聚球藻7942高效泌氨突变种的获得及其泌氨、谷氨酰胺合成酶活性、光合和生长

将含有Ａｎａｂａｅｎａｓｐ．ＰＣＣ７１２０反义ｇｌｎＡ基因片段的穿梭表达质粒ｐＤＣ－ＡＴＧＳ转化单细胞蓝藻聚球藻Ｓｙｎｅ－ｃｈｏｃｏｃｃｕｓ　ｓｐ．ＰＣＣ７９４２,通过同源重组,外源ＤＮＡ定位整合到染色体上。经过抗菌素筛选,获得一种高效泌氨的Ｓｙｎｅｃhｏｃｏｃｃｕｓ　ｓｐ．７９４２突变种。将此突变种固定化在聚氨脂泡沫中后,定量测定其谷氨酰胺合成酶（ＧＳ）活性。结果表明,固定化后的突变藻培养９ｄ后泌氨活性比自由生活的野生藻高１５６倍,ＧＳ活性降低７３．６％;其生长速度与同条件下野生藻相近,７７Ｋ荧光光谱表明突变种固定化后光系统Ⅱ活性提高４４％。     

人铜锌超氧化物歧化酶基因改良及在聚球藻中表达

应用PCR定点突变技术把质粒pESOD中人铜锌超氧化物歧化酶基因(hCu,Zn-SOD)的Cys111密码子突变为Ala111密码子,再构建重组子,通过随机同源重组将突变后的hCu,Zn-SOD整合入聚球藻Synechococcussp.PCC7942,并实现表达。表达产物用SDS-PAGE、Western blot、酶活等方法测定均为阳性反应;热稳定性测定显示,hCu,Zn-SOD在80℃保温30min后仍具有95%的活力,耐热能力比天然hCu,Zn-SOD有了较大的提高。蛋白扫描结果显示目的蛋白占可溶性蛋白的3.61%。     

聚球藻7942混养培养中碳代谢与能量利用

为了考察聚球藻7942在混养条件下的能量利用效率,分别以葡萄糖和乙酸为碳源开展了聚球藻7942的混养培养研究,并在此基础上利用代谢通量分析方法对聚球藻7942混养条件下的碳代谢和能量利用进行了探讨。结果表明:葡萄糖和乙酸均能促进藻细胞生长,且乙酸促进藻细胞生长的作用更为明显;葡萄糖利用可明显增加藻细胞糖酵解途径中碳代谢流量,而乙酸利用则导致糖酵解途径中碳代谢流量减小,两种有机碳源均增加了柠檬酸循环中碳代谢流量;有机碳源导致藻细胞光化学效率下降,而葡萄糖较之乙酸降低藻细胞光化学效率更为明显。虽然混养条件下光能的贡献率要小于光自养,但基于能量的细胞得率和能量转换率均高于光自养,光自养和以葡萄糖、乙酸为碳源的混养中基于ATP生成的能量转换效率分别为6.81%、7.43%和8.77%。     

聚球藻7942光自养培养的碳代谢和能量代谢

代谢通量分析是研究微藻光自养培养过程中CO2和光能利用的一个非常有用的工具。本研究建立了聚球藻7942光自养培养代谢网络,并通过代谢通量方法分析了不同入射光强下的碳代谢流分布和能量代谢。研究结果表明,CO2固定是代谢能量和还原力消耗的主要途径,分别约占总消耗能量的85%和70%。研究还发现在一定光强范围,基于ATP生成的细胞得率和最大细胞得率基本维持不变,分别约为2.80g/molATP和2.95g/molATP,但基于总吸收光能的细胞得率和对应的光能转换效率则随着光强的增加而降低。     

Phosphate-uptake behaviour of a mutant of Synechococcus sp. PCC 7942 lacking one protein of the high-affinity phosphate-uptake system

The phosphate-uptake behaviour of a sphX mutant of the cyanobacterium Synechococcus leopoliensis (Raciborski) Komarek, strain PCC 7942 has been studied. This mutant lacks the high-affinity phosphate-binding protein that is abundantly expressed under phosphate-deficient growth conditions. The following observations have been made: (i) The mutant is still capable of utilizing phosphate at nanomolar external concentrations. (ii) Elimination of the sphX gene leads to an increase in the Michaelis constant and the maximum velocity of the initial influx of ³²P-phosphate. (iii) The capacity of the wild type to adapt within a few minutes to a transitory increase in the external phosphate concentration in an energetically efficient way (G. Falkner et al. 1994, C R Acad Sci Paris, Life sciences 317: 535–541) is lost in the mutant. As a result, the mutant can no longer attain pulse-adapted states that reflect in a characteristic way preceding exposures to higher phosphate concentrations. Received: 6 February 1998 / Accepted: 8 May 1998     

FNRD在聚球藻7002中的表达及其性质研究

置于Lac启动子和Kan启动子控制之下的petHL基因分别转化蓝细菌Synechococcussp.PCC7002,从Southern blot分析结果推断,petHL已整合到蓝细菌染色体DNA上。Western blot分析表明,转入蓝细菌体内的petHL基因得到了表达,且Kan启动子启动该基因表达的效率高于Lac启动子。内源FNRD表现出与FNR全酶相同的稳定性。Triton X-114分相实验结果显示,部分FNRD可进入Triton X-114相,推测这些分子可能发生了脂酰化修饰。同时FNRD在体内可能参与了光合电子传递而使光合放氧速率增加。     

聚球藻类金属硫蛋白的纯化及部分性质的研究

单细胞蓝藻（Ｓｙｎｅｃｈｏｃｏｃｕｓｓｐ．ＰＣＣ７９４２）以５０μｍｏｌ／ＬＺｎ２＋诱导８ｄ后收集,破碎取上清液经凝胶过滤、离子交换层析及反相ＨＰＬＣ纯化得到类金属硫蛋白,产率为每升培养液收集１．５ｇ鲜藻,得２．５ｍｇ纯品．其单体分子量为８７５０,Ｎ未端测定为缬氨酸,氨基酸组成分析得每分子（５６个氨基酸）含１０个半胱氨酸,疏水氨酸较多,且含有芳香族氨基酸,原子吸收光谱测得每分子蛋白结合４个二价金属．以上表明,该种类金属硫蛋白与哺乳动物金属硫蛋白结构差异很大,可能只是一种进化上的趋同．     

Facilitated water transport in cyanobacterium Synechococcus sp. PCC 7942 studied by phycobilisome-sensitized chlorophyll a fluorescence

Water transport across plant cell membranes is difficult to measure. We present here a model assay, based on chlorophyll (Chl) a fluorometry, with which net water transport across the cell membrane of freshwater cyanobacterium Synechococcus sp. PCC7942 (S7942) can be followed kinetically with millisecond-time resolution. In cyanobacteria, the phycobilisome (PBS)-sensitized Chl a fluorescence increases when cells expand (e.g., in hypo-osmotic suspension) and decreases when cells contract (e.g., in hyper-osmotic suspension). The osmotically-induced Chl a fluorescence changes are proportional to the reciprocal of the suspension osmolality (ΔF ∝ Osm⁻¹; Papageorgiou GC and Alygizaki-Zorba A (1997) Biochim Biophys Acta 1335: 1–4). In our model assay, S7942 cells were loaded with NaCl (passively penetrating solute) and shrunk in hyper-osmotic glycine betaine (nonpenetrating solute). Upon injecting these cells into hypo-osmotic medium, the PBS-sensitized Chl a fluorescence rose to a maximum due to the osmotically-driven water uptake. The rise of Chl a fluorescence (water uptake) was partially inhibited by HgCl₂, at micromolar concentrations. Arrhenius plots of the water uptake rates gave activation energies of E_A=4.9 kcal mol⁻¹, in the absence of HgCl₂, and E_A=11.9 kcal mol⁻¹ in its presence. These results satisfy the usual criteria for facilitated water transport through protein water pores of plasma membranes (aquaporins), namely sensitivity to Hg²⁺ ions and low activation energy.     

