Reduced pyridine nucleotides in Pseudomonas carboxydovorans are formed by reverse electron transfer linked to proton motive force

In cell suspensions of Pseudomonas carboxydovorans pulsed with lithotrophic substrates (CO or H₂) in the presence of oxygen, formation of reduced pyridine nucleotides and of ATP could be demonstrated using the bioluminescent assay. Experiments employing base-acid transition, an uncoupler and inhibitors of ATPase or electron transport enabled us to propose a model for the formation of NAD(P)H in chemolithotrophically growing P. carboxydovorans.The protonophor FCCP (carbonly-p-trifluormethoxyphenylhydrazon) inhibited both, formation of NAD(P)H and of ATP. In the absence of oxygen, a chemical potential imposed by base-acid transition resulted in the formation of NAD(P)H and ATP when electrogenic substrates (CO or H₂) were present. This suggests proton motive force-driven NAD(P)H formation. The proton motive force was generated by oxidation of substrate, and not by ATP hydrolysis, as obvious from NAD(P)H formation during inhibition of ATP synthesis by oligomycin and N,N-dicyclohexylcarbodiimide.That the CO-born electrons are transferred via the ubiquinone 10-cytochrome b region to NADH dehydrogenase functioning in the reverse direction, was indicated by inhibition of NAD(P)H formation by HQNO (2-n-heptyl-4-hydroxyquinoline-N-oxide) and rotenone, and by resistance to antimycin A.We conclude that in P. carboxydovorans, growing with CO or H₂, electrons and a proton motive force, generated by respiration, are required to drive an reverse electron transfer for the formation of reduced pyridine nucleotides.Abbreviations CODH carbon monoxide dehydrogenase - DCCD N,N-dicyclohexylcarbodiimide - FCCP carbonyl-p-trifluormethoxyphenylhydrazon - HQNO 2-n-heptyl-4-hydroxyquinoline-N-oxide - pmf proton motive force     

PHAMCL biosynthesis systems in Pseudomonas aeruginosa and Pseudomonas putida strains show differences on monomer specificities

The production of PHA from plant oils by Pseudomonas species soil isolated from a sugarcane crop was evaluated. Out of 22 bacterial strains three were able to use efficiently plant oils to grow and to accumulate PHA. Pseudomonas putida and Pseudomonas aeruginosa strains produced PHA presenting differences on monomer composition compatible with variability on monomer specificity of their PHA biosynthesis system. The molar fraction of 3-hydroxydodecanoate detected in the PHA was linearly correlated to the oleic acid supplied. A non-linear relationship between the molar fractions of 3-hydroxy-6-dodecenoate (3HDdΔ₆) detected in PHA and the linoleic acid supplied was observed, compatible with saturation in the biosynthesis system capability to channel intermediate of β-oxidation to PHA synthesis. Although P. putida showed a higher 3HDdΔ₆ yield from linoleic acid when compared to P. aeruginosa, in both species it was less than 10% of the maximum theoretical value. These results contribute to the knowledge about the biosynthesis of PHA with a controlled composition from plant oils allowing in the future establishing the production of these polyesters as tailor-made polymers.     

The proton‐motive force is required for translocation of CDI toxins across the inner membrane of target bacteria

Contact‐dependent growth inhibition (CDI) is a mode of bacterial competition orchestrated by the CdiB/CdiA family of two‐partner secretion proteins. The CdiA effector extends from the surface of CDI⁺ inhibitor cells, binds to receptors on neighbouring bacteria and delivers a toxin domain derived from its C‐terminal region (CdiA‐CT). Here, we show that CdiA‐CT toxin translocation requires the proton‐motive force (pmf) within target bacteria. The pmf is also critical for the translocation of colicin toxins, which exploit the energized Ton and Tol systems to cross the outer membrane. However, CdiA‐CT translocation is clearly distinct from known colicin‐import pathways because ΔtolA ΔtonB target cells are fully sensitive to CDI. Moreover, we provide evidence that CdiA‐CT toxins can be transferred into the periplasm of de‐energized target bacteria, indicating that transport across the outer membrane is independent of the pmf. Remarkably, CDI toxins transferred under de‐energized conditions remain competent to enter the target‐cell cytoplasm once the pmf is restored. Collectively, these results indicate that outer‐ and inner‐membrane translocation steps can be uncoupled, and that the pmf is required for CDI toxin transport from the periplasm to the target‐cell cytoplasm.     

