95 resultados para oxygen evolution activity
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
Toxic Microcystis blooms frequently occur in eutrophic water bodies and exist in the form of colonial and unicellular cells. In order to understand the mechanism of Microcystis dominance in freshwater bodies, the physiological and biochemical responses of unicellular ( 4 strains) and colonial ( 4 strains) Microcystis strains to phosphorus ( P) were comparatively studied. The two phenotype strains exhibit physiological differences mainly in terms of their response to low P concentrations. The growth of four unicellular and one small colonial Microcystis strain was significantly inhibited at a P concentration of 0.2 mg l - 1; however, that of the large colonial Microcystis strains was not inhibited. The results of phosphate uptake experiments conducted using P- starved cells indicated that the colonial strains had a higher affinity for low levels of P. The unicellular strains consumed more P than the colonial strains. Alkaline phosphatase activity in the unicellular strains was significantly induced by low P concentrations. Under P- limited conditions, the oxygen evolution rate, Fv/ Fm, and ETRmax were lower in unicellular strains than in colonial strains. These findings may shed light on the mechanism by which colonial Microcystis strains have an advantage with regard to dominance and persistence in fluctuating P conditions.
Resumo:
与低温黑暗处理相比 ,低温弱光处理使黄瓜叶片的放氧活性显著降低 ,2℃黑暗处理 6.5h后黄瓜叶片的放氧活性降低到处理前的 66% ,2℃ 35μmol/(m2· s)处理6.5h后则降低到处理前的 - 50 %。研究结果显示 ,在 5℃低温条件下 1 0 0 μmol/(m2· s)光照使黄瓜发生下列变化 :叶片毫秒延迟发光的慢相强度显著降低 ;从叶片中提取的叶绿体的PS 及 PS +PS 的电子传递速率显著升高 ;加 NH4 Cl和加 ADP+Pi的 Hill反应活性与基础 Hill反应活性相差不大 ;从叶片中提取的叶绿体 9- AA荧光猝灭能力消失。以上结果证明低温下光照处理使黄瓜类囊体膜解耦联。
Resumo:
Thylakoid membranes were isolated and purified from diploid filamentous sporophytes of Porphyra yezoensis Ueda using sucrose density gradient ultracentrifugation (SDGUC). After thylakoid membranes were solubilized with SDS, the photosystem II (PSII) particles with high 2, 6-dichloroindophenol (DCIP) photoreduction activity were isolated by SDGUC. The absorption and fluorescence spectra, DCIP photoreduction activity and oxygen evolution activity of the thylakoid membranes and PSII particles were determined. The polypeptide composition of purified PSII particles was distinguished by SDS-PAGE. Results showed that PSII particles of sporophytes differed from the gametophytes in spectral properties and polypeptide composition. Apart from 55 kDa D1-D2 heterodimer, CP47, CP43, 33 kDa protein was also detected. However, cyt c-550, 20 kDa, 14 kDa and 16 kDa proteins found in PSII particles from gametophytes were not detected in the sporophytes.
Resumo:
In order to investigate the possible effects of the ecological environment on photosynthetic activity and the major light harvesting complex, the oxygen evolution rates and composition of phycobilisome from marine red alga Porphyra yezoensis Ueda and freshwater red alga Compsopogon coeruleus (Balbis) Montagne, which could grow and reproduce under salinity up to 35 ppt, were studied. The results showed that the oxygen evolution rate of P. yezoensis in seawater was significantly higher than that of C. coeruleus in freshwater, and P. yezoensis tolerated inorganic ions at a relatively higher concentration than C. coeruleus. Moreover, the phycoerythrin (PE) of P yezoensis was R-phycoerythrin containing alpha, beta, and gamma subunits comprised phycoerythrobilin and phycourobilin. In contrast, the PE from C. coeruleus consisted of alpha, beta, and gamma subunits comprised only phycoerythrobilin but not phycourobilin, suggesting that the PE from C. coeruleus was of a new type.
