浑球红假单胞菌(Rhodopseudomonas sphaeroides)色素基因的突变对生长速率及光合固氮的影响

浑球红假单胞菌Rps.sphaeroides 6128经甲基磺酸乙酯诱变处理,分离获得23株色素突变种。不具有细菌叶绿素a和类胡萝卜素的无色突变株不能光养生长,蓝绿突变株305不含带色的类胡萝卜素,但能光养生长,其世代时间比亲本株长5倍左右,而且,没有还原乙炔和放氢的固氮酶活性。绿色突变株309缺失球形烯和球形烯酮。当光照强度从3000lx增加到4000lx时,绿色突变株与亲本株生长速率之差由5.3小时缩短为0.3小时,其光合固氮和光合放氢的活性分别为亲本株的30％和45％。各菌株ATP的含量因所含色素成份不同而异。在指数生长期,蓝绿突变株305的ATP含量只有亲本株的8％,绿色突变株309的ATP含量为亲本株的32％,各色素变种的固氮能力与它们菌体ATP的含量相关。类胡萝卜素在为光合固氮提供能源中起着重要的作用。     

Kinetics and thermodynamics of the P870+Q−A → P870+Q−B reaction in isolated reaction centers from the photosynthetic bacterium Rhodopseudomonas sphaeroides

The temperature dependences of the P870⁺Q^?_A → P870Q_A and P870⁺Q^?_B → P870Q_B recombination reactions were measured in reaction centers from Rhodopseudomonas sphaeroides. The data indicate that the P870⁺Q^?_B state decays by thermal repopulation of the P870⁺Q^?_A state, followed by recombination. ΔG° for the P870⁺Q^?_A → P870⁺Q^?_B reaction is ?6.89 kJ · mol^?1, while ΔH° = ?14.45 kJ · mol^?1 and ?TΔS° = + 7.53 kJ · mol^?1. The activation ethalpy, $\text{H}{}^3$, for the P870⁺Q^?_A Δ P870⁺Q^?_B reaction is +56.9 kJ · mol^?1, while the activation entropy is near zero. The results permit an estimate of the shape of the potential energy curve for the P870⁺Q^?_A → P870⁺Q^?_B electron transfer reaction.     

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％。     

盐胁迫对地木耳和葛仙米生理生化特性的影响

地木耳为一种耐干旱的陆生念珠藻 ,葛仙米则是水生念珠藻 ,由于对各自生境的适应 ,二者在对盐胁迫的反应上可能会有差异。为了阐明这种差异 ,研究了不同盐度胁迫下它们的光合活性、可溶性糖、脯氨酸含量及质膜透性的变化。结果表明 ,高盐胁迫下地木耳和葛仙米的光合活性均降低 ;在 0 .8mol·L- 1 的盐浓度下胁迫 48和 96h后 ,地木耳仍可检测到微弱的光合活性 ,而在葛仙米中已检测不到。地木耳中脯氨酸升高 ;可溶性糖含量升高 ,增幅为87%— 2 0 0 % ;质膜透性比对照略有增加 ,但不同盐度之间差别不大。葛仙米中脯氨酸含量降低 ;可溶性糖含量在NaCl小于 0 .4mol·L- 1 时随盐度的升高而升高 ,增幅为 1 0 0 %— 1 0 0 0 % ,当高于 0 .4mol·L- 1 时随盐度的升高而降低 ;质膜透性随盐度增加而增加 ,在盐浓度为 0 .6和 0 .8mol·L- 1 时 ,均达 90 %以上。结果表明 ,地木耳比葛仙米更能耐受盐度胁迫 ;可溶性糖在地木耳和葛仙米抵抗盐胁迫中有重要作用 ,而脯氨酸在葛仙米抗盐胁迫中可能不作为相容溶质起作用     

The reconstitution of energy transfer in membranes from a bacteriochlorophyll-less mutant of Rhodopseudomonas sphaeroides by addition of light-harvesting and reaction centre pigment-protein complexes

Antenna and reaction centre complexes purified from photosynthetically-grown cells of Rhodopseudomonas sphaeroides have been mixed with cytoplasmic membranes prepared from an aerobically-grown bacteriochlorophyll-less mutant of Rp. sphaeroides (designated 01) in the presence of 1% sodium cholate. After removal of the cholate by dialysis, the dialysate was subjected to isopycnic centrifugation. Reconstituted cytochrome c₂ photooxidation and cytochrome b photoreduction were demonstrated in a pigmented fraction recovered from the sucrose gradient, suggesting that the pigment-proteins were incorporated into the 01 membrane.

The fluorescence properties of the system were examined. The appearance of a variable component after the initial fast fluorescence rise indicated that energy transfer occurred between the antenna and reaction centre proteins in the presence of 01 membrane. The order in which the system was assembled was important. Reconstituted energy transfer with a pre-dialysed reaction centre-antenna complex was more effective than when all the components were mixed at once. Energy transfer was also reconstituted between added reaction centre protein and the endogenous antenna present in membranes from the pigmented, but aerobically-grown reaction centre-less mutant PM8dp of Rp. sphaeroides.

Preparations of 01 membranes reconstituted with reaction centre exhibited a light intensity dependent cytochrome c₂ photooxidation. At low exciting light intensities, preparations containing reconstituted antenna protein in addition to reaction centres showed greater membrane cytochrome c₂ photooxidation than preparations with the antenna omitted; this improvement was maximal when a pre-dialysed antenna-reaction centre complex was used.     

重组球形红细菌5-氨基乙酰丙酸合酶同工酶hemA和hemT的特性

将编码光合细菌Rhodobactersphaeroides 5- 氨基乙酰丙酸合酶(ALAS)的同工酶基因hemA、hemT转入E .coli中进行高表达,并将高表达的同工酶进行分离、纯化.纯化的hemA是可溶的,并具有催化活性,而hemT大部分是不溶的,且在体外条件下无活性.与其它重组ALAS相比,R .sphaeroides的hemA活性表达需PLP作为催化因子,除去PLP或用硼酸钠破坏与PLP的连接,hemA活性下降90 % .hemA PLP的紫外 可见光谱分析表明hemA与PLP之间形成一个醛亚胺键,而hemT与PLP之间未形成该键.hemA对修饰组氨酸、精氨酸、胱氨酸残基的试剂很敏感,对可切割Arg15 1和Ser15 2的类胰蛋白酶也很敏感,PLP也不能阻止该酶的切割作用.抗血清试验表明,hemA、hemT的抗血清均可与小鼠的ALAS杂交,并都有一个抗原决定簇.     

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.     

Cytochrome b oxidation and reduction reactions in the ubiquinone-cytochrome b/c2 oxidoreductase from Rhodopseudomonas Sphaeroides

1. The kinetics of cytochrome b reduction and oxidation in the ubiquinone-cytochrome b/c₂ oxidoreductase of chromatophores from Rhodopseudomonas sphaeroides Ga have been measured both in the presence and absence of anti-mycin, after subtraction of contributions due to absorption changes from cytochrome c₂, the oxidized bacteriochlorophyll dimer of the reaction center, and a red shift of the antenna bacteriochlorophyll.2. A small red shift of the antenna bacteriochlorophyll band centered at 589 nm has been identified and found to be kinetically similar to the carotenoid bandshift.3. Antimycin inhibits the oxidation of ferrocytochrome b under all conditions; it also stimulates the amount of single flash activated cytochrome b reduction 3- to 4-fold under certain if not all conditions.4. A maximum of approximately 0.6 cytochrome b-560 (E_m(7) = 50 mV, n = 1, previously cytochrome b₅₀) hemes per reaction center are reduced following activating flashes. This ratio suggests that there is one cytochrome b-560 heme functional per ubiquinone-cytochrome b/c₂ oxidoreductase.5. Under the experimental conditions used here, only cytochrome b-560 is observed functional in cyclic electron transfer.6. We describe the existence of three distinct states of reduction of the ubiquinone-cytochrome b/c₂ oxidoreductase which can be established before activation, and result in markedly different reaction sequences involving cytochrome b after the flash activation. Poising such that the special ubiquinone (Q_z) is reduced and cytochrome b-560 is oxidized yields the conditions for optimal flash activated electron transfer rates through the ubiquinone-cytochrome b/c₂ oxidoreductase. However when the ambient redox state is lowered to reduce cytochrome b-560 or raised to oxidize Q_z, single turnover flash induced electron transfer through the ubiquinone-cytochrome b/c₂ oxidoreductase appears impeded; the points of the impediment are tentatively identified with the electron transfer step from the reduced secondary quinone (Q_II) of the reaction center to ferricytochrome b-560 and from the ferrocytochrome b-560 to oxidized Q_z, respectively.     

