The regreening of nitrogen-deficient Chlorella fusca II. Structural changes during synchronous regreening.

Chlorella fusca, strain 211-15, cells degreened in a nitrogen-deficient mineral growth medium in the light for 4-6 weeks were regreened for up to 24 hrs in a nitrogen rich medium that leads to synchronous cell division at 24-26 hrs. Structural changes in the plastid membranes during the regreening period were observed by thin section and freeze-fracture electron microscopy. Nitrogen-deficient plastids were found to have non-appressed lamellae, prolamellar body-like membrane aggregations, and only 2 types of freeze-fracture face. At this time no photosynthetic oxygen evolution could be demonstrated. After 6 hrs regreening the plastid lamellae had fused to form bands of appressed lamellae and the four types of freeze-fracture face, described previously, were visible. At this time photosynthetic oxygen evolution could be demonstrated. After 24 hrs regreening the plastids had an appearance typical of normally grown Chlorella and had commenced to divide. Supporting evidence for these developmental stages is presented from isolated chloroplast particle fractions. An unusual type of cell wall proliferation was observed in the nitrogen-deficient Chlorella cells that resulted in the laying down of several walls, each with a trilaminar component.     

Effect of anaerobiosis on photosynthetic reactions and nitrogen metabolism of algae with and without hydrogenase

Summary The effect of anaerobic (N₂+CO₂) pre-incubation in the dark on photosynthetic reactions (O₂ evolution, measured manometrically and with the oxygraph; fluorescence; and photoproduction of H₂, measured with the mass spectrometer) was studied in algae with hydrogenase (strains of Chlorella fusca, C. kessleri, C. vulgaris f. tertia, and Ankistrodesmus braunii) and in algae without hydrogenase (strains of Chlorella vulgaris, C. saccharophila, and C. minutissima).The inhibition by anaerobic incubation of photosynthetic O₂ evolution is much stronger in algae without hydrogenase than it is in algae with hydrogenase. The effect of anaerobiosis is most pronounced at rather low light intensity (about 1000 lux), in acid medium (pH 4), and after prolonged anaerobic incubation in the dark (about 20 h). These results indicate that the presence of hydrogenase might be ecologically advantageous for algae under certain conditions.Chlorophyll fluorescence showed the fastest response to anaerobic incubation, and the most pronounced difference between algae with and without hydrogenase. After only 30 min under N₂+CO₂, fluorescence in algae with hydrogenase starts with a peak and decreases within 10 to 20 sec to a rather low steady-state level which is only slightly higher than that found under aerobic conditions. In algae without hydrogenase, fluorescence is rather low during the first 1 to 2 sec and then rises to a higher steady-state level which is much higher than that of the aerobic controls. This indicates an inhibition due to anaerobiosis of photosystem II in algae without hydrogenase.Algae with hydrogenase can react in different ways during the first minutes of illumination. In some cases there is an immediate photoproduction of H₂, which is followed after a few minutes by photosynthetic O₂ evolution; in other algae there is a simultaneous production of H₂ and O₂ from the very beginning; in a few experiments there was no photoproduction of H₂ at all, and in this case there was no photosynthetic O₂ evolution either. Thus, photoproduction of H₂ seems to be the process which normally enables algae with hydrogenase to oxidise and thereby activate their photosynthetic electron transport system after anaerobic incubation.A mass spectrometric search for nitrogen fixation (using N₂ and acetylene) in eucaryotic green algae gave negative results, even with species containing hydrogenase and under anaerobic conditions.     

A backflow of electrons around photosystem II in Chlorella cells.

A study was made with a modulated oxygen electrode of the effect of variations of oxygen concentration on photosynthetic oxygen evolution from algal cells. When Chlorella vulgaris is examined with a modulated 650 nm light at 22 degrees C, both the oxygen yield and the phase lag between the modulated oxygen signal and the light modulations have virtually constant values between 800 and 120 ergs . cm-1 . s-1 if the bathing medium is in equilibrium with the air. Similar results are obtained at 32 degrees C between 1600 and 120 ergs . cm-2 . s-1. Under anaerobic conditions both the oxygen yield and the phase lag decrease if the light intensity is lowered below about 500 ergs . cm-2 . s-1 at 22 degrees C or about 1000 ergs . cm-2 . s-1 at 32 degrees C. A modulated 706 nm beam also gives rise to these phenomena but only at significantly lower rates of oxygen evolution. The cells of Anacystis nidulans and Porphyridium cruentum appear to react in the same way to anaerobic conditions as C. vulgaris. An examination of possible mechanisms to explain these results was performed using a computer simulation of photosynthetic electron transport. The simulation suggests that a backflow of electrons from a redox pool between the Photosystems to the rate-limiting reaction between Photosystem II and the water-splitting act can cause a decrease in oxygen yield and phase lag. If the pool between the Photosystems is in a very reduced state a significant cyclic flow is expected, whereas if the pool is largely oxidized little or no cyclic flow should occur. It is shown that the effects of 706 nm illumination and removal of oxygen can be interpreted in accordance with these proposals. Since a partial inhibition of oxygen evolution by 3-(3.4-dichlorophenyl)-1,1-dimethylurea (10(-8) M) magnifies the decreases in oxygen yield and phase lag, it is proposed that the pool which cycles back electrons is in front of the site of 3-(3,4-dichlorophenyl)-1,1-dimethylurea inhibition and is probably the initial electron acceptor pool after Photosystem II.     

Enhancement of photosynthetic O2 evolution in Chlorella vulgaris under high light and increased CO2 concentration as a sign of acclimation to phosphate deficiency.

The photosynthetic oxygen evolution of Chlorella vulgaris (Beijer.) cells taken from phosphate-deficient (-P) and control cultures was measured during 8 days of culture growth. Under inorganic carbon concentration (50 microM) in the measuring cell suspension and irradiance (150 micromol m(-2) s(-1)), the same as during culture growth, there were no marked differences in the photosynthetic O2 evolution rate between the -P cells and the controls. The much slower growth of -P cultures indicated that the utilization of absorbed photosynthetically active radiation (PAR) in the CO2 assimilation and biomass production were in -P cells less efficient than in the controls. Alga cells under the phosphorus stress utilized more of the absorbed PAR in the nitrate reduction than the control cells. However, under conditions of more efficient CO2 supply (inorganic carbon concentration 150 microM, introducing of exogenous carbonic anhydrase to the measuring cell suspension) and under increased irradiance (500 micromol m(-2) s(-1)), the photosynthetic O2 evolution in -P cells reached a higher rate than in the controls. The results suggest that in -P cells the restricted CO2 availability limits the total photosynthetic process. But under conditions more favorable for the CO2 uptake and under high irradiance, the -P cells may reveal a higher photosynthetic oxygen evolution rate than the controls. It is concluded that an increased potential activity of the photosynthetic light energy absorption and conversion in the C. vulgaris cells from -P cultures is a sign of acclimation to phosphorus stress by a sun-type like adaptation response of the photosynthetic apparatus.     

铀对两种小球藻生长和光合作用的影响

为了探究铀对藻类生长及光合作用的影响,筛选新的基于光合作用的水体铀污染生态风险评价指标,本试验采用不同浓度铀（0、0.5、1、5、10、20mg U·L-1）分别处理普通小球藻(Cholorella vulgaris)和黄龙普通小球藻两种来自不同生境的微藻,在处理后的第3、5、7、10、14d进行相对生长速率、光合放氧速率、叶绿素含量和叶绿素荧光动力学参数等指标的测定。结果表明：（1）0.5mg·L-1低浓度铀处理显著促进两种小球藻的生长和光合作用效率,表现为两种微藻的相对生长速率、光合放氧速率、光系统II最大光化学量子产量Fv/Fm、实际光化学量子产量Y（Ⅱ）、相对电子传递速率rETR等叶绿素荧光参数等指标均显著高于对照, 而5-20 mg·L-1高浓度铀处理则显著抑制两种小球藻的生长和光合作用;（2）黄龙普通小球藻比普通小球藻对铀处理更敏感,在1mg·L-1处理浓度下生长与光合作用就受到显著抑制,可以用来作为水体铀污染生物监测的指示生物;（3）回归分析表明,不同浓度铀处理下,叶绿素荧光参数Y(II)和rETR的响应速度快于相对生长速率、光合放氧速率、叶绿素含量和Fv/Fm等指标的变化,可以作为水体铀污染生态风险评价的敏感指标。     

The regreening of nitrogen-deficient Chlorella fusca

Chlorella fusca, strain 211-15, cells degreened in a nitrogen-deficient mineral growth medium in the light for 4–6 weeks were regreened for up to 24 hrs in a nitrogen rich medium that leads to synchronous cell division at 24–26 hrs. Structural changes in the plastid membranes during the regreening period were observed by thin section and freeze-fracture electron microscopy. Nitrogen-deficient plastids were found to have non-appressed lamellae, prolamellar body-like membrane aggregations, and only 2 types of freeze-fracture face. At this time no photosynthetic oxygen evolution could be demonstrated. After 6 hrs regreening the plastid lamellae had fused to form bands of appressed lamellae and the four types of freeze-fracture face, described previously, were visible. At this time photosynthetic oxygen evolution could be demonstrated. After 24 hrs regreening the plastids had an appearance typical of normally grown Chlorella and had commenced to divide. Supporting evidence for these developmental stages is presented from isolated chloroplast particle fractions. An unusual type of cell wall proliferation was observed in the nitrogen-deficient Chlorella cells that resulted in the laying down of several walls, each with a trilaminar component.     

Physiological and biochemical contributions to the taxonomy of the genus Chlorella

The products of glucose fermentation were studied in 87 strains of the genus Chlorella. Lactic acid, acetic acid, formic acid, glycerol, ethanol, H2 and CO2 were identified. The lactic acid was shown to be D(minus)lactic acid. The pattern of fermentation produces is species-specific and can therefore be used as a taxonomic character. Lactic acid was found in C. fusca (varieties vacuolata, fusca, and rubescens), C. zofingiensis, C. vulgaris (var. vulgaris and f.tertia), and C. protothecoides. Formic acid and H2 appeared in those species which contain hydrogenase. Rather large amounts of glycerol were produced only by the most salt-tolerant species C. luteoviridis, C. saccharophila, and C. protothecoides.     

Physiologische und biochemische Beiträge zur Taxonomie der GattungChlorella

Salt tolerance was found to be a species-specific character in the genus Chlorella. The most resistant species, C. luteoviridis, is able to grow in nutrient media containing up to 5% NaCl. The limit for C. protothecoides and C. saccharophila is at 4% NaCl. C. vulgaris var. vulgaris, C. fusa var. vacuolata and C. fusca var. rubescens grow in the presence of 3%, and C. fusca var. fusca, C. kessleri and C. vulgaris f. tertia in the presence of 2% NaCl. C. zofingiensis and C. minutissima are only capable of growing in media containing up to 1% NaCl, and C. homosphaera does not even tolerate 1% NaCl. Those strains, which are able to synthesize secondary carotenoids, turn orange in salt concentrations close to the limit of their tolerance.     

BIOCHEMICAL TAXONOMY AND MOLECULAR PHYLOGENY OF THE GENUS CHLORELLA SENSU LATO (CHLOROPHYTA)

A multimethod approach was used to characterize unicellular green algae that were traditionally assigned to the genus Chlorella Beijerinck and to resolve their phylogenetic relationships within the Chlorophyta. Biochemical, physiological, and ultrastructural characters, together with molecular data such as DNA base composition and DNA hybridization values, were compared with a molecular phylogeny based on complete 18S rRNA sequences. Our results show that Chlorella taxa are dispersed over two classes of chlorophytes, the Trebouxiophyceae and the Chlorophyceae. We propose that only four species should be kept in the genus Chlorella (Chlorophyta, Trebouxiophyceae): C. vulgaris Beijerinck, C. lobophora Andreyeva, C. sorokiniana Shih. et Krauss, and C. kessleri Fott et Nováková. Common characteristics of these taxa are glucosamine as a dominant cell wall component and the presence of a double thylakoid bisecting the pyrenoid matrix. Norspermine, norspermidine, and secondary carotenoids are never produced. Other "Chlorella" species belong to different taxa within the Trebouxiophyceae ( "C." protothecoides = Auxenochlorella protothecoides [Krüger] Kalina et Punčochářová, "C." ellipsoidea, "C." mirabilis, "C." saccharophila, and "C." luteoviridis ) and Chlorophyceae ( "C." zofingiensis and "C." homosphaera = Mychonastes homosphaera Kalina et Punčochářová). The latter taxa can easily be recognized by the production of secondary carotenoids under nitrogen-deficient conditions.     

鱼腥藻7120响应NaCl胁迫的光合特性

NaCl胁迫处理丝状蓝藻鱼腥藻7120后光合特性的变化表明;鱼腥藻7120的净光合放氧速率和呼吸速率随NaCl浓度的程式高而降低,且浓度低于0.4mol/LNaCl时的降幅比高于0.4mol/LNaCl时的降幅小,加入0.4%(W?V)的蔗糖后可提高盐胁迫后的鱼腥藻7120的光合放氧速率,吸收光谱测定结果表明盐胁迫没有改变鱼腥藻7120的光合色素组成,但导致藻胆蛋白的总含量降低,类胡萝卜素含量增加。低温荧光发射光谱测定表明盐胁迫后改变了光能在两个光系统之间的分配。由藻胆蛋白吸收的光能向光Ⅱ传递受阻。荧光动力学分析表明光系统Ⅱ的光化学效率随盐浓度的增加而降低。表现出与光合放氧速率的一致性。     

Isolation and molecular characterization of the [Fe]-hydrogenase from the unicellular green alga Chlorella fusca

[Fe]-hydrogenases are redoxenzymes that catalyze the reversible reduction of protons to hydrogen. Hydrogenase activity was observed in a culture of the unicellular green alga Chlorella fusca after an anaerobic incubation, but not in the related species Chlorella vulgaris. Specific polymerase chain reaction (PCR) techniques lead to the isolation of the cDNA and the genomic DNA of a special type of [Fe]-hydrogenase in C. fusca. The functional [Fe]-hydrogenase was purified to homogeneity and its N-terminus was sequenced. The polypeptide sequence shows a high degree of identity with the amino acid sequence deduced from the respective cDNA region. Structural and biochemical analyses indicate that ferredoxin is the main physiological electron donor.     

斜生栅藻中虾青素的积累过程及其光合活性变化

分析了斜生栅藻（Scenedesmus obliquus）在光温（30℃,180 μmol/m2·s）胁迫条件下积累虾青素的过程,观察了该过程中细胞形态及细胞光合生理的变化。胁迫条件下,细胞在48h内生成并积累了包括海胆酮、角黄素、金盏花黄素和金盏花红素在内的多种次生类胡萝卜素,并合成了虾青素及其酯。该过程中,细胞形态由两端尖细变得不规则、膨大,原来由4、8个细胞组成的定形群体变为游离的单个细胞或2个细胞组成的群体。藻细胞光合速率在24h内先下降后上升,而后又呈现下降趋势,从34.29 μmol O2/mg Chla/h迅速下降为5.21 μmol O2/mg Chla/h;呼吸速率在前24h内升高至60.37 μmol O2/mg Chla/h,而后缓慢下降到38.40 μmol O2/mg Chla/h;光合系统Ⅱ的活性随着胁迫时间的延续而逐步下降,较初始值降低了63.9％。结果表明,斜生栅藻细胞在高光照条件下可以合成虾青素,并通过调节光合速率、呼吸速率以及光合系统Ⅱ的效率来应对胁迫。     

STUDIES ON PHOTOSYNTHESIS : SOME EFFECTS OF LIGHT OF HIGH INTENSITY ON CHLORELLA

1. The effect on oxygen evolution of Chlorella vulgaris produced by light intensities up to about 40,000 f.-c. has been studied by the use of the Warburg technique. 2. Above a certain critical intensity, which is determined by the previous history of the cells, the rate of oxygen evolution decreases from the maximum to another constant rate. This depression is at first a completely reversible effect. 3. With a sufficiently high intensity this constant rate represents an oxygen uptake greater than the rate of dark respiration. During such a constant rate of oxygen uptake a progressive injury to the photosynthetic mechanism takes place. After a given oxygen consumption the rate falls off, approaching zero, and the cells are irreversibly injured. 4. The constant rate of oxygen evolution (2 and 3) decreases in a continuous manner with increasing light intensities, approaching a value which is approximately constant for all lots of cells regardless of previous history. 5. Two alternative hypotheses have been presented to explain the observed phenomena. The more acceptable of these proposes quick inactivation of the photosynthetic mechanism, the extent of inhibition depending on the light intensity. 6. In Chlorella vulgaris solarization is influenced by the previous history of the cells.     

