假单胞菌荧光与非荧光铁载体对铁离子的应答差异

假单胞菌既能产荧光铁载体也能产非荧光铁载体.通过对假单胞菌在不同铁离子浓度下,在通用CAS(Chrome azroul S)检测平板、改进的蔗糖-天冬氨酸(SA)平板(MSA)上以及通用液体CAS培养基和MSA培养基内的铁载体产生情况的比较,发现在通用CAS的液体培养基上产生的主要为非荧光铁载体(pyochelin),而在改进的MSA培养基上产生的主要为荧光铁载体(pyoverdine);在铁离子的应答方面,pyoverdine较pyochelin灵敏,较低的铁离子浓度即可抑制荧光铁载体的产生,但是不能抑制非荧光铁载体.     

高灵敏假单胞菌铁载体的平板检测方法*

CAS蓝色检测平板是一种筛选、检测各类细菌铁载体的常用方法,而蔗糖-天冬酰氨培养基被用于假单胞菌产铁载体规律的研究。用天冬氨酸替代天冬酰氨,将CAS蓝色检测液与蔗糖-天冬氨酸培养基(MSA培养基)相结合,得到一种改进的MSA-CAS检测平板。通过对假单胞菌属7个种8个株进行荧光与非荧光铁载体检测方面的比较研究,结果表明MSA-CAS检测平板假单胞菌铁载体的检测灵敏度比通用CAS检测平板高,而且在检测荧光铁载体方面具有荧光背景低、荧光铁载体晕圈明显和晕圈与背景的对比度大的优点。     

高灵敏假单胞菌铁载体的平板检测方法

CAS蓝色检测平板是一种筛选、检测各类细菌铁载体的常用方法,而蔗糖-天冬酰氨培养基被用于假单胞菌产铁载体规律的研究。用天冬氨酸替代天冬酰氨,将CAS蓝色检测液与蔗糖-天冬氨酸培养基（MSA培养基）相结合,得到一种改进的MSA-CAS检测平板。通过对假单胞菌属7个种8个株进行荧光与非荧光铁载体检测方面的比较研究,结果表明MSA-CAS检测平板假单胞菌铁载体的检测灵敏度比通用CAS检测平板高,而且在检测荧光铁载体方面具有荧光背景低、荧光铁载体晕圈明显和晕圈与背景的对比度大的优点。     

油松菌根促生细菌——荧光假单胞菌的分离与鉴定

为了探讨菌根促生细菌荧光假单胞菌(Pseudomonas fluorescens)与菌根真菌的互作关系,本实验从油松菌根上分离得到36株在紫外灯下产荧光的细菌菌株,以荧光假单胞菌9702作为标准菌株,对分离菌株进行显微观察、生物学鉴定和16S rDNA序列分析,结果确定HDY-8、HDY-9、HDY-20、HDY-35共 4株菌株为荧光假单胞菌,并分别命名为P.fluorescens HDY-8、P.fluorescens HDY-9、P.fluorescens HDY-20、P.fluorescens HDY-35.用这4株细菌菌株分别与外生菌根真菌(ECMF)粘盖牛肝菌(Suillus bovinus)、褐环粘盖牛肝菌(Suillus luteus)和褐黄牛肝菌(Boletus luridus)进行纯培养互作研究.结果表明,只有P.fluorescens HDY-20对3种外生菌根真菌有不同程度的促生作用,并对S.luteus促进效果最好,S.bovinus次之,B.luridus最差;P.fluorescens HDY-20促进S.bovinus、S.luteus和B.luridus菌丝生长的最佳浓度分别为2.4×109 cfu/mL、0.8×109～2.4×109 cfu/mL和0.8×109 cfu/mL,与对照相比S.bovinus和S.luteus的生物量达到极显著差异(P<0.01),B.luridus的达到显著差异(P<0.05),且分别比对照增加6.5%、9.1%和4.3%.     

高产铁载体荧光假单胞菌Pseudomonas fluorescens sp-f的筛选鉴定及其铁载体特性研究

采用改进的CAS检测平板从东湖中筛选得到了一株高产铁载体细菌sp-f,并用CAS检测液定量检测其分泌铁载体量,发现其As/Ar仅0.09(OD680),Su(Siderophore Unit)为90%,达到产铁载体菌最高级。用BIOLOG检测板,结合细菌生理生化反应、形态观察和16S rDNA序列比对分析等分类鉴定方法,确定sp-f为一株荧光假单胞菌。P.fluorescenssp-f生长过程中胞外铁载体的量在对数生长前期累积达到最高后有所减少,至稳定期时菌液中铁载体量达到稳定。在已知铁载体特异吸收峰波长下,用反向高效液相色谱检测无铁环境和高铁环境下培养液上清,比较发现sp-f上清含有3种含儿茶酚胺类基团铁载体,其中包括荧光和非荧光性的脓菌素,200μmol/L Fe2 可完全抑制荧光性质脓菌素的分泌,但非荧光脓菌素的分泌不受抑制,并且对非脓菌素的儿茶酚胺类铁载体的合成分泌反而具有一定的诱导作用。     

假单胞菌铁载体及色素研究

假单胞菌分布广泛,种类繁多,能够产生多种结构的铁载体及具有特定颜色的色素化合物,这使假单胞菌在生物病害防治、医学研究等领域应用潜力巨大.假单胞菌铁载体具有菌种和菌株特异性,可在一定程度上作为其分类依据.假单胞菌色素具有色调、结构、功能多样性,与其铁载体在功能上具有一定重叠性.假单胞菌铁载体及色素分离纯化方法相对比较简单,但它们的生物合成及转运代谢机制非常复杂.     

高产铁载体荧光假单胞菌Pseudomonas fluorescens sp-f的筛选鉴定及其铁载体特性研究

采用改进的CAS检测平板从东湖中筛选得到了一株高产铁载体细菌sp-f,并用CAS检测液定量检测其分泌铁载体量,发现其As/Ar仅0.09(OD680),Su（Siderophore Unit）为90％,达到产铁载体菌最高级。用BIOLOG检测板,结合细菌生理生化反应、形态观察和16S rDNA序列比对分析等分类鉴定方法,确定sp-f为一株荧光假单胞菌。P. fluorescens sp-f生长过程中胞外铁载体的量在对数生长前期累积达到最高后有所减少,至稳定期时菌液中铁载体量达到稳定。在已知铁载体特异吸收峰波长下,用反向高效液相色谱检测无铁环境和高铁环境下培养液上清,比较发现sp-f上清含有3种含儿茶酚胺类基团铁载体,其中包括荧光和非荧光性的脓菌素,200 μmol/L Fe²⁺可完全抑制荧光性质脓菌素的分泌,但非荧光脓菌素的分泌不受抑制,并且对非脓菌素的儿茶酚胺类铁载体的合成分泌反而具有一定的诱导作用。     

荧光假单胞菌抗生性代谢产物合成相关基因的研究现状

荧光假单胞菌(Pseudomonas fluorescens)是一种重要的植物根际促生菌,它能够产生藤黄绿脓菌素、2,4-二乙酰基藤黄酚、硝吡咯菌素、吩嗪-1-羧酸等抗生性次级代谢产物,可抑制多种病原物,在农作物土传病害的生物防治研究中具有重要意义.总结了荧光假单胞菌中已确立的抗生性次级代谢产物的合成机制,重点阐述了相关基因的结构、功能,以及利用生物工程技术对荧光假单胞菌进行遗传操作的最新进展,同时对荧光假单胞菌在生物防治中的应用和其作为生防菌剂的前景进行了展望.     

荧光假单胞菌防治果蔬病害的研究进展

病原微生物侵染引起的果蔬病害日趋严重,现阶段果蔬病害的防治措施主要依赖化学防治,但长期大量施用合成农药的弊端如化学残留、环境污染、抗药性病原菌株出现等日益凸显。近年来,生物防治由于其安全性及高效、经济、环保等优点,成为研究热点。荧光假单胞菌(Pseudomonas fluorescens)分布广泛,施用方便,许多菌株能有效抑制多种病原微生物,成为最具应用价值的一类生防菌和根际促生菌。本文综述了荧光假单胞菌控制果蔬病害的生防效果、主要作用机制(直接寄生作用、营养物质和空间位点竞争、次生抗性代谢物、诱导宿主系统抗性)以及菌剂混配、物理方法、化学处理、分子技术在提高荧光假单胞菌生防效力等方面的研究进展,为荧光假单胞菌在生物防治领域的进一步开发利用提供一定的基础资料。     

壳聚糖对带鱼冷藏期间微生物多样性的影响研究

本文研究了壳聚糖对冷藏(4±1℃)带鱼贮藏期间微生物多样性的影响,分别选取0、2、4、6、8、10、12 d,以感官评分、pH值、菌落总数为测定指标,同时进行微生物分离纯化,提取细菌DNA与PCR扩增,将扩增产物测序。结果表明,10.0 g/L的壳聚糖溶液能明显延缓带鱼鲜度下降,抑制细菌增长,冷藏货架期较对照组延长了4~5 d。对照组样品在腐败末期(10 d)的菌相组成是:草莓假单胞菌(Pseudomonas fragi)(29.5%),荧光假单胞菌(Pseudomonas fluorescens)(33.4%),腐败希瓦氏菌(Shewanella putrefaciens)(32.0%),松鼠葡萄球菌(Staphylococcus sciuri)(5.1%);处理组(12 d)有:草莓假单胞菌(Pseudomonas fragi)(38.2%),荧光假单胞菌(Pseudomonas fluorescens)(30.1%),腐败希瓦氏菌(Shewanella putrefaciens)(29.0%),热死环丝菌(Brochothrix thermosphacta)(2.7%)。经壳聚糖处理后的带鱼样品,在其贮藏期间,使腐生葡萄球菌(Staphylococcus saprophyticus),松鼠葡萄球菌(Staphylococcus sciuri)与嗜冷杆菌(Psychrobacter spp.)的生长受到抑制。草莓假单胞菌(Pseudomonas fragi)、荧光假单胞菌(Pseudomonas fluorescens)与腐败希瓦氏菌(Shewanella putrefaciens)为优势腐败菌。     

The Fe Chelator Proferrorosamine A Is Essential for the Siderophore-Mediated Uptake of Iron by Pseudomonas roseus fluorescens

Pseudomonas roseus fluorescens produces, besides the Fe chelator proferrorosamine A, Fe -chelating compounds, called siderophores. The production of proferrorosamine A and siderophores by P. roseus fluorescens appears to be controlled in a similar way by the concentration of available iron and by the concentration of dissolved oxygen. The higher the concentration of iron available for the microorganism, the lower the production of both chelating compounds. However, the production of siderophores was much more sensitive to iron availability than was proferrorosamine A production. Proferrorosamine A and siderophores were only produced in minimal medium C if the concentration of dissolved oxygen ranged from 4.5 to 2.0 ppm. At higher or lower concentrations, none of the iron-chelating compounds were produced. Furthermore, it has been shown that proferrorosamine-negative Tn5 mutants of P. roseus fluorescens were able to form siderophores only under iron-limiting conditions when proferrorosamine A was added to the medium. Our data suggest that proferrorosamine A production is essential for siderophore synthesis by P. roseus fluorescens; the production of siderophores occurred only when proferrorosamine A was present.     

Monoclonal Antibodies to Ferric Pseudobactin, the Siderophore of Plant Growth-Promoting Pseudomonas putida B10

Monoclonal antibodies to ferric pseudobactin, the siderophore (microbial iron transport agent) of plant growth-promoting Pseudomonas putida B10, have been developed. Three immunoglobulin G subclass 1-type monoclonal antibodies have been characterized. Each antibody appears to be unique on the basis of their reactions with ferric pseudobactin and with culture supernatants from other pseudomonads. None of the three cross-reacts with ferric pseudobactin-type siderophores produced by seven other pseudomonads. However, P. aeruginosa ATCC 15692 and P. fluorescens ATCC 17400 produced relatively high-molecular-mass compounds (mass greater than approximately 30,000 daltons) that did react with the antibodies. The compound from P. aeruginosa was not iron regulated, while the compound from P. fluorescens was produced only under iron-limiting conditions. A competitive assay using these antibodies has a detection limit of 5 x 10 mol of ferric pseudobactin. This is, to our knowledge, the first report of monoclonal antibodies reactive with siderophores.     

Involvement of secondary metabolites and extracellular lytic enzymes produced by Pseudomonas fluorescens in inhibition of Rhizoctonia solani, the rice sheath blight pathogen

Fourteen strains of Pseudomonas fluorescens isolated from rhizosphere soil of rice were tested for their antagonistic effect towards Rhizoctonia solani, the rice sheath blight fungus. Among them, PfMDU2 was the most effective in inhibiting mycelial growth of R. solani in vitro. Production of chitinase, beta-1,3-glucanase, siderophores, salicylic acid (SA) and hydrogen cyanide (HCN) by P. fluorescens strains was evaluated. The highest beta-1,3-glucanase activity, siderophore production, SA production and HCN production were recorded with PfMDU2. A significant relationship between the antagonistic potential of P. fluorescens against R. solani and its level of beta-1,3-glucanase, SA and HCN was observed.     

Complete genome sequence of the plant commensal Pseudomonas fluorescens Pf-5

Pseudomonas fluorescens Pf-5 is a plant commensal bacterium that inhabits the rhizosphere and produces secondary metabolites that suppress soilborne plant pathogens. The complete sequence of the 7.1-Mb Pf-5 genome was determined. We analyzed repeat sequences to identify genomic islands that, together with other approaches, suggested P. fluorescens Pf-5's recent lateral acquisitions include six secondary metabolite gene clusters, seven phage regions and a mobile genomic island. We identified various features that contribute to its commensal lifestyle on plants, including broad catabolic and transport capabilities for utilizing plant-derived compounds, the apparent ability to use a diversity of iron siderophores, detoxification systems to protect from oxidative stress, and the lack of a type III secretion system and toxins found in related pathogens. In addition to six known secondary metabolites produced by P. fluorescens Pf-5, three novel secondary metabolite biosynthesis gene clusters were also identified that may contribute to the biocontrol properties of P. fluorescens Pf-5.     

Effect of Ferric Iron on Siderophore Production and Pyrene Degradation by Pseudomonas fluorescens 29L

The effect of ferric iron [Fe(III)] on pyrene degradation and siderophore production was studied in Pseudomonas fluorescens 29L. In the presence of 0.5 muM of Fe(III) and 50 mg of pyrene per liter of medium as a carbon source, 2.2 mg of pyrene was degraded per liter of medium per day and 25.3 muM of 2,3-DHBA (2,3-dihydroxybenzoic acid) equivalent of siderophores was produced per day. However, the pyrene degradation rate was 1.3 times higher and no siderophores were produced with the addition of 1 muM of Fe(III). Similar trends were seen with 50 mg of succinate per liter of medium as a carbon source, although the growth of strain 29L and the succinate degradation rate were higher. In the absence of siderophore production, pyrene and succinate continued to be biodegraded. This indicates that Fe(III) and not siderophore production affects the hydrocarbon degradation rate. Only 18% of strain 29L mutants capable of growth on pyrene produced siderophores, while among the mutants capable of growth on succinate, only 10% produced siderophores. This indicates that siderophores are not required for pyrene biodegradation. Fe(III) enhances pyrene degradation in Pseudomonas fluorescens 29L but it may be utilized by mechanisms other than siderophