Identification of proton transfer pathways in the X-ray crystal structure of the bacterial reaction center from Rhodobacter sphaeroides

Structural features that have important implications for the fundamental process of transmembrane proton transfer are examined in the recently published high resolution atomic structures of the reaction center (RC) from Rhodobacter sphaeroides in the dark adapted state (DQ_AQ_B) and the charged separated state (D⁺Q_AQ_B ^–); the latter is the active state for proton transfer to the semiquinone. The structures have been determined at 2.2 Å and 2.6 Å resolution, respectively, as reported by Stowell et al. (1997) [Science 276: 812–816]. Three possible proton transfer pathways (P1, P2, P3) consisting of water molecules and/or protonatable residues were identified which connect the Q_B binding region with the cytoplasmic exposed surface at Asp H224 & Asp M240 (P1), Tyr M3 (P2) and Asp M17 (P3). All three represent possible pathways for proton transfer into the RC. P1 contains an uninterrupted chain of water molecules. This path could, in addition, facilitate the exchange of quinone for quinol during the photocycle by allowing water to move into and out of the binding pocket. Located near these pathways is a cluster of electrostatically interacting acid residues (Asp-L213, Glu-H173, Asp-M17, Asp H124, Asp-L210 and Asp H170) each being within 4.5 Å of a neighboring carboxylic acid or a bridging water molecule. This cluster could serve as an internal proton reservoir facilitating fast protonation of Q_B ^– that could occur at a rate greater than that attainable by proton uptake from solution.     

Characterization of second site mutations show that fast proton transfer to QB − is restored in bacterial reaction centers of Rhodobacter sphaeroides containing the Asp-L213 → Asn lesion

The structural basis for proton coupled electron transfer to Q_B in bacterial reaction centers (RCs) was studied by investigating RCs containing second site suppressor mutations (Asn M44 Asp, Arg M233 Cys, Arg H177 His) that complement the effects of the deleterious Asp L213 Asn mutation [DN(L213)]. The suppressor RCs all showed an increased proton coupled electron transfer rate k _AB ⁽²⁾(Q_A ^–Q_B ^– + H⁺ Q_AQ_BH^–) by at least 10³ (pH 7.5) and a recombination rate k _BD (D⁺Q_AQ_B ^– DQ_AQ_B) 15–40 times larger than the value found in DN(L213) RCs. Proton transfer was studied by measuring the dependence of k _AB ⁽²⁾ on the free energy for electron transfer (G_et). k _AB ⁽²⁾ was independent of G_et in DN(L213) RCs, but dependent on G_et in native and all suppressor RCs. This shows that proton transfer limits the k _AB ⁽²⁾ reaction with a rate of 0.1s^–1 in DN(L213) RCs but is not rate limiting and at least 10⁸-fold faster in native and 10⁵-fold faster in the suppressor RCs. The increased rate of proton transfer by the suppressor mutations are proposed to be due to: (i) a reduction in the barrier to proton transfer by providing a more negative electrostatic potential near Q_B ^–; and/or (ii) structural changes that permit fast proton transfer through the network of protonatable residues and water molecules near Q_B.     

Crystallization and preliminary X-ray crystallographic analysis of phosphoribulokinase from Rhodobacter sphaeroides.

A recombinant form of Rhodobacter sphaeroides phosphoribulokinase (PRK), expressed in Escherichia coli and isolated by affinity chromatography, was crystallized by the sitting drop vapor diffusion technique using NH4H2PO4 (pH 5.6) as the precipitating agent. PRK crystallizes in the cubic space group P432, with unit cell parameters a = b = c = 129.55 A. Based on the assumption of one 32-kDa monomer per asymmetric unit, the Vm value is 2.83 A3/Da. The octameric molecular symmetry is consistent with two planar tetramers stacked in a nearly eclipsed arrangement. A native data set has been collected to 2.6 A resolution.     

球形红杆菌L2的生物学特性及其应用

从淀粉废水中分离获得一株光合细菌,经形态特征,培养特征,生理生化特征及Ｇ＋Ｃｍｏｌ％含量等生物学特性分析,确定为球形红杆菌（Ｒｈｏｄｏｂａｃｔｅｒｓｐｈａｅｒｏｉｄｅｓ）Ｌ２。该菌应用于淀粉废水处理,ＣＯＤ去除率达９５．７％发酵产类胡萝卜素,产量达２９５ｍｇ／Ｌ;作为饲料添加剂进行肉鸡饲喂,增重１６．４０％。     

Identification and characterization of a GroEL homologue in Rhodobacter sphaeroides

A protein closely related to the Escherichia coli GroEL protein has been isolated from Rhodobacter sphaeroides. Native and SDS-polyacrylamide gel electrophoresis of this protein have shown that it is present in the cell as a multimeric complex of Mr 670,000 which is composed of a monomer of Mr 58,000. Antisera raised against the Mr 58,000 polypeptide have been shown to cross-react with GroEL and the alpha subunit of the pea plastid chaperonin. The N-terminal amino acid sequence of the Mr 58,000 polypeptide is identical to that of GroEL at 15 of 19 residues and is also closely related to the alpha subunit of the pea plastid chaperonin, though less so to the beta subunit.     

