with a reducing or chelating potential, viz., ascorbic acid, citric acid, tartaric acid, oxalic acid, lactic acid, and glycerol was studied in Cr(VI) containing hydroponic media. Significant increase in the relative dry weight of plants with respect to Cr(VI) treated controls was observed with ascorbic acid and glycerol. The uptake of chromium by S. polyrrhiza followed Michaelis-Menten kinetics of active ion uptake. Interaction between Cr and ascorbic acid, oxalic acid, and lactic acid decreased Cr uptake, whereas citric acid, glycerol, and tartaric acid increased it. Supplementation of LMWOCs to Cr(VI) containing media decreased the MDA content of the plants. Multiple regression models revealed that LMWOCs decrease lipid peroxidation independently, as well as that induced by Cr(VI). It was found that superoxide dismutase (SOD), guaiacol peroxidase (GPX), and catalase (CAT) activities were increased significantly in plants growing in media containing Cr(VI). The study established that lactic acid, citric acid, ascorbic acid, and glycerol were most effective in increasing the Cr(VI) phytoremediating potential of S. polyrrhiza and LMWOCs with reducing or chelating properties decrease Cr(VI) stress in S. polyrrhiza.     

Regulation of Soybean Net Photosynthetic CO(2) Fixation by the Interaction of CO(2), O(2), and Ribulose 1,5-Diphosphate Carboxylase

Kinetic properties of soybean net photosynthetic CO₂ fixation and of the carboxylase and oxygenase activities of purified soybean (Glycine max [L.] Merr.) ribulose 1, 5-diphosphate carboxylase (EC 4.1.1.39) were examined as functions of temperature, CO₂ concentration, and O₂ concentration. With leaves, O₂ inhibition of net photosynthetic CO₂ fixation increased when the ambient leaf temperature was increased. The increased inhibition of CO₂ fixation at higher temperatures was caused by a reduced affinity of the leaf for CO₂ and an increased affinity of the leaf for O₂. With purified ribulose 1,5-diphosphate carboxylase, O₂ inhibition of CO₂ incorporation and the ratio of oxygenase activity to carboxylase activity increased with increased temperature. The increased O₂ sensitivity of the enzyme at higher temperature was caused by a reduced affinity of the enzyme for CO₂ and a slightly increased affinity of the enzyme for O₂. The similarity of the effect of temperature on the affinity of intact leaves and of ribulose 1,5-diphosphate carboxylase for CO₂ and O₂ provides further evidence that the carboxylase regulates the O₂ response of photosynthetic CO₂ fixation in soybean leaves. Based on results reported here and in the literature, a scheme outlining the stoichiometry between CO₂ and O₂ fixation in vivo is proposed.     

Clonal Differences in the Formation of Turions are Independent of the Specific Turion-inducing Signal in Spirodela polyrhiza (Great Duckweed)

Abstract: Turion (survival organ) formation in Spirodela polyrhiza includes a switch in the programming of the primordia from the formation of vegetative fronds toward resting turions. The specific turion yield (SY; number of turions formed by one frond) is used to evaluate the effect of three turion-inducing signals: low phosphate concentration (depleted due to frond growth), low temperature (15 °C) and exogenously applied abscisic acid (1 μM). The formation of turions was observed in the presence of any of the turion-inducing factors in all three clones of S. polyrhiza investigated (clones 9256 from Finland, SJ from Germany and SC from Cuba). The clone SC showed no specific induction by low temperature or phosphate limitation in one nutrient medium. Regardless of the specific signal applied, the SYs were highest in clone 9256 and lowest in clone SC, demonstrating signal-independent clonal differences. Clonal differences are therefore located in the developmental-specific common phase of the transduction chains leading to turion formation. We intend to use clonal differences in the molecular analysis of turion formation, e.g., by cDNA-based amplified fragment length polymorphism, to distinguish signal-specific and developmental-specific gene expression. In contrast, the total turion yield is useful in an ecological context to evaluate the number of turions available to support the survival of a population of plants but gives little information about the physiological process.     