Growth, photosynthesis, active oxygen species and antioxidants responses of paddy field cyanobacterium Plectonema boryanum to endosulfan stress

The present paper deals with the insecticide endosulfan (5, 10 and 20 microg/ml)-induced changes in physiological and biochemical parameters related to photosynthesis and defense systems in paddy field cyanobacterium Plectonema boryanum grown under laboratory conditions. Growth and photosynthetic pigments, i.e., chlorophyll a, carotenoids and phycocyanin, were adversely affected by endosulfan treatment and the inhibition was found to be dose dependent. The toxic effect of endosulfan was more pronounced on phycocyanin; however, a considerable reduction in chlorophyll a and carotenoids was also noticed. 14C-fixation appeared to be more sensitive to insecticide than whole cell oxygen evolution. Spheroplasts treated with endosulfan exhibited a severe effect on PSII activity which was mainly due to blocking of the electron flow at the water oxidation side. In contrast to this, similar doses of endosulfan caused the least effect on PSI activity (DCPIP/ASC-->MV). Furthermore, endosulfan with increasing doses accelerated the formation of active oxygen species, i.e., O2- and H2O2, in cells progressively, whereby an enhanced peroxidation of lipid and leakage of cell membrane were noticed. As a consequence of active oxygen species (AOS) generation in endosulfan-treated cells, the activity of superoxide dismutase (SOD), catalase (CAT) and peroxidase (POD) was enhanced considerably. Besides the accelerated action of enzymatic defense systems, chemical antioxidant ascorbate showed a decreasing trend with the rising concentration of endosulfan (5, 10 and 20 microg/ml).     

Physiological adaptation during cell dehydration and rewetting of a newly-isolated Chlorella species

A new terrestrial species of green alga ( Chlorella sp. strain DT) that survives under extremely dry conditions was isolated from an arid mountainous area of Taiwan. The water content of the cells dropped to less than 3% after 3 h dehydration at 42°C. The dried cells could regrow if they were rewetted. The photosynthetic activity of the cells ceased following 2 h of dehydration, but respiratory activity was still detectable after 3 h desiccation. During the rewetting process, respiration increased immediately and then decreased to a steady level after 5 days of rewetting, matching the net photosynthetic oxygen evolution. The cells had 38% neoxanthin (1520 nmol g⁻¹ dry weight), 39% lutein (1580 nmol g⁻¹ dry weight), and 14% violaxanthin (570 nmol g⁻¹ dry weight) of total carotenoids, but only 5.1%β-carotene (210 nmol g⁻¹ dry weight), 3.8%α-carotene (150 nmol⁻¹ g dry weight) and a trace of antheraxanthin and zeaxanthin. Upon dehydration, zeaxanthin and carotene contents increased and recovered to normal levels after 8 days of rewetting. The photoprotective xanthophyll cycle was found in these cells. It appears that the energy dissipation process for preventing photodamage is perhaps one of the tolerance mechanisms in this Chlorella strain.     

Effect of high zinc concentrations on the growth of Stichococcus bacillaris and Chlorella vulgaris

The effect of concentrations of zinc from 50 to 400 mg/l on the growth of Stichococcus bacillaris and Chlorella vulgaris under laboratory conditions was examined. The growth of both species was inhibited in proportion to the concentration of the metal in the medium. S. bacillaris was more tolerant to high zinc concentrations than C. vulgaris. Microscopical examination of cells growing in medium with zinc did not reveal any significant changes compared to the control cultures.     

Solar energy conversion by green microalgae: a photosystem for hydrogen peroxide production

A photosystem for solar energy conversion, comprised of a culture of green microalgae supplemented with methyl viologen, is proposed. The capture of solar energy is based on the Mehler reaction. The reduction of methyl viologen by the photosynthetic apparatus and its subsequent reoxidation by oxygen produces hydrogen peroxide. This is a rich-energy compound that can be used as a nonpollutant and efficient fuel. Four different species of green microalgae, Chlamydomonas reinhardtii (21gr) C. reinhardtii (CW15), Chlorella fusca, and Monoraphidium braunii, were tested as a possible biocatalyst. Each species presented a different efficiency level in the transformation of energy. Azide was an efficient inhibitor of the hydrogen peroxide scavenging system while maintaining photosynthetic activity of the microalgae, and thus significantly increasing the production of the photosystem. The strain C. reinhardtii (21gr), among the species studied, was the most efficient with an initial production rate of 185 micromol H(2)O(2)/h x mg Chl and reaching a maximum of 42.5 micromol H(2)O(2)/mg Chl when assayed in the presence of azide inhibitor.     

Growth at Low Temperature Mimics High-Light Acclimation in Chlorella vulgaris

Structural and functional alterations to the photosynthetic apparatus after growth at low temperature (5[deg]C) were investigated in the green alga Chlorella vulgaris Beijer. Cells grown at 5[deg]C had a 2-fold higher ratio of chlorophyll a/b, 5-fold lower chlorophyll content, and an increased xanthophyll content compared to cells grown at 27[deg]C even though growth irradiance was kept constant at 150 [mu]mol m-2 s-1. Concomitant with the increase in the chlorophyll a/b ratio was a lower abundance of light-harvesting polypeptides in 5[deg]C-grown cells as observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and confirmed by western blotting.The differences in pigment composition were found to be alleviated within 12 h of transferring 5[deg]C-grown cells to 27[deg]C. Furthermore, exposure of 5[deg]C-grown cells to a 30-fold lower growth irradiance (5 [mu]mol m-2 s-1) resulted in pigment content and composition similar to that in cells grown at 27[deg]C and 150 [mu]mol m-2 s-1. Although both cell types exhibited similar measuring-temperature effects on CO2-saturated O2 evolution, 5[deg]C-grown cells exhibited light-saturated rates of O2 evolution that were 2.8-and 3.9-fold higher than 27[deg]C-grown cells measured at 27[deg]C and 5[deg]C, respectively. Steady-state chlorophyll a fluorescence indicated that the yield of photosystem II electron transport of 5[deg]C-grown cells was less temperature sensitive than that of 27[deg]C-grown cells. This appears to be due to an increased capacity to keep the primary, stable quinone electron acceptor of photosystem II (QA) oxidized at low temperature in 5[deg]C- compared with 27[deg]C-grown cells regardless of irradiance. We conclude that Chlorella acclimated to low temperature adjusts its photosynthetic apparatus in response to the excitation pressure on photosystem II and not to the absolute external irradiance. We suggest that the redox state of QA may act as a signal for this photosynthetic acclimation to low temperature in Chlorella.     

THE EFFECT OF CULTURE CONDITIONS ON THE HYDROCARBON CONTENT OF CHLORELLA VULGARIS12

Cultures of Chlorella vulgaris were grown aulo-trophically under fluorescent light and heterotrophically on glucose and inorganic salts. Hydrocarbons were extracted and analyzed by gas-liquid chromatography, molecular sieve separations, and silicic acid-AgNO₃ chromatography. Chlorella vulgaris grown under both culture conditions contained a series of saturated n-paraffins ranging from 17 to 36 carbon atoms in length. This is in contrast to reports in the early literature which indicated that the hydrocarbon fraction of algae was composed of only 1 or 2 specific hydrocarbons. Only under heterotrophic conditions, however, did C. vulgaris produce 1-penta-cosene and 1-heptacosene as the primary components of the hydrocarbon mixture. Other Chlorella species were examined, but only C. vulgaris produced significant quantities of these compounds.     

不同磁处理方式对小球藻生长的影响

目的：利用恒定均匀磁场研究了不同磁处理方式和磁感应强度对小球藻生长的影响,探索磁处理技术应用于微藻培养的可能。方法：用t检验考察静止磁处理、循环磁处理和磁处理水三种不同的磁处理方式对小球藻生长的影响。结果：静止磁处理和循环磁处理分别在5．15mT和10．35mT范围促进小球藻生长,并且随磁感应强度增强分别从45mT与200mT开始表现出显著抑制生长作用．相同的磁感应强度下静止磁处理比循环磁处理的影响显著。未发现磁处理水对小球藻的生长有显著影响。结论：不同的磁处理方式对小球藻生长有不同的刺激与抑制的强度闽值;0．8T和1．2T磁感应强度处理下比生长速率下降的差别并不明显,说明磁处理的影响在此强度范围趋于稳定;磁处理水无显著影响说明磁场直接对小球藻细胞产生影响。