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The mechanism of inorganic carbon (C-i) acquisition by the economic brown macroalga, Hizikia fusiforme (Harv.) Okamura (Sargassaceae), was investigated to characterize its photosynthetic physiology. Both intracellular and extracellular carbonic anhydrase (CA) were detected, with the external CA activity accounting for about 5% of the total. Hizikia fusiforme showed higher rates of photosynthetic oxygen evolution at alkaline pH than those theoretically derived from the rates of uncatalyzed CO2 production from bicarbonate and exhibited a high pH compensation point (pH 9.66). The external CA inhibitor, acetazolamide, significantly depressed the photosynthetic oxygen evolution, whereas the anion-exchanger inhibitor 4,4'-diisothiocyano-stilbene-2,2'-disulfonate had no inhibitory effect on it, implying the alga was capable of using HCO3- as a source of C-i for its photosynthesis via the mediation of the external CA. CO2 concentrations in the culture media affected its photosynthetic properties. A high level of CO2 (10,000 ppmv) resulted in a decrease in the external CA activity; however, a low CO2 level (20 ppmv) led to no changes in the external CA activity but raised the intracellular CA activity. Parallel to the reduction in the external CA activity at the high CO2 was a reduction in the photosynthetic CO2 affinity. Decreased activity of the external CA in the high CO2 grown samples led to reduced sensitiveness of photosynthesis to the addition of acetazolamide at alkaline pH. It was clearly indicated that H. fusiforme, which showed CO2-limited photosynthesis with the half-saturating concentration of C-i exceeding that of seawater, did not operate active HCO3- uptake but used it via the extracellular CA for its photosynthetic carbon fixation.
Resumo:
Microcoleus vaginatus isolated from a desert algal crust of Shapotou was cultured in BG-11 medium containing 0.2mol l(-1) NaCl or 0.2mol l(-1) NaCl plus 100mg l(-1) sucrose, extracellular polymeric substances (EPS) or hot water-soluble polysaccharides (HWP), respectively. Photosynthetic oxygen evolution rates, photosystem 11 activity (Fv/Fm) and dark respiration of NaCl-stressed cells were enhanced significantly by the added sucrose or EPS under salt stress conditions (0.2mol l(-1) NaCl). Compared with cells treated with salt alone, sodium contents in cells reduced significantly; the content of cellular total carbohydrate did not change, and intracellular sucrose, water-soluble sugar increased significantly following the addition of exogenous carbohydrates. Sucrose synthase (SS) activity of NaCl-stressed cells increased following the addition of sucrose, and sucrose phosphate synthase (SPS) activity of NaCl-stressed cells increased following the addition of exogenous sucrose, EPS or HWP compared with cells stressed with NaCl only. The results suggested that the extruded EPS might be re-absorbed by cells of M. vaginatus as carbon source, they could increase salt tolerance of M. vaginatus through the changes of carbohydrate metabolism and the selective uptake of sodium ions. (C) 2003 Elsevier Science Ltd. All rights reserved.
Resumo:
The activities of carbonic anhydrase (CA) and photosynthesis of Porphyra haitanensis were investigated in order to see its photosynthetic utilization of inorganic carbon source. Both intra- and extra-cellular CA activities existed in the thallus. CA inhibitors, acetazolamide (AZ) and ethoxyzolamide (EZ), remarkably depressed the photosynthetic oxygen evolution in seawater of pH 8.2 and 10.0, and EZ showed stronger inhibition than AZ. The observed net photosynthetic rate In seawater of pH 8.2 was much higher than that of CO2 supply theoretically derived from spontaneous dehydration of HCO3-. P. haitanensis also showed a rather high pH compensation point (9.9). The results demonstrated that P. haitanensis could utilize bicarbonate as the external inorganic carbon source for photosynthesis. The bicarbonate utilization was closely associated with HCO3- dehydration catalyzed by extracellular CA activity. The inorganic carbon composition in seawater could well saturate the photosynthesis of P. haitanensis. The low K-m value and compensation points for inorganic carbon reflected the existence of CO2-concentrating mechanism in this alga.
Resumo:
The highly pure and active photosystem II (PSII) complex was isolated from Bangia fusco-purpurea (Dillw) Lyngb., an important economic red alga in China, through two steps of sucrose density gradient ultracentrifugation and characterized by the room absorption and fluorescence emission spectra, DCIP (2,6-dichloroindophenol) reduction, and oxygen evolution rates. The PSII complex from B. fusco-purpurea had the characteristic absorption peaks of chlorophyll (Chl) a (436 and 676 nm) and typical fluorescence emission peak at 685 nm (Ex = 436 nm). Moreover, the acquired PSII complex displayed high oxygen evolution (139 mu mol O-2/(mg Chl h) in the presence of 2.5 mM 2,6-dimethybenzoqinone as an artificial acceptor and was active in photoreduction of DCIP (2,6-dichloroindophenol) by DPC (1,5-diphenylcarbazide) at 163 U/(mg Chl a h). SDS-PAGE also suggested that the purified PSII complex contained four intrinsic proteins (D1, D2, CP43, and CP47) and four extrinsic proteins (33-kD protein, 20-kD protein, cyt c-550, and 14-kD protein).
Resumo:
本研究分为三个部分:1.以坛紫菜(Porphyra haitanesis Chang et Zheng)的叶状体和丝状体为研究对象,比较坛紫菜叶状体和丝状体的光合色素、色素蛋白的组成,并提取纯化藻红蛋白、藻蓝蛋白、藻胆体及类囊体膜和光系统。研究结果表明坛紫菜叶状体和丝状体色素及色素蛋白的含量不同,藻红蛋白是主要的色素蛋白,坛紫菜叶状体和丝状体的藻红蛋白的含量分别为2.9mg藻红蛋白/g鲜重、4.2mg藻红蛋白/g鲜重,这表明坛紫菜叶状体和丝状体藻红蛋白含量丰富,是提取藻红蛋白很好的材料。藻胆体的性质差异不大,但类囊体膜差异显著,从坛紫菜叶状体中分离到了两种不同的类囊体膜带,光系统Ⅰ(PSⅠ)和PSⅡ分别结合在两条类囊体膜带上,但从坛紫菜丝状体中也分离到两条类囊体膜带,它们的光谱性质和蛋白组成相似,仅放氧速率和DCIP活性有差异,从坛紫菜丝状体中我们仅分离到PSⅡ。坛紫菜叶状体PSⅡ有5种外在蛋白(33、20、Cytc 550、15、12kDa蛋白),而坛紫菜丝状体外在蛋白仅有4条,缺少12kDa蛋白。2. 以在中国江苏部分地区进行了大规模的商业化栽培的突变体条斑紫菜(Porphyra yezoensis Ueda)和野生型条斑紫菜为研究对象,比较其色素及色素蛋白组成、对不能光质的利用率及藻胆体的组成。条斑紫菜和突变型条斑紫菜对不同的光质利用效果有差异,在白光的照射下,野生型紫菜的放氧速率最大,而突变型紫菜在黄光照射下的放氧速率最大。条斑紫菜野生型与突变型色素含量上有明显的差异,突变型紫菜的藻红蛋白含量明显减少而藻蓝蛋白的含量增加。通过杂交的方法证实诱变所获得条斑紫菜突变体为细胞质突变,但是突变型紫菜却发生了由细胞核编码的γ亚基的缺失,这表明突变型紫菜藻红蛋白含量和性质发生了明显的变化。3. 为了找出淡水红藻-深紫美芒藻(Compsopogon coeruleus (Balbis) Montagne)分布狭窄及生物产量低的原因,本文对深紫美芒藻在不同的盐离子浓度下的放氧速率及藻胆体色素组成和结构上进行研究。结果显示:微量的NaCl(0.1mM)促进深紫美芒藻放氧,而深紫美芒藻在较高的NaCl(1、10mM), NaH2PO4 (0.1、1、10mM)和 NH4NO3(0.1、1、10mM)溶液中却没有检测到氧气的产生。这与深紫美芒藻生长的环境一致即深紫美芒藻生活在低盐浓度、低营养的泉水中。深紫美芒藻的藻胆体是由藻红蛋白、藻蓝蛋白及别藻蓝蛋白组成,上面结合α、β和γ亚基,含有藻红胆素、藻篮胆素,但缺乏缺少藻尿胆素。
Resumo:
小麦旗叶的光合产物是其籽粒碳水化合物的主要来源,因此如何提高旗叶的光合能力从而提高小麦产量一直是小麦研究的热点。但是以往对高产小麦旗叶的研究主要集中在光合功能和生理生化指标等方面,很少涉及其结构与功能的联系,以及对亲本与子代的旗叶进行对比观察。本文以冬小麦亲本小偃54 、8602及其子代小偃81(高产品种)灌浆期的旗叶为材料,应用细胞离析法、组织切片和荧光显微技术等,对旗叶中叶肉细胞形态、叶绿体数目、叶片厚度、维管束数目和面积等进行了比较观察和测定,旨在探讨小麦旗叶结构与其光合效率的关系。研究结果表明,与亲本小偃54、8602相比,子代小偃81的叶片较厚,横切面内中央大维管束的周长与面积较大;高环数叶肉细胞所占比例、叶肉细胞的周长及其平面面积和细胞内叶绿体的数目等均大于亲本。由此可见,通过小麦品种的改良确实能使其旗叶的结构与光合细胞发生了明显的变化,从而为植物细胞结构和功能的密切关系提供了有力的证据;同时也为作物改良育种提供了又一种新的育种目标。 小麦非叶器官之一的芒,对其结构与光合特性关系的研究尚不够深入和广泛。本实验以具芒小麦高产耐旱品种京411籽粒不同发育时期的芒及旗叶为材料,对其叶绿体结构、放氧速率和磷酸烯醇式丙酮酸羧化酶(PEPCase EC 4.1.1.31)的活性进行了比较观察和测定。超微结构显示,从抽穗期开始,芒和旗叶中的叶绿体基粒及其垛叠度均有增加,之后由灌浆末期开始,叶绿体的膜系统开始逐渐解体。通过放氧速率的测定表明,在芒和旗叶中,光合速率在前几个时期呈上升趋势,随着器官的衰老逐渐下降,但是,旗叶放氧速率的下降比芒中更早。另外,芒的PEPCase活性在籽粒发育的整个过程中均高于旗叶,其中以籽粒干物质形成末期尤为显著。因此,芒对高产小麦籽粒的形成,特别是在干物质形成的后期起着更为重要的作用。
Resumo:
以类囊体膜中唯一的阴离子型磷脂一磷脂酰甘油(PG)为研究对象,应用放氧测定和富立叶红外光谱等实验方法和技术手段,对PG与光系统II (PSII)之间的相互作用进行了研究。 研究表明,PG对PSII的放氧活性产生显著影响,具有明显的浓度效应。在低浓度(2~22 mg PG/mg Chl)时对PSII的放氧活性有明显的促进作用,而在高浓度(24~40 mg PG/mg Chl)下则表现出显著的抑制作用。 PG对PSII放氧活性的影响与其引起蛋白结构的改变密切相关。结果显示,PG的作用导致PSII颗粒中蛋白质二级结构的改变,主要表现为α-螺旋、β-折叠的增加和无规卷曲的减少。 不仅如此,红外光谱的分析还表明,PG还使蛋白酪氨酸残基中的酚基构象及其周围的微极性发生改变,即在红外光谱的1620—1500 cm-1,之间芳香环骨架的伸缩振动带向高频方向变化,其吸收强度也相应增加;在3500~3100 cm. -1间出现新的氢键吸收峰。 PG除能促进PSII的放氧活性以外,还对PSII表现出新的作用,即PG可以使PSII颗粒因缺钙而受抑制的放氧活性得到恢复;外加Ca2+可使PG表现出对缺钙PSII颗粒(dc。PSII)放氧活性的更大促进作用,且随Ca2+浓度的增加,促进作用也越显著。 PG的作用也使dc。PSII蛋白的结构发生了改变,导致蛋白二级结构中a-螺旋、p_折叠结构的增加和转角、无规卷曲成分的减少,即可使PSII颗粒因缺钙而改变的蛋白结构基本得到恢复。PG还能与Ca2+形成离子对似的配合物,而这种配合物的形成可以优化缺钙PSII颗粒的功能如放氧活性等。
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光合放氧研究近十年来已有重要进展,但在该领域仍有很多重要问题待研究。本论文工作主要是对光系统氧化侧与光合放氧密切相关的组分的结构和性能进行理论和模拟研究,工作可概括如下: (一)、放氧中心结构和性能的探索。 1、对放氧中心Mn202单元与配体组氨酸、H2O和Cl等结合方式的理论研究显示:(a)、组氨酸和H20分子均可能与Mn202平面垂直,彼此保持较大的距离,且结合在不同的Mn离子上;(b)、2个H2O分子可能结合在不同Mn202单元上。 2、对Mn簇核心骨架的理论研究显示有必要引入新的Ca、Cl结合方式,以防止因两个Mn202单元线性化而导致2个H2O分子结合位点远离。 (二)、次级电子给体Tyr_z和Tyr_D的结构与功能。 对次级电子给体Tyr_z和Tyr_D进行精确量子化学研究显示:(a)、在中性条件下,Tyr_D和Tyr_z均只与组氨酸通过氢键作用;(b)、当失去电子后,结构发生明显变化,导致正电荷主要集中在组氨酸上,自由基主要集中在Tyr上;(c)、第三组分(H_20分子或羧基等)的引入使中性体系不容易给出电子;(d)、结合最新文献报导,推测Tyr_D~+和Tyr_z~+除与组氨酸作用外还可能分别与水和羧基作用。 (三)、原初电子给体的理论和模拟研究。 1、对紫细菌原初电子给体P_(870)的理论研究显示:(a)、双分子结构比单分子结构稳定;(b)、电荷分离之后,原初电子给体原有的空间结构不再是稳定的构型,它会向能量和化学活性均更低的构型转变。在光合细菌的原初电子给体P870中,这种转变可通过C3位的乙酰基旋转使其氧原子与另一个细菌叶绿素分子的镁原子相互作用使P870+•的总能量和化学活性明显降低。推测这种构型转变对于防止原初反应过程中的电荷重组、维持光能的高效转化有重要意义。提出了原初反应过程中结构动态变化的新观点,利用这一观点可对光合细菌原初反应动力学研究所观测到的慢过程及蛋白质微环境对原初电子给体和原初反应都有重要影响等实验现象给予较好的解释。 2、对光系统II原初电子给体P680的结构进行理论探讨,提出了两个叶绿素a分子平面间夹角为50.0±2.5°时能量最低的夹角模型。 3、采用N-甲基咪唑(C4H6N2)模拟生物体内的组氨酸,通过观测CCL4中的Chla与C4H6N2反应的吸收、CD和MCD光谱得到以下结论:(a)、在纯CCL4中,每个Chla处于5配位状态,Chla形成不对称的双聚体,彼此之间存在较强的偶合作用。提出两个Chla通过不等价的2个Mg-O配位键(O分别来自于C131位的酮基和C17位酯基的C=O)连接为紧密双体结构;(b)、当C4H6N2/Chla = 0.5和1时,其吸收、CD和MCD光谱均发生明显变化,两个Chla之间的偶合作用明显减弱,但此时仍为双聚体。推测C4H6N2首先取代原紧密双体结构中Mg-O酯键,进而取代Mg-O酮键,最后两个Chla分子通过两个Mg…O弱相互作用连接为松弛的双体结构,该模型与理论获得的P_(680)的结构相似。 在上述研究的基础上,提出了包括放氧中心外围配体和TyrZ在内的放氧中心结构新模型。在新结构模型中,2个H2O分子不对称地结合于“C”形结构开口端两个低价的Mn1II和Mn4III上,并保持较大距离;两个组氨酸的咪唑环通过N原子与两个高价的Mn2IV、Mn3IV结合;Cl结合于MB4TM,并与Ca相连;Ca通过O桥和COO-相连使两个Mn202单元保持特定空间构型。TyrZ通过组氨酸(D1-His190)与Mn簇作用。此外,新模型尝试着在O桥上引入质子。放氧中心结构及其邻近环境(包括TyrZ和TyrD)整体处于中性状态。 同时还提出了新的放氧机理,认为电子和质子的释放非同步进行,并首次明确提出两个水分子的不对称氧化和结构动态变化等观点。认为Ca在维持放氧中心的结构方面担负重要作用,C1与Mn离子之间的亲核作用变化是放氧中心结构变化的关键。
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A recent study has shown that nonanoic acid (NA) is one of the strongest allelochemicals to a cyanobacterium Microcystis aeruginosa, but the physiological responses of M. aeruginosa to NA stress remain unknown. In this study, physiological characters such as the growth rate, photosynthetic processes, phosphorus and nitrogen uptake kinetics, and the contents of intracellular microcystin of M. aeruginosa PCC7806 were studied under the NA stress. The results showed that the growth rates of M. aeruginosa PCC 7806 were significantly inhibited in all NA stress treatments during first 3 days after exposure, and the growth rate was recovered after 5-day exposure. After 2-day exposure, the contents of both phycocyanin and allophycocyanin per cell decreased at NA concentration of 4 mg L-1, and oxygen evolution was inhibited even at the concentration of 0.5 mg L-1, but carotenoid content per cell was slightly boosted in NA stress. Physiological recovery of M. aeruginosa PCC7806 was observed after 7-day exposure to NA. It was shown that NA stress had no effect on uptake of nitrogen, but could stimulate the uptake of phosphorus. The contents of intracellular microcystin have not been affected in all NA treatments in contrast with the control. (C) 2008 Wiley Periodicals, Inc. Environ Toxicol 24: 610-617, 2009.
Resumo:
Many unicellular green algae can become yellow or red in various natural habitats due to mass accumulation of a secondary carotenoid, such as lutein, or astaxanthin. The accumulation of secondary carotenoids is generally thought to be a survival strategy of the algae under photo-oxidative stress or other adverse environmental conditions. The physiological role of the carotenoids in stress response is less well understood at the subcellular or molecular level. In this study, a stable astaxanthin overproduction mutant (MT 2877) was isolated by chemical mutagenesis of a wild type (WT) of the green microalga Haematococcus pluvialis Flotow NIES-144. MT 2877 was identical to the WT with respect to morphology, pigment composition, and growth kinetics during the early vegetative stage of the life cycle. However, it had the ability to synthesize and accumulate about twice the astaxanthin content of the WT under high light, or under high light in the presence of excess amounts of ferrous sulphate and sodium acetate. Under stress, the mutant exhibited higher photosynthetic activities than the WT, based on considerably higher chlorophyll fluorescence induction, chlorophyll autofluorescence intensities, and oxygen evolution rates. Cell mortality caused by stress was reduced by half in the mutant culture compared with the WT. Enhanced protection of the mutant against stress is attributed to its accelerated carotenogenesis and accumulation of astaxanthin. Our results suggest that MT 2877, or other astaxanthin overproduction Haematococcus mutants, may offer dual benefits, as compared with the wild type, by increasing cellular astaxanthin content while reducing cell mortality during stress-induced carotenogenesis.
Resumo:
To elucidate the role of phenotype in stress-tolerant bloom-forming cyanobacterium Microcystis, two phenotypes of M. aeruginosa-unicellular and colonial strains were selected to investigate how they responded to copper stress. Flow cytometry (FCM) examination indicated that the percents of viable cells in unicellular and colonial Microcystis were 1.92-2.83% and 72.3-97.51%, respectively, under 0.25 mg l(-1) copper sulfate treatment for 24 h. Upon exposure to 0.25 mg l(-1) copper sulfate, the activities of antioxidative enzyme, such as superoxide dismutase (SOD) and catalase (CAT), were significantly increased in colonial Microcystis compared to unicellular Microcystis. Meanwhile, the values of the photosynthetic parameters (F-v/F-m, ETRmax and oxygen evolution rate) decreased more rapidly in unicellular Microcystis than in colonial Microcystis. The results indicate that colonial Microcystis has a higher endurance to copper than unicellular Microcystis. This suggests that the efficient treatment concentration of copper sulfate as algaecides will be dependent on the phenotypes of Microcystis. (C) 2006 Elsevier Ltd. All rights reserved.