Use of resazurin to detect mefloquine as an efflux-pump inhibitor in Pseudomonas aeruginosa and Escherichia coli

Multi-drug-resistant bacteria can cause serious infections that are extremely difficult to treat. Bacterial efflux pumps are known to contribute to multi-drug resistance and, thus, constitute a promising target for novel antibacterial agents. Resazurin is widely used to monitor bacterial growth because resazurin is reduced to the fluorescent resorufin by live cells. We have shown by flow cytometric analysis and by accumulation studies with wild type and efflux deficient strains that resazurin is a substrate of efflux pumps in Escherichia coli and Pseudomonas aeruginosa. Our investigations showed that the conversion rate of resazurin to resorufin is affected by efflux pumps. This finding was used to design an assay useful to detect efflux pump activity and to find potential efflux-pump inhibitors in a microtiter plate format. Mefloquine was detected as efflux-pump inhibitor when a panel of selected chemical compounds was tested for assay validation purposes.     

拟南芥抵抗丁香假单胞杆菌过程中AZI1基因功能研究

AZI1属于脂转移蛋白家族,它在拟南芥抵抗病原菌侵染过程中可能起着传递信号物质的作用。该实验以过表达和T-DNA插入突变体及野生型拟南芥植株为材料,通过RNA印迹、蛋白质免疫印迹和原位免疫组织化学方法,研究了拟南芥壬二酸诱导基因AZI1对丁香假单胞杆菌的抗性功能。结果表明:(1)AZI1基因可以被丁香假单胞杆菌、H2O2和乙烯利诱导,它可能参与水杨酸和乙烯介导的抗菌途径。(2)蛋白质免疫印迹实验结果显示,丁香假单胞杆菌侵染叶片的叶柄渗出液中存在AZI1蛋白及其同源物EARLI1,并能够与其他蛋白质形成复合体,说明AZI1有可能通过维管组织移动到个体的其他部位,与信号分子的转移有关。(3)AZI1及其同源物EARLI1主要在花序茎的木质化部位表达,过表达AZI1基因能够促进木质素的合成,提高拟南芥对丁香假单胞杆菌的抗性。     

铜绿假单胞菌生物被膜组成及其受群体感应系统和c-di-GMP调控的研究进展

作为人类条件性感染的前三大病原菌之一的铜绿假单胞菌,是一种革兰氏阴性细菌,对免疫功能低下和囊性纤维化患者可以造成严重和持续性感染。造成这种持续感染的原因主要是由于细菌接收外界信号后,在自身调控网络的协同作用下,会依附于固体表面,并产生胞外多糖、基质蛋白和胞外DNA等大分子物质形成高度结构化的膜状复合物将自身包裹形成生物被膜群体结构。生物被膜可以有效帮助细菌定殖、提高细菌对抗菌物质和宿主免疫反应的抵抗能力、促进群落细菌的细胞-细胞之间的信号交流等,是临床治疗中病原菌慢性感染和反复感染最重要的原因之一。本篇综述重点介绍了铜绿假单胞菌生物被膜的各组成成分及其在生物被膜形成中的重要功能,并进一步阐述了群体感应系统(las、rhl、pqs与iqs)和c-di-GMP对铜绿假单胞菌生物被膜形成的调控作用。通过本篇综述可以更清晰地了解细菌生物被膜形成和调控的过程,为开发新的治疗生物被膜感染策略提供帮助。     

铜绿假单胞菌在液滴界面的二维和三维运动特征

【目的】环境中无处不在的气-液界面能够影响细菌的运动和养分的传输扩散,进而调控微生物的种群互作和群落结构。因此,系统地认知微生物在微观界面的运动特征对于理解和解析微生物多样性的产生、维持机制以及生态功能至关重要。【方法】本文基于微流体显微系统(超高速荧光显微镜和数字全息显微镜),以具备主动运动能力的模式菌株铜绿假单胞菌(Pseudomonas aeruginosaPAO1)为研究对象,观测并解析了细菌细胞在气-液界面的二维运动特征和气-液-固界面的二维与三维运动特征。【结果】PAO1既能在气-液界面处执行近似直线轨迹的运动,也能在气-液界面下方执行顺时针或逆时针旋转的圆周运动(最小曲率半径Rmin=3μm)。在气-液-固界面处,6.45%的不运动细胞聚集于气-液-固界面边缘处,并在该处完成不可逆附着;同时,游动细胞由于受到液滴内部毛细管流和马兰戈尼(Marangoni)涡流运动的综合作用,直线游动至距界面约40μm内的区域后,其运动轨迹转变为垂直界面方向返回或以近似界面平行方向运动并附着,这些行为显著调节了PAO1的空间分布,促使了其朝向气-液-固界面的迁移,表明个体PAO1的鞭毛在此...     

Sugar uptake by the dermal transfer cells of developing cotyledons of Vicia faba L.

The mechanism of carrier-mediated sucrose uptake by the dermal transfer cells of developing Vicia faba L. cotyledons was studied using excised cotyledons and isolated transfer cell protoplasts. Addition of sucrose resulted in a transitory alkalinization of the bathing solution whereas additions of glucose, fructose or raffinose had no effect. Dissipating the proton motive force by exposing cotyledons and isolated transfer cell protoplasts to an alkaline pH, carbonylcyanide m-chlorophenylhydrazone, weak acids (propionic acid and 5,5-dimethyl-oxazolidine-2,4-dione) or tetraphenylphos-phonium ion resulted in a significant reduction of sucrose uptake. The ATPase inhibitors, erythrosin B (EB), diethylstilbestrol (DES) and N,N-dicyclohexylcarbodiimide (DCCD) were found to abolish the sucrose-induced medium alkanization as well as reduce sucrose uptake. Cytochemical localization of the ATPase, based on lead precipitation, demonstrated that the highest activity was present in the plasma membranes located in wall ingrowth regions of the dermal transfer cells. The presence of a transplasma-membrane redox system was detected by the extracellular reduction of the electron acceptor, hexacyanoferrate III. The reduction of the ferric ion was coupled to a release of protons. The redox-induced proton extrusion was abolished by the ATPase inhibitors EB, DES and DCCD suggesting that proton extrusion was solely through the H⁺-ATPase. Based on these findings, it is postulated that cotyledonary dermal transfer cells take up sucrose by a proton symport mechanism with the proton motive force being generated by a H ⁺ -ATPase. Sucrose uptake by the storage parenchyma and inner epidermal cells of the cotyledons did not exhibit characteristics consistent with sucrose-proton symport.Abbreviations CCCP carbonylcyanide m-chlorophenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - DES diethylstilbestrol - EB erythrosin B - Em membrane potential - FC fusicoccin - HCF II hexacyanoferrate II - HCF III hexacyanoferrate III - Mes 2-(N-morpholino)ethanesulfonic acid - pmf proton motive force - TPP⁺ tetraphenylphosphonium ion The investigation was supported by funds from the Research Management Committee, The University of Newcastle and the Australian Research Council. One of us, R. McDonald, gratefully acknowledges the support of an Australian Postgraduate Research Award. We are indebted to Stella Savory for preparing the ultrathin sections for electron microscopy.     

Chaperone-mediated activation in vivo of a Pseudomonas cepacia lipase

An extracellular Pseudomonas cepacia lipase, LipA, is inactive when expressed in the absence of the product of the limA gene. Evidence has been presented that LimA is a molecular chaperone. The lipA and limA genes have been cloned in separate and independently inducible expression systems in Escherichia coli. These systems were used to test the molecular chaperone hypothesis by investigating whether LimA could activate presynthesized prelipase and whether presynthesized LimA could activate newly synthesized prelipase. The results show that LimA cannot activate presynthesized prelipase and that presynthesized LimA can activate only a limited number of de novo synthesized prelipase molecules. Co-immunoprecipitation of prelipase/lipase with LimA generated a 1:1 complex of prelipase/lipase and LimA. The results suggest that a 1:1 complex of LipA and LimA is required for prelipase processing and secretion of active lipase.     

Intracellular degradation of two structurally different polyhydroxyalkanoic acids accumulated in Pseudomonas putida and Pseudomonas citronellolis from mixtures of octanoic acid and 5-phenylvaleric acid

From a set of mixed carbon sources, 5-phenylvaleric acid (PV) and octanoic acid (OA), polyhydroxyalkanoic acid (PHA) was separately accumulated in the two pseudomonads Pseudomonas putida BM01 and Pseudomonas citronellolis (ATCC 13674) to investigate any structural difference between the two PHA accumulated under a similar culture condition using one-step culture technique. The resulting polymers were isolated by chloroform solvent extraction and characterized by fractional precipitation and differential scanning calorimetry. The solvent fractionation analysis showed that the PHA synthesized by P. putida was separated into two fractions, 3-hydroxy-5-phenylvalerate (3HPV))-rich PHA fraction in the precipitate phase and 3-hydroxyoctanoate (3HO)-rich PHA fraction in the solution phase whereas the PHA produced by P. citronellolis exhibited a rather little compositional separation into the two phases. According to the thermal analysis, the P. putida PHA exhibited two glass transitions indicative of the PHA not being homogeneous whereas the P. citronellolis PHA exhibited only one glass transition. It was found that the structural heterogeneity of the P. putida PHA was caused by a significant difference in the assimilation rate between PV and OA. The structural heterogeneity present in the P. putida PHA was also confirmed by a first order degradation kinetics analysis of the PHA in the cells. The two different first-order degradation rate constants (k₁), 0.087 and 0.015/h for 3HO- and 3HPV-unit, respectively, were observed in a polymer system over the first 20 h of degradation. In the later degradation period, the disappearance rate of 3HO-unit was calculated to be 0.020 h. The k₁ value of 0.083/h, almost the same as for the 3HO-unit in the P. putida PHA, was obtained for the P(3HO) accumulated in P. putida BM01 grown on OA as the only carbon source. In addition, the k₁ value of 0.015/h for the 3HPV-unit in the P. putida PHA, was also close to 0.019/h for the P(3HPV) homopolymer accumulated in P. putida BM01 grown on PV plus butyric acid. On the contrary, the k₁ values for the P. citronellolis PHA were determined to be 0.035 and 0.029/h for 3HO- and 3HPV-unit, respectively, thus these two relatively close values implying a random copolymer nature of the P. citronellolis PHA. In addition, the faster degradation of P(3HO) than P(3HPV) by the intracellular P. putida PHA depolymerase indicates that the enzyme is more specific against the aliphatic PHA than the aromatic PHA.     

铜绿假单胞菌锌离子摄取系统的研究进展

锌作为一种结构、催化和信号的成分,在许多生理过程中起着关键的作用.它也是病原微生物生长所必需的,不但参与病原微生物代谢和各种毒力因子的调控,而且是病原微生物在宿主中感染和定殖所必需的.铜绿假单胞菌侵染宿主发挥毒力时,宿主会采取营养免疫的策略来限制体内环境中游离的锌离子浓度而抑制该病原菌的感染和定殖.反过来,铜绿假单胞菌...     

绿针假单胞菌的研究进展及农业应用潜力

绿针假单胞菌(Pseudomonas chlororaphis)是目前研究较多的生防菌种之一.19世纪初被Miguela首次分离,将其鉴定为假单胞菌(Pseudomonas),并将机会性病原菌绿脓杆菌作为其模式菌株,而后Peix于2007年重新将其分类为绿针假单胞菌(P.chlororaphis).目前该菌种已报道有4...     

Molecular modeling of the bacterial outer membrane receptor energizer, ExbBD/TonB, based on homology with the flagellar motor, MotAB

The MotA/MotB proteins serve as the motor that drives bacterial flagellar rotation in response to the proton motive force (pmf). They have been shown to comprise a transmembrane proton pathway. The ExbB/ExbD/TonB protein complex serves to energize transport of iron siderophores and vitamin B₁₂ across the outer membrane of the Gram-negative bacterial cell using the pmf. These two protein complexes have the same topology and are homologous. Based on molecular data for the MotA/MotB proteins, we propose simple three-dimensional channel structures for both MotA/MotB and ExbB/ExbD/TonB using modeling methods. Features of the derived channels are discussed, and two possible proton transfer pathways for the ExbBD/TonB system are proposed. These analyses provide a guide for molecular studies aimed at elucidating the mechanism by which chemiosmotic energy can be transferred either between two adjacent membranes to energize outer membrane transport or to the bacterial flagellum to generate torque.     

Direct evidence that the proton motive force inhibits membrane translocation of positively charged residues within membrane proteins

The M13 phage procoat protein requires both its signal sequence and its membrane anchor sequence in the mature part of the protein for membrane insertion. Translocation of its short acidic periplasmic loop is stimulated by the proton motive force (pmf) and does not require the Sec components. We now find that the pmf becomes increasingly important for the translocation of negatively charged residues within procoat when the hydrophobicity of the signal or membrane anchor is incrementally reduced. In contrast, we find that the pmf inhibits translocation of the periplasmic loop when it contains one or two positively charged residues. This inhibitory effect of the pmf is stronger when the hydrophobicity of the inserting procoat protein is compromised. No pmf effect is observed for translocation of an uncharged periplasmic loop even when the hydrophobicity is reduced. We also show that the Delta Psi component of the pmf is necessary and sufficient for insertion of representative constructs and that the translocation effects of charged residues are primarily due to the DeltaPsi component of the pmf and not the pH component.     

The generation of metabolic energy by solute transport

Secondary metabolic-energy-generating systems generate a proton motive force (pmf) or a sodium ion motive force (smf) by a process that involves the action of secondary transporters. The (electro)chemical gradient of the solute(s) is converted into the electrochemical gradient of protons or sodium ions. The most straightforward systems are the excretion systems by which a metabolic end product is excreted out of the cell in symport with protons or sodium ions (energy recycling). Similarly, solutes that were accumulated and stored in the cell under conditions of abundant energy supply may be excreted again in symport with protons when conditions become worse (energy storage). In fermentative bacteria, a proton motive force is generated by fermentation of weak acids, such as malate and citrate. The two components of the pmf, the membrane potential and the pH gradient, are generated in separate steps. The weak acid is taken up by a secondary transporter either in exchange with a fermentation product (precursor/product exchange) or by a uniporter mechanism. In both cases, net negative charge is translocated into the cell, thereby generating a membrane potential. Decarboxylation reactions in the metabolic breakdown of the weak acid consume cytoplasmic protons, thereby generating a pH gradient across the membrane. In this review, several examples of these different types of secondary metabolic energy generation will be discussed.     

Algicidal activity of rhamnolipid biosurfactants produced by Pseudomonas aeruginosa

The algicidal activity of the rhamnolipid biosurfactants (the mixture of Rha-Rha-C₁₀-C₁₀ and Rha-C₁₀-C₁₀) produced by Pseudomonas aeruginosa was investigated in the present paper. The results indicated that the biosurfactants had potential algicidal effects on the harmful algal bloom (HAB) species, Heterosigma akashiwo. The growth of H. akashiwo was strongly inhibited in medium containing rhamnolipids (0.4–3.0 mg L⁻¹); moreover, the rhamnolipids showed strong lytic activity toward H. akashiwo at higher concentrations (≥4.0 mg L⁻¹). In addition, the effects of the rhamnolipids on the growth of Gymnodinium sp. and Prorocentrum dentatum, another two kinds of HAB species, were also studied. Compared with the dramatic algicidal effect on H. akashiwo, the cells of P. dentatum were inhibited or lysed at higher concentrations (1.0–10.0 mg L⁻¹), while the cells of Gymnodinium sp. were not suppressed with the same treatment, indicating the rhamnolipids had the potential for the selective control of HABs.Morphometric analysis at ultrastructural level by transmission electron micrographs indicated that the extent of ultrastructural damage of the alga was severe at high concentrations of rhamnolipids and during extended periods of contact. The first response occurred in the plasma membrane which partly disintegrated. The lack of membrane facilitated the rhamnolipid biosurfactants into the cells and allowed damage to other organelles, which resulted in the injury of chloroplast, vacuolization of mitochondria and deformation of the cristae, disruption of nuclear membrane and condensation of chromatin in nucleus, suggesting that the lytic activity of rhamnolipids was mainly due to their powerful surfactivity and their tendency to cohere on the surface of phospholipids bimolecular layer of the cells and further destroyed the layers, and then the structure of quasi-membrane configurations inside the cells was disintegrated, following by the irreversible damage to the ultrastructure and the loss of the function of organelles, consequently leading the cells to lyse.     

荧光假单胞菌ZX对采后锦橙绿霉病的防治及其抑菌机制

【目的】采后柑橘极易受指状青霉(Penicillium digitatum)侵染而发生严重的绿霉病腐烂,生物防治因具有安全、有效、环保等特点近年来备受关注。论文旨在研究荧光假单胞菌(Pseudomonas fluorescens)ZX对采后柑橘绿霉病的防治效果,揭示P.fluorescensZX对P.digitatum可能存在的作用机制。【方法】以"北碚447"锦橙果实为试材,先分别接种20μL拮抗菌培养液、滤液(培养液离心后,上清经0.22μm滤膜过滤)、菌悬液(培养液离心后,菌体用无菌水反复洗涤并用无菌水重悬)和热杀死液(培养液高温高压灭菌),2 h后接种20μL P. digitatum孢子悬浮液(1×10~4spores/m L),所有果实于20oC、90%相对湿度环境下恒温恒湿培养8 d后,测定果实的发病率和病斑直径;制备柑橘皮培养基,进行平板抑菌试验,探索P. fluorescens ZX对P. digitatum孢子发芽情况的影响;采用两板对扣法和生物熏蒸法研究P.fluorescensZX挥发性次级代谢产物的抑菌作用;利用插入式细胞培养皿等分析P.fluorescensZX和P.digitatum之间竞争的营养物质;同时,测定P.fluorescensZX的生长曲线,利用结晶紫染色法评估P. fluorescens ZX的生物膜形成能力。【结果】P. fluorescens ZX不同处理液之间对采后锦橙绿霉病的作用效果差异显著,菌悬液抑菌效果最好,经菌悬液处理的果实,发病率和病斑直径分别仅为40.83%和1.78 cm;不论是在柑橘皮固体培养基上对峙培养还是在液体培养基中混合培养,菌悬液和原液的作用效果较好,固体平板上,相对抑制率达到了35%–45%,液体培养基中,P. digitatum孢子12 h后的发芽率不超过27%;P. fluorescens ZX产生的挥发性物质具有抑菌作用,经P. fluorescensZX熏蒸处理的锦橙果实,发病率和病斑直径都显著降低;营养竞争试验结果表明,P. fluorescens ZX能更快速有效地消耗柑橘皮培养基中的营养,并和P. digitatum竞争葡萄糖、果糖、蔗糖、天冬氨酸、苏氨酸、丝氨酸、亮氨酸、精氨酸和脯氨酸等营养物质;同时,P. fluorescens ZX生命力强,培养4 h后即进入对数生长期,约24 h后形成成熟的生物膜。【结论】P. fluorescens ZX可能通过抑制P. digitatum孢子发芽、营养与空间竞争、形成生物膜、产生抑菌物质等方式抑制P.digitatum的生长繁殖,有效防治采后锦橙绿霉病。     

Degradation of pyrimidine ribonucleosides by Pseudomonas aeruginosa

Pyrimidine ribonucleoside degradation in the human pathogen Pseudomonas aeruginosa ATCC 15692 was investigated. Either uracil, cytosine, 5-methylcytosine, thymine, uridine or cytidine supported P. aeruginosa growth as a nitrogen source when glucose served as the carbon source. Using thin-layer chromatographic analysis, the enzymes nucleoside hydrolase and cytosine deaninase were shown to be active in ATCC 15692. Compared to (NH₄)₂SO₄-grown cells, nucleoside hydrolase activity in ATCC 15692 approximately doubled after growth on 5-methylcytosine as a nitrogen source while its cytosine deaminase activity increased several-fold after growth on the pyrimidine bases and ribonucleosides examined as nitrogen sources. Regulation at the level of protein synthesis by 5-methylcytosine was indicated for nucleoside hydrolase and cytosine deaminase in P. aeruginosa.