Non-reciprocal regulation of Rhodobacter capsulatus and Rhodobacter sphaeroides recA genes expression

Abstract The Rhodobacter capsulatus recA gene has been isolated and sequenced. Its deduced amino acid sequence showed the closest identity with the Rhodobacter sphaeroides RecA protein (91% identity). However, the promoter regions of both R. capsulatus and R. sphaeroides recA genes are only 64% similar. An Escherichia coli -like LexA binding site was not present in the upstream region of the R. capsulatus recA gene. Nevertheless, the R. capsulatus recA gene is inducible by DNA damage in both hetero- and phototrophically growing conditions. The R. capsulatus recA gene is poorly induced when inserted into the chromosome of R. sphaeroides , indicating that the recA gene of both bacteria possess different control sequences despite their phylogenetically close relationship.     

Lipidic cubic phase crystal structure of the photosynthetic reaction centre from Rhodobacter sphaeroides at 2.35A resolution

Well-ordered crystals of the bacterial photosynthetic reaction centre from Rhodobacter sphaeroides were grown from a lipidic cubic phase. Here, we report the type I crystal packing that results from this crystallisation medium, for which 3D crystals grow as stacked 2D crystals, and the reaction centre X-ray structure is refined to 2.35A resolution. In this crystal form, the location of the membrane bilayer could be assigned with confidence. A cardiolipin-binding site is found at the protein-protein interface within the membrane-spanning region, shedding light on the formation of crystal contacts within the membrane. A chloride-binding site was identified in the membrane-spanning region, which suggests a putative site for interaction with the light-harvesting complex I, the cytochrome bc(1) complex or PufX. Comparisons with the X-ray structures of this reaction centre deriving from detergent-based crystals are drawn, indicating that a slight compression occurs in this lipid-rich environment.     

Soluble proteome investigation of cobalt effect on the carotenoidless mutant of Rhodobacter sphaeroides

Aims:  To investigate the surviving capability of Rhodobacter sphaeroides under phototrophic conditions in the presence of high cobalt concentration and its influence on the photosynthetic apparatus biosynthesis.
Methods and Results:  Cells from R. sphaeroides strain R 26·1 were grown anaerobically in a medium containing 5·0 mmol l⁻¹ cobalt ions and in a control medium. Metal toxicity was investigated comparing the soluble proteome of Co²⁺-exposed cells and cells grown in control medium by two-dimensional gel electrophoretic analysis. Significant changes in the expression level were detected for 43 proteins, the majority (35) being up-regulated. The enzyme porphobilinogen deaminase (PBGD) was found down-regulated and its activity was investigated.
Conclusions:  The up-regulated enzymes mainly belong to the general category of proteins and DNA degradation enzymes, suggesting that part of the catabolic reaction products can rescue bacterial growth in photosynthetically impaired cells. Furthermore, the down-regulation of PBGD strongly indicates that this key enzyme of the tetrapyrrole and bacteriochlorophyll synthesis is directly involved in the metabolic response.
Significance and Impact of the Study:  Data and experiments show that the cobalt detrimental effect on the photosynthetic growth of R. sphaeroides is associated with an impaired expression and functioning of PBGD.     

浑球红假单胞菌（Rhodobacter sphaeroides）谷氨酸合酶的纯化及性质

浑球红假单胞菌菌株601经超声击碎,粗提液通过Triton处理,硫酸铵沉淀,DE—52和DEAE—sephadex A—50柱层析及 Seqhadex G—200凝胶过滤等步骤,将谷氨酸合酶(GOGAT)分离纯化,在聚丙烯酰胺凝胶电泳上呈现一条带。GOGAT表观分子量约为138 kD。该酶最大光吸收在278,375,450 nm和475 nm处,表明GOGAT可能是一种黄素蛋白。纯化的GOGAT对其底物 Gln,α—酮戊二酸和NADPH的表观K_m值分别为830,150和6μmol/L。反应产物Gln和NADP,几种氨基酸对GOGAT活力有不同程度的抑制作用,Gln类似物DON对GOGAT活力有强烈的抑制作用。     