Effects of CO(2) and O(2) on Photosynthesis and Growth of Autotrophic Tobacco Callus

Gas exchange measurements were made on plants from two natural populations differing in salt tolerance of Andropogon glomeratus, a C₄ nonhalophyte, to examine the effect of salinity on components responsible for differences in photosynthetic capacity. Net CO₂ uptake and stomatal conductance decreased with increasing salinity in both populations, but to a greater extent in the inland (nontolerant) population. The intercellular CO₂ concentrations increased with increasing salinity in the inland population, but decreased in the marsh (tolerant) population. Water use efficiency decreased as salinity increased in the inland population, and remained unchanged in the marsh population. Carboxylation efficiency decreased and CO₂ compensation points increased with increasing salinity in both populations, but to a lesser extent in the marsh population. Carboxylation efficiencies were higher with 2% relative to 21% atmospheric O₂ in salt stressed plants, suggesting that a decrease in the carboxylation:oxygenation ratio of ribulose 1,5-bisphosphate carboxylase/oxygenase was partly responsible for the decrease in photosynthetic capacity. Populational differences in photosynthetic capacity were the result of greater salinity-induced changes in carboxylation efficiency in the inland population, and not due to differences in the stomatal limitation to CO₂ diffusion.     

A Comparison of the Effects of Chelates, Salicylic Acid and Benzoic Acid on Growth and Flowering of Spirodela polyrrhiza

Flowering in the genus Spirodela, whether in the laboratoryor in nature, has been observed only rarely. In this communication,the growth and flowering behaviour of a local isolate of S.polyrrhiza, strain SP₂₀, is being reported. The presence ofa chelate, such as EDTA, is obligatory for satisfactory vegetativegrowth of S. polyrrhiza SP₂₀- An optimal flowering responseis obtained, however, only when compounds such as EDDHA, a phenolicanalog of EDTA, or benzoic acid are supplied. Flowering, soinduced, is not influenced by the length of the photoperiod.Flowering fronds become gibbous and both EDDHA and benzoic acidalso enhanced anthocyanin content. This investigation has also revealed that salicylic acid, whichis known to have chelating properties itself, induces floweringin this duckweed only in the simultaneous presence of EDTA,in the nutrient solution. (Received January 14, 1986; Accepted May 10, 1986)     

CO2 浓度升高对两种沈阳城市森林树种光合特性的影响

利用开顶式气室, 研究了CO2浓度升高条件下城市森林主要树种油松(Pinus tabulaefomis)和银杏(Ginkgo biloba)主要光合特性的变化。结果表明, 整个生长季, CO2浓度升高(700 mmol.mol-1)条件下2树种叶片的净光合速率、可溶性糖、淀粉和可溶性蛋白含量均接近或高于相应对照(自然CO2浓度)值, 但不同树种增加的幅度不同; 而2树种的叶绿素含量和Chl a/Chl b值对CO2浓度升高反应不一, 表现为CO2浓度升高条件下油松的叶绿素含量较对照值高, Chl a/Chl b值降低, 银杏的叶绿素含量为前期升高, 后期降低, Chl a/Chl b值变化与之正好相反, 说明城市森林组成树种对CO2浓度升高的响应具有复杂性。CO2浓度升高条件下, 两树种均未发生光合适应现象。     

Photoinhibition of CO(2)-Dependent O(2) Evolution by Intact Chloroplasts Isolated from Spinach Leaves

Intact spinach (Spinacia oleracea L.) chloroplasts, when pre-illuminated at 4 millimoles quanta per square meter per second for 8 minutes in a CO₂-free buffer at 21% O₂, showed a decrease (30-70%) in CO₂-dependent O₂ evolution and ¹⁴CO₂ uptake. This photoinhibition was observed only when the O₂ concentration and the quantum fluence rate were higher than 4% and 1 millimole per square meter per second, respectively. There was only a small decrease in the extent of photoinhibition when the CO₂ concentration was increased from 0 to 25 micromolar during the treatment, but photoinhibition was abolished when the CO₂ concentration was increased to 30 micromolar. Addition of small quantities of P-glycerate (40-200 micromolar) or glycerate (160 micromolar) was found to prevent photoinhibition. Other intermediates of the Calvin cycle (fructose-6-P, fructose-1,6-P, ribose-5-P, ribulose-5-P) also prevented photoinhibition to various extents. Oxaloacetate was not effective in preventing photoinhibition in these chloroplasts. The amount of O₂ evolved during treatments with 3-P-glycerate or glycerate was no more than 65% of that measured in the presence of low CO₂ concentrations (9-12 micromolar) which did not prevent photoinhibition. In all cases, the extent to which photoinhibition was prevented by these metabolites was not correlated to the amount of O₂ evolved during the photoinhibitory treatment. It is concluded that in these chloroplasts the prevention of the O₂-dependent photoinhibition of light saturated CO₂ fixation capacity is not linked to the dissipation of excitation energy via the photosynthetic electron transport nor to ATP utilization. The requirement of O₂ for photoinhibition of CO₂ fixation capacity in isolated chloroplasts may be explained by an effect of O₂ in allowing metabolic depletion of Calvin cycle intermediates.     

Carbon dioxide assimilation from air and water by duckweed Spirodela polyrrhiza (L.) Schleid

Carbon dioxide assimilation by duckweed, S. polyrrhiza, was measured using a glass assimilation box and ¹⁴C-NaHCO₃, under different pH conditions of water. S. polyrrhiza assimilates carbon dioxide from both air and water. The carbon assimilation from air is comparable to the assimilation from water under normal pH conditions.     

Red Light-Dependent CO(2) Uptake and Oxygen Evolution in Guard Cell Protoplasts of Vicia faba L.: Evidence for Photosynthetic CO(2) Fixation

Suspensions of dark-adapted guard cell protoplasts of Vicia faba L. alkalinized their medium in response to irradiation with red light. The alkalinization peaked within about 50 minutes and reached steady state shortly thereafter. Simultaneous measurements of O₂ concentrations and medium pH showed that oxygen evolved in parallel with the red light-induced alkalinization. When the protoplasts were returned to darkness, they acidified their medium and consumed oxygen. Both oxygen evolution and medium alkalinization were inhibited by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU). In photosynthetically competent preparations, light-dependent medium alkalinization is diagnostic for photosynthetic carbon fixation, indicating that guard cell chloroplasts have that capacity. The striking contrast between the responses of guard cell protoplasts to red light, which induces alkalinization, and that to blue light, which activates proton extrusion, suggests that proton pumping and photosynthesis in guard cells are regulated by light quality.     

Some effects of salicylic acid on growth and flowering in Spirodela polyrrhiza SP20

More than 70% flowering was observed in Spirodela polyrrhizaSP₂₀ under long and short days, when fronds were grown in amedium supplemented with 5x10^–5 M salicylate (SA). Toour knowledge this is the first report of such profuse floweringof this duckweed in vitro. Besides flowering, SA also affectedthe multiplication rate, anthocyanin and chlorophyll contents,and gibbosity. Aspirin had an effect similar to that of SA. (Received April 1, 1980; )     

Photosynthetic CO(2) Fixation at Air Levels of CO(2) by Isolated Spinach Chloroplasts

A system has been developed for the study of photosynthetic CO₂ fixation by isolated spinach chloroplasts at air levels of CO₂. Rates of CO₂ fixation were typically 20 to 60 micromoles/milligrams chlorophyll per hour. The rate of fixation was linear for 10 minutes but then declined to less than 10% of the initial value by 40 minutes. Ribulose 1,5-bisphosphate (RuBP) levels remained unchanged during this period, indicating that they were not the cause for the decline. The initial activity of the RuBP carboxylase in the chloroplast was high for 8 to 10 minutes and then declined similar to the rate of CO₂ fixation, suggesting that the decline in CO₂ fixation may have been caused by deactivation of the enzyme.     

Cu胁迫对紫背萍的生长及活性氧清除系统的影响

通过水培实验研究了重金属铜(Cu)胁迫下的紫背萍的生理响应。结果表明:Cu对紫背萍的生长有低浓度(≤1.8mg.L-1)促进、高浓度(>1.8mg.L-1)抑制作用。紫背萍的植物体数(Y1)、叶绿素含量(Y2)均与Cu浓度(X)呈显著负相关,回归方程为:Y1=-0.53X 34.47、Y2=-0.035X 0.90;Cu对紫背萍的植物体净增殖量、叶绿素含量的4天半数抑制浓度(4d-IC50)分别为5.48mg.L-1和12.12mg.L-1。紫背萍体内的SOD活性(Y3)和CAT活性(Y4)与Cu浓度(X)之间均呈曲线相关,回归方程分别为:Y3=-5.367X2 140.56X-59.25、Y4=-7.146X2 123.65X 1101.03。POD活性在Cu浓度不超过10mg.L-1时,较之对照相差不大,但在18mg.L-1时则大幅度下降。     

细胞分裂素在维持紫萍叶状体生命中的重要作用

将无根和囊的紫萍(Spirodela polyrrhiza)P143品系半叶状体分别放在含有和不含6-苄基嘌呤的培养液上于长日照条件下培养。在不含6-BA的培养液上培养4d以后,半叶状体开始失绿,光合能力降低;第12天时,半叶状体已接近死亡。但是,培养在含有6-BA的培养液上的半叶状体干重、叶绿素和可溶性蛋白质含量、希尔反应活力、核酮糖-1,5-二磷酸羧化酶/加氧酶的小亚基和其编码基因rbcS mRNA水平显著增加。这些6-BA处理过的半叶状体平均寿命可达80d,几乎等同于完整植物体上叶状体的寿命,因此提出细胞分裂素对于紫萍叶状体生物学功能的维持是必需的。     

H2O2-Induced Inhibition of Photosynthetic O2 Evolution by Anabaena variabilis Cells

Hydrogen peroxide inhibits photosynthetic O2 evolution. It has been shown that H2O2 destroys the function of the oxygen-evolving complex (OEC) in some chloroplast and Photosystem (PS) II preparations causing release of manganese from the OEC. In other preparations, H2O2 did not cause or caused only insignificant release of manganese. In this work, we tested the effect of H2O2 on the photosynthetic electron transfer and the state of OEC manganese in a native system (intact cells of the cyanobacterium Anabaena variabilis). According to EPR spectroscopy data, H2O2 caused an increase in the level of photooxidation of P700, the reaction centers of PS I, and decreased the rate of their subsequent reduction in the dark by a factor larger than four. Combined effect of H2O2, CN-, and EDTA caused more than eight- to ninefold suppression of the dark reduction of P700+. EPR spectroscopy revealed that the content of free (or loosely bound) Mn2+ in washed cyanobacterial cells was ~20% of the total manganese pool. This content remained unchanged upon the addition of CN- and increased to 25-30% after addition of H2O2. The content of the total manganese decreased to 35% after the treatment of the cells with EDTA. The level of the H2O2-induced release of manganese increased after the treatment of the cells with EDTA. Incubation of cells with H2O2 for 2 h had no effect on the absorption spectra of the photosynthetic pigments. More prolonged incubation with H2O2 (20 h) brought about degradation of phycobilins and chlorophyll a and lysis of cells. Thus, H2O2 causes extraction of manganese from cyanobacterial cells, inhibits the OEC activity and photosynthetic electron transfer, and leads to the destruction of the photosynthetic apparatus. H2O2 is unable to serve as a physiological electron donor in photosynthesis.     

Dormancy, Turion Formation, and Germination by Different Clones of Spirodela polyrrhiza

Some clones of Spirodela polyrrhiza form dormant bodies called turions which require several weeks of chilling treatment before they proceed to renew growth and develop into vegetative fronds. The individual fronds of Spirodela are less than 5 mm long and can be grown aseptically in liquid culture. Turion formation and germination can serve as a bioassay for the various compounds involved in dormancy development.

Turion formation can be induced by manipulation of light intensity during the day, photoperiod, night temperature, day temperature, and concentration of nitrate in the culture medium. Different clones of Spirodela from northeastern United States, Puerto Rico, and Argentina had different requirements for turion formation. The clones from Argentina and Puerto Rico did not form turions under any of the experimental conditions imposed. Turions of some clones required chilling treatments for renewed vegetative growth while others did not. Both gibberellic acid and long photoperiods were required to bypass the chilling requirements of some clones, but not others.

     

Partitioning of Noncyclic Photosynthetic Electron Transport to O(2)-Dependent Dissipative Processes as Probed by Fluorescence and CO(2) Exchange

The partitioning of noncyclic photosynthetic electron transport between net fixation of CO₂ and collective O₂-dependent, dissipative processes such as photorespiration has been examined in intact leaf tissue from Nicotiana tabacum. The method involves simultaneous application of CO₂ exchange and pulse modulated fluorescence measurements. As either irradiance or CO₂ concentration is varied at 1% O₂ (i.e. absence of significant O₂-dependent electron flow), the quantum efficiency of PSII electron transport (_se) with CO₂ as the terminal acceptor is a linear function of the ratio of photochemical:nonphotochemical fluorescence quenching coefficients (i.e. q_Q:q_NP). When the ambient O₂ concentration is raised to 20.5% or 42% the q_Q:q_NP is assumed to predict the quantum efficiency of total noncyclic electron transport (′_se). A factor which represents the proportion of electron flow diverted to the aforementioned dissipative processes is calculated as (′_se − _se)/′_se where _se is now the observed quantum efficiency of electron transport in support of net fixation of CO₂. Examination of changes in electron allocation with CO₂ and O₂ concentration and irradiance at 25°C provides a test of the applicability of the Rubisco model to photosynthesis in vivo.