Diphosphoryl lipid A derived from the lipopolysaccharide (LPS) of Rhodobacter sphaeroides ATCC 17023 is a potent competitive LPS inhibitor in murine macrophage-like J774.1 cells

Abstract Pentaacyl diphosphoryllipid A derived from the nontoxic lipopolysaccharide (LPS) of Rhodobacter sphaeroides ATCC 17023 (RsDPLA) did not induce tumour necrosis factor-α nor interleukin-6 release in the murine macrophage-like cell line J774.1. However, it effectively inhibited the induction of these two cytokines by LPS of Salmonella minnesota Re mutant R595 (ReLPA) in a concentration-dependent manner. Maximal inhibition and half-maximal inhibition occured when the ReLPS to RsDPLA mass ratio was 1:30 and 1:1, respectively. A binding study was performed in the presence of serum to determine whether RsDPLA is competing with ReLPS for LPS binding sites on J774.1 cells. This assay allows the determination of LPS binding to J774.1 cells via a mechanism involving CD14, a receptor for complexes of LPS with LPS binding protein (LBP), and its possible inhibition. The results show that RsDPLA strongly inhibits the binding of ¹²⁵I-labelled ReLPS to J774.1 cells. Maximal and one-half maximal inhibition of binding occured when the ReLPS to RsDPLA mass ratios were 1:2.5 and 1:0.5, respectively. It was found that the inhibition of binding by RsDPLA was much stronger than that by unlabelled ReLPS. These results suggest that RsDPLA is competing with ReLPS for CD14-dependent recognition of LPS on J774.1 cells.     

Herbicide-quinone competition in the acceptor complex of photosynthetic reaction centers from Rhodopseudomonas sphaeroides: a bacterial model for PS-II-herbicide activity in plants

A select group of herbicides that inhibit photosystem II also act at the acceptor side of the reaction center (RC) from the photosynthetic bacterium Rhodopseudomonas sphaeroides, with much the same relative specificity as in plants. These include the triazines and some phenolic compounds. The proposal that herbicides inhibit the electron transfer from the primary quinone (QA) to the secondary quinone (QB) by competing for the secondary quinone binding site--the B-site--[5], is tested here with terbutryn, the most potent of the triazines. Competition between terbutryn and ubiquinone (Q-10) was observed using the kinetics of the back-reaction as a measure of inhibition. The model includes binding equilibria before and after flash activation. The binding constants for the preflash (dark) equilibria, for reaction centers in 0.14% lauryl dimethylamine-N-oxide (LDAO), were KDi = 0.8 microM terbutryn, KDq = 2 microM Q-10; both are detergent-concentration dependent. After flash activation, binding equilibrium is not fully restored on the time scale of the back-reaction because terbutryn unbinds slowly. This gives rise to biphasic decay kinetics from which koff for terbutryn was estimated to be 3 sec-1. Titrations of the rate of the slow back reaction indicated that the post-flash equilibrium is less sensitive to inhibitor, in a manner that is independent of the much stronger binding of the semiquinone, Q-B, and indicative of a direct effect of the redox state of QA on the affinity of the B-site for ligands. However, the effects on KLi and KDq could not be separated: either KLi greater than KDi or KLq less than KDq. Some triazine-resistant mutants have been isolated and are described. All appear to be herbicide binding site mutants. Whole cells and photosynthetic membrane vesicles (chromatophores) exhibit a 10-50-fold increase in resistance to triazines due, in large part, to an increase in the rate of unbinding (koff). The modifications of the binding site appear to diminish the affinity of the B-site for ubiquinone as well as terbutryn. It is concluded that bacterial RCs are a useful model for the study of herbicide activity and specificity.