Identification of two new denitrifying strains of Rhodobacter sphaeroides

Abstract Highly specific polyclonal and antibodies against either nitrate, nitrite or nitrous oxide reductases from a photosynthetic denitrifying bacterium Rhodobacter sphaeroides f. sp. denitrificans were used to show the presence of immunologically reactive proteins in strains that Pellerin and Gest had shown to grow in the dark with nitrate as a terminal acceptor [9]. Two strains of this bacterium, namely 81-3 and 2.4.3 synthesized the three denitrifying enzymes and were capable of denitrification. Strains 81-1 and 2.4.1 (neotype) both expressed nitrate reductase activities but nitrite reductase was not detected since these strains did not reduce nitrite. They also did not grow in the dark with nitrate as a terminal acceptor. Each of strains 81-1, 81-3, 2.4.1 and 2.4.3 contain four plasmids. R. sphaeroides f. sp. denitrificans , however, contains only one large 108 kb plasmid, which is distinctly different in size from those detected in the other strains. This indicates that the 108 kb plasmid is not necessarily specific for denitrification.     

Optimization of activation conditions of Rhodobacter sphaeroides in hydrogen generation process

AIMS: To examine the effects of the culture age, illuminance intensity and changes in these parameters during activation on hydrogen generation process carried out by purple nonsulfur Rhodobacter sphaeroides bacteria. METHODS AND RESULTS: The following parameters were determined in all experiments: the amount of hydrogen evolved (measured using gas chromatography), biomass increase as dry mass, pH values and consumption of organic substance as chemical oxygen demand (COD). The medium used in the process of activation and hydrogen generation contained malic acid (15 mmol) and sodium glutamate (2 mmol). The optimum age of bacteria was 12-24 h and the best intensity of illuminance was found to be 5 cd sr m-2 on activation and 9 cd sr m-2 on hydrogen generation. These conditions provided hydrogen evolution of 1.39 l l-1 of the medium with the highest specific hydrogen production of 0.146 l H2 l-1 medium h-1 g-1 inoculum. An increase in the illuminance intensity resulted in a slight inhibition of the process. CONCLUSIONS: The activation stage of bacteria has a significant effect on the parameters of hydrogen photogeneration. The optimization of the activation stages allowed a shortening of the time of hydrogen generation and of the period after which hydrogen evolution starts. SIGNIFICANCE AND IMPACT OF THE STUDY: An innovative method of bacteria activation before the initiation of the hydrogen generation process has been used to optimize this process. The shortening of the process duration as well as the twice higher hydrogen yield can help in the designing of other systems (including also those operating under solar irradiation) in which R. sphaeroides bacteria are to be applied.     

Isolation of the replication region of an indigenous plasmid of Rhodobacter sphaeroides

Abstract The isolation of the replication region of an indigenous plasmid of 42 kb of the phototrophic bacterium Rhodobacter sphaeroides is described. This plasmid was digested with the Bgl II restriction enzyme, ligated to the 2.7 Bgl II fragment of transposon Tn 10 , which contains the tet genes conferring tetracycline resistance, and the mixture was transformed into the Escherichia coli MC1061 strain. One of several chimeric plasmids harboring the replication region of the 42-kb plasmid obtained by this process was named pUA33 and further characterized. Plasmid pUA33 is approx. 8.3 kb. A partial restriction map has been constructed. Plasmid pUA33 is stable in E. coli cells growing under non-selective conditions and is non-self-transmissible. All these data suggest that the pUA33 plasmid may be a very useful tool for gene cloning in R. spheroides .     

The solution structure of the PufX polypeptide from Rhodobacter sphaeroides

PufX organises the photosynthetic reaction centre–light harvesting complex 1 (RC–LH1) core complex of Rhodobacter sphaeroides and facilitates quinol/quinone exchange between the RC and cytochrome bc₁ complexes. The structure of PufX in organic solvent reveals two hydrophobic helices flanked by unstructured termini and connected by a helical bend. The proposed location of basic residues and tryptophans at the membrane interface orients the C-terminal helix along the membrane normal, with the GXXXG motifs in positions unsuitable as direct drivers of dimerisation of the RC–LH1 complex. The N-terminal helix is predicted to extend 40 Å along the membrane interface.     

强化类球红细菌辅因子NADPH再生以提高法尼醇的产量

法尼醇(Farnesol,FOH)是由焦磷酸异戊烯基(IPP)和焦磷酸二甲基烯丙基(DMAPP)合成的法尼酰基焦磷酸盐(FPP)去焦磷酸化作用生成的。在类球红细菌中IPP和DMAPP是由MEP途径生成,而完整的MEP途径需要消耗大量的辅因子NADPH,增加胞内NADPH的量有可能强化FOH的合成。文中从增加NADPH的生成和降低NADPH的消耗这两个策略出发,分别干扰了编码6-磷酸葡萄糖异构酶基因(pgi)和谷氨酸脱氢酶基因(gdhA)的表达,同时强化了磷酸戊糖途径中6-葡萄糖磷酸脱氢酶基因(zwf)和6-葡萄糖酸磷酸脱氢酶基因(gnd)的表达。实验结果表明,经改造的菌株NADPH含量显著增加,干扰菌株中菌株RSpgii的产量较高,为3.91 mg/g,在过表达的菌株中同时过表达zwf和gnd基因的重组菌株(RSzg)的FOH产量提高到了3.43 mg/g。为了获得FOH产量更高的菌株,以RSpgii为出发菌株,分别与zwf和gnd组合调控,获得的菌株RSzgpi的产量达到了最高量为4.48 mg/g,是出发菌株RS-GY2产率的2.24倍。     

含硒类球红细菌的研究

为了确定类球红细菌转硒培养的最佳条件 ,研究了无机硒的加入浓度、时间以及分批补料培养对菌体生长和转硒效率的影响。实验表明 ,无机硒的浓度低于 1× 10 -5mol/L时 ,对类球红细菌的生长基本没有影响 ,并能将6 3.9%的无机硒转化为有机硒。转硒的最佳时间是在接种后 12h左右 ,此时转硒效率最高。实验还表明 ,分批补料培养可以提高菌体浓度 ,可使转硒效率和绝对量增加。体内试验表明 ,用 5mL/kgbw和 10mL/kgbw剂量的含硒类球红细菌灌养小鼠 ,可以使其全血GSH Px酶活性提高 2 0 .9%和 2 5 .5 % ,使其血清丙二醛 (MDA)含量降低2 1.0 %和 2 3.2 %。     

Plasmid content and localization of the genes encoding the denitrification enzymes in two strains of Rhodobacter sphaeroides

Plasmid content and localization of the genes encoding the reductases of the denitrification pathway were determined in the photosynthetic bacterium Rhodobacter sphaeroides forma sp. denitrificans by transverse alternating-field electrophoresis (TAFE) and hybridization with digoxigenin-labeled homologous probes. Two large plasmids of 102 and 115 kb were found. The genes encoding the various reductases are not clustered on a single genetic unit. The nap locus (localized with a napA probe), the nirK gene and the norCB genes encoding the nitrate, nitrite and nitric oxide reductases, respectively, were found on different AseI and SnaBI digested chromosomal DNA fragments, whereas the nos locus (localized with a nosZ probe), encoding the nitrous oxide reductase, was identified on the 115-kb plasmid. Furthermore, the genes encoding two proteins of unknown function, one periplasmic and the other cytoplasmic, but whose synthesis is highly induced by nitrate, were found on a different chromosomal fragment. For comparison, the same experiments were carried out on the well-characterized strain Rhodobacter sphaeroides 2.4.1.     

类球红细菌发酵生产类胡萝卜素条件优化

本文对类球红细菌3757产类胡萝卜素进行了发酵条件优化,结果得到了较优的培养基组成:葡萄糖2%,苹果酸钠0.5%,酵母浸粉1.3%,硫酸铵0.9%,磷酸氢二钾0.09%,磷酸二氢钾0.06%,生长因子溶液1%,p H 8.0;其中,生长因子溶液配方:维生素B1 0.1%,烟酰胺(VPP)0.1%,生物素0.0016%。较优培养条件为:接种量5%,转速200 r/min,种龄24 h,发酵温度32℃,发酵时间40 h。优化后类胡萝卜素产率较优化前提高了76.2%。     

Inverted behavioural responses in wild-type Rhodobacter sphaeroides to temporal stimuli

Both aerobically and photosynthetically grown wild-type Rhodobacter sphaeroides swarmed through soft nutrient agar. However, individual aerobically and photosynthetically grown tethered cells showed different responses to steps in concentrations of some attractants. Photosynthetically grown cells showed little response to a step-up in attractant, but large response to a step-down. Aerobically grown cells showed a large but opposite response to a step-up of chemoeffectors such as succinate and aspartate. The responses in che operon deletion mutants were also investigated and indicated that the aerobic response may depend on the protein products of che operon 1.     

球形红细菌厌氧降解2,4-二硝基甲苯

【目的】研究不同环境条件对2,4-二硝基甲苯(2,4-DNT)生物降解的影响。【方法】采用光合细菌球形红细菌在温度为30 °C的光照培养箱中厌氧降解2,4-DNT,并用高效液相色谱仪测定其浓度。【结果】去除2,4-DNT的最佳条件是初始浓度40 mg/L、初始pH 7.0和接种量15%。另外,2,4-DNT在菌体延滞期被细胞吸收,然后在指数期作为碳源被降解。2,4-DNT的去除率在72 h达到98.8%。从液相色谱图中观察到有2种中间代谢产物,但在120 h内产物被逐渐降解。2,4-DNT的去除动力学符合一级速率模型。【结论】不同条件下2,4-DNT的去除率表明球形红细菌能有效降解2,4-DNT。