A method to probe the cytoplasmic osmolality and osmotic water and solute fluxes across the cell membrane of cyanobacteria with chlorophyll a fluorescence: Experiments with Synechococcus sp. PCC7942

We present a method with which osmotic properties of the cytoplasm of cyanobacterial cells and the osmotic permeability of plasma membranes to water and solutes can be assessed from measurements of chlorophyll a fluorescence. When the electron transport of photosystem II is inhibited, the quantum yield of chlorophyll a fluorescence in cyanobacterial cells varied between a low yield limit that was attained after acclimation to darkness (state 2) and a high yield limit that was attained after acclimation to light (state 1). It was shown recently that the difference between chlorophyll a fluorescence of light‐acclimated and of dark‐acclimated cells relates quantitatively to the internal osmolality of cyanobacteria (G. C. Papageorgiou and A. Alygizaki‐Zorba. 1997. Biochim. Biophys. Acta 1335: 1‐4). In the present work we employed rapid mixing of Synechococcus sp. PCC7942 (strain PAMCOD) suspensions with solutions of defined osmolality in order to measure cell osmolality and turgor threshold, as well as water and solute fluxes across cell membranes. Concentration upshocks with sorbitol, glycine betaine, Na⁺ and K⁺ salts caused rapid (t_1/2 < 10 ms) depression of fluorescence that was correlated to osmotic water outflow from the cells. The fluorescence remained depressed in all cases except for NaCl. With NaCl, the depression was transient and fluorescence recovered with an apparent time constant of 200 ms. The fluorescence rise correlates to inflows of NaCl and water.     

Dynamic responses of photosystem II and phycobilisomes to changing light in the cyanobacterium Synechococcus sp. PCC 7942

We have examined the molecular and photosynthetic responses of a planktonic cyanobacterium to shifts in light intensity over periods up to one generation (7 h). Synechococcus sp. PCC 7942 possesses two functionally distinct forms of the D1 protein, D1∶1 and D1∶2. Photosystem II (PSII) centers containing D1∶1 are less efficient and more susceptible to photoinhibition than are centers containing D 1∶2. Under 50 μmol photons· m^?2·s^?1, PSII centers contain D1∶1, but upon shifts to higher light (200 to 1000 μmol photons·m^?2·s^?1), D1∶1 is rapidly replaced by D 1∶2, with the rate of interchange dependent on the magnitude of the light shift. This interchange is readily reversed when cells are returned to 50 μmol photons·m^?2·s^?1. If, however, incubation under 200 μmol photons·m^?2·s^?1 is extended, D1∶1 content recovers and by 3 h after the light shift D1∶1 once again predominates. Oxygen evolution and chlorophyll (Chl) fluorescence measurements spanning the light shift and D1 interchanges showed an initial inhibition of photosynthesis at 200 μmol photons·m^?2·s^?1, which correlates with a proportional loss of total D1 protein and a cessation of growth. This was followed by recovery in photosynthesis and growth as the maximum level of D 1∶2 is reached after 2 h at 200 μmol photons·m^?2·s^?1. Thereafter, photosynthesis steadily declines with the loss of D1∶2 and the return of the less-efficient D1∶1. During the D1∶1/D1∶2 interchanges, no significant change occurs in the level of phycocyanin (PC) and Chl a, nor of the phycobilisome rod linkers. Nevertheless, the initial PC/Chl a ratio strongly influences the magnitude of photo inhibition and recovery during the light shifts. In Synechococcus sp. PCC 7942, the PC/Chl a ratio responds only slowly to light intensity or quality, while the rapid but transient interchange between D1∶1 and D 1∶2 modulates PSII activity to limit damage upon exposure to excess light.     

Binding affinity of bicarbonate and formate in herbicide-resistant D1 mutants of Synechococcus sp. PCC 7942

We examined the effects of mutations at amino acid residues S264 and F255 in the D1 protein on the binding affinity of the stimulatory anion bicarbonate and inhibitory anion formate in Photosystem II (PS II) in Synechococcus sp. PCC 7942. Measurements on the rates of oxygen evolution in the wild type and mutant cells in the presence of different concentrations of formate with a fixed bicarbonate concentration and vice versa, analyzed in terms of an equilibrium activator-inhibitor model, led to the conclusion that the equilibrium dissociation constant for bicarbonate is increased in the mutants, while that of the formate remains unchanged (11±0.5 mM). The hierarchy of the equilibrium dissociation constant for bicarbonate (highest to lowest, ±2 M) was: D1-F255L/S264A (46 M)>D1-F255Y/ S264A (31 M)D1-S264A (34 M)D1-F255Y (33 M)>wild type (25 M). The data suggest the importance of D1-S264 and D1-F255 in the bicarbonate binding niche. A possible involvement of bicarbonate and these two residues in the protonation of Q_B ^-, the reduced secondary plastoquinone of PS II, in the D1 protein is discussed.Abbreviations Chl a chlorophyll a - DBMIB 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - DMQ 2,5-dimethyl-p-benzoquinone - HEPES N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid - MES 2-[N-morpholino]ethanesulfonic acid - PSI Photosystem I - PS II Photosystem II - Q_A bound plastoquinone, a one-electron acceptor in Photosystem II - Q_B another bound plastoquinone, a two-electron acceptor in Photosystem II This paper is dedicated to the memory of my dear friend Robin Hill-Govindjee.     

The IdiA protein of Synechococcus sp. PCC 7942 functions in protecting the acceptor side of Photosystem II under oxidative stress

Synechococcus sp. strains PCC 7942 and PCC 6301 contain a 35 kDa protein called IdiA (Iron deficiency induced protein A) that is expressed in elevated amounts under Fe deficiency and to a smaller extent also under Mn deficiency. Absence of this protein was shown to mainly damage Photosystem II. To decide whether IdiA has a function in optimizing and/or protecting preferentially either the donor or acceptor side reaction of Photosystem II, a comparative analysis was performed of Synechococcus sp. PCC 7942 wild-type, the IdiA-free mutant, the previously constructed PsbO-free Synechococcus PCC 7942 mutant and a newly constructed Synechococcus PCC 7942 double mutant lacking both PsbO and IdiA. Measurements of the chlorophyll fluorescence and determinations of Photosystem II activity using a variety of electron acceptors gave evidence that IdiA has its main function in protecting the acceptor side of Photosystem II. Especially, the use of dichlorobenzoquinone, preferentially accepting electrons from Q_A, gave a decreased O₂ evolving activity in the IdiA-free mutant. Investigations of the influence of hydrogen peroxide treatment on cells revealed that this treatment caused a significantly higher damage of Photosystem II in the IdiA-free mutant than in wild-type. These results suggest that although the IdiA protein is not absolutely required for Photosystem II activity in Synechococcus PCC 7942, it does play an important role in protecting the acceptor side against oxidative damage. This revised version was published online in June 2006 with corrections to the Cover Date.     

聚球藻7002嗜铁素的检测与分离

【目的】探究聚球藻7002嗜铁素的检测和分离方法,为深入研究海洋嗜铁素提供科学依据。【方法】在缺铁MediumA中培养聚球藻7002,利用双层平板法、混合平板法和传统铬天青S(CAS)平板法定性检测嗜铁素,用CAS蓝色液体检测液定量检测嗜铁素。采用大孔树脂XAD-2和固定化金属离子亲和层析(IMAC)对嗜铁素进行分离,IMAC采用降低pH和竞争性洗脱两种洗脱方式。【结果】混合平板定性检测法更快速、高效、便捷。缺铁培养的聚球藻7002发酵液中,嗜铁素的相对含量高达93.50%。大孔树脂分离,上样液pH调为2.0时,嗜铁素吸附充分,分离效果较好。试验发现,分离得到的聚球藻7002嗜铁素在254nm紫外下具有明显的荧光特性。【结论】试验得到了聚球藻7002嗜铁素定性检测和分离的有效方法。     

AS-1 cyanophage infection inhibits the photosynthetic electron flow of photosystem II in Synechococcus sp. PCC 6301, a cyanobacterium

In Synechococcus sp. cells AS-1 cyanophage infection gradually inhibits the photosystem II mediated photosynthetic electron flow whereas the activity of photosystem I is apparently unaffected by the cyanophage infection. Transient fluorescence induction and flash-induced delayed luminescence decay studies revealed that the inhibition may occur at the level of the secondary acceptor, Q_B of photosystem II. In addition, the breakdown of D₁-protein is inhibited, comparable to DCMU-induced protection of D₁-protein turnover, in AS-1-infected cells.     

人尿激酶原基因在聚球藻7002中的克隆和表达

将人尿激酶原基因连在ＰｐｓｂＡ启动子之后,再将启动子连同基因克隆入整合载体ｐＴＺ１８中。ｐＴＺ１８－８中含有一段来源于集胞藻６８０３的ｐｓｂＢ基因片段作为整合平台。将整合表达载体用直接转化的方法转聚球藻Ｓｙｎｅ－ｃｈｏｃｏｃｃｕｓ ｓｐ．ＰＣＣ７００２中。经氨苄青霉素选前扩大培养后的转化进行ＤＮＡ斑点印迹及Ｗｅｓｔｅｒｎ印迹, 基因的存在及表达,菌体破碎后的上清液有较高的溶解纤维蛋白的活性,说明表     

Cloning and Expression of Human Pro-urokinase Gene in the Cyanobacterium Synechococcus sp. PCC 7002

Pro-urokinase (pro-UK) gene was ligated with promoter PpsbA and cloned into the integrative vector pTZ18-8, which contained a psbB gene fragment from Synechocystis sp. PCC 6803 as the integrative platform. The expression vector was transferred into Synechococcus sp.PCC 7002 via natural transformation. Transformants conferring ampicillin resistance were amplified and then analyzed. DNA dot blot and Western blot demonstrated the existence and expression of pro-UK gene. The supernatant from crude cell extract showed thrombolytic activity, indicating that the expression product did not form inclusion bodies. According to the results of ELISA, expression of pro-UK was about 2×10 -5 -3×10 -5 g per gram of wet cells.     

Factors influencing the phycobilisome rod composition of the cyanobacterium Synechococcus sp. PCC 7942: Effects of reduced phycocyanin content, lack of rod-linkers, and over-expression of the rod-terminating linker

Four novel mutants with altered phycobilisomes were constructed in the cyanobacterium Synechococcus 7942 to study factors influencing the rod length and composition. These mutants show (1) reduced phycocyanin content, (2) reduced phycocyanin content combined with loss of the 33 kDa linker, (3) loss of the 30 kDa rod-linker and (4) overexpression of the 9 kDa rod terminating linker. For these mutants we determined the 33 to 27 kDa and 30 to 27 kDa linker ratios in the isolated phycobilisomes and compared these ratios with those in the wild type. The 30 kDa linker can be incorporated into the rods in absence of the 33 kDa linker. The incorporation of the 30 kDa linker is lower in absence of the 33 kDa linker. When the 30 kDa linker is missing, an increase in the level of the 33 kDa linker is seen, indicating that there could be an excess of the 33 kDa linker in the cells. Our results also show that a reduction in the phycocyanin content causes a decrease in the rod length simultaneously with a reduction of the 30/27 linker ratio, without altering the 33/27 ratio. Reduced phycocyanin content and absence of the 33 kDa linker cause a dramatic reduction in the incorporation of the 30 kDa linker into the rods in the mutant B2SMIKM. Over-expression of the 9 kDa linker results in a decreased incorporation of both the 33 and 30 kDa linkers into the rods, the effect being more pronounced for the 30 kDa linker. This result indicates that the level of the 9 kDa linker relative to those of the 33 and the 30 kDa linkers may be an important determinant of the phycobilisome rod length.     

Immunocytochemical localization of IdiA, a protein expressed under iron or manganese limitation in the mesophilic cyanobacterium Synechococcus PCC 6301 and the thermophilic cyanobacterium Synechococcus elongatus

Iron-deficiency-induced protein A (IdiA) with a calculated molecular mass of 35 kDa has previously been shown to be essential under manganese- and iron-limiting conditions in the cyanobacteria Synechococcus PCC 6301 and PCC 7942. Studies of mutants indicated that in the absence of IdiA mainly photosystem II becomes damaged, suggesting that the major function of IdiA is in Mn and not Fe metabolism (Michel et al. 1996, Microbiology 142: 2635–2645). To further elucidate the function of IdiA, the immunocytochemical localization of IdiA in the cell was examined. These investigations provided evidence that under mild Fe deficiency IdiA is intracellularly localized and is mainly associated with the thylakoid membrane in Synechococcus PCC 6301. The protein became distributed throughout the cell under severe Fe limitation when substantial morphological changes had already occurred. For additional verification of a preferential thylakoid membrane association of IdiA, these investigations were extended to the thermophilic Synechococcus elongatus. In this cyanobacterium Mn deficiency could be obtained more rapidly than in the mesophilic Synechococcus PCC 6301 and PCC 7942, and the thylakoid membrane structure proved to be more stable under limiting growth conditions. The immunocytochemical investigations with this cyanobacterium clearly supported a thylakoid membrane association of IdiA. In addition, evidence was obtained for a localization of IdiA on the cytoplasmic side of the thylakoid membrane. All available data support a function of IdiA as an Mn-binding protein that facilitates transport of Mn via the thylakoid membrane into the lumen to provide photosystem II with Mn. A possible explanation for the observation that IdiA was not only expressed under Mn deficiency but also under Fe deficiency is given in the discussion. Received: 28 July 1997 / Accepted: 26 November 1997     

Characterization of processes responsible for the distinct effect of herbicides DCMU and BNT on Photosystem II photoinactivation in cells of the cyanobacterium Synechococcus sp. PCC 7942

Light-induced modification of Photosystem II (PS II) complex was characterized in the cyanobacterium Synechococcus sp. PCC 7942 treated with either DCMU (a phenylurea PS II inhibitor) or BNT (a phenolic PS II inhibitor). The irradiance response of photoinactivation of PS II oxygen evolution indicated a BNT-specific photoinhibition that saturated at relatively low intensity of light. This BNT-specific process was slowed down under anaerobiosis, was accompanied by the oxygen-dependent formation of a 39 kDa D1 protein adduct, and was not related to stable Q_A reduction or the ADRY effect. In the BNT-treated cells, the light-induced, oxygen-independent initial drop of PS II electron flow was not affected by formate, an anion modifying properties of the PS II non-heme iron. For DCMU-treated cells, anaerobiosis did not significantly affect PS II photoinactivation, the D1 adduct was not observed and addition of formate induced similar initial decrease of PS II electron flow as in the BNT-treated cells. Our results indicate that reactive oxygen species (most likely singlet oxygen) and modification of the PS II acceptor side are responsible for the fast BNT-induced photoinactivation of PS II. This revised version was published online in June 2006 with corrections to the Cover Date.     

硫代硫酸钠对蓝细菌Synechocystis sp. PCC 6803生长在含葡萄糖培养基中所产生的一种新糖脂的影响

当蓝细菌Synechocystis sp. PCC 6803在添加葡萄糖的BG-11培养基中培养时,细胞出现了一种新脂.这种脂经浓硫酸/α-萘酚染色反应证实为糖脂,记为糖脂-x.这一糖脂的出现伴随着其他脂、尤其是双半乳糖甘油二酯含量的下降.此外,在添加果糖、麦芽糖、乳糖等其他碳源的培养基中生长的细胞中也检测到这一糖脂.活性氧猝灭剂硫代硫酸钠加入到培养基中能有效地抑制糖脂x的出现.当在BG-11培养基中加入0.3%硫代硫酸钠后,糖脂x仅能在培养基中添加高浓度(100 mmol/L)的葡萄糖且细胞生长处于后指数期时检测到.这些结果表明蓝细菌Synechocystis sp. PCC 6803细胞在含葡萄糖的培养基中生长出现的一种新糖脂可能与活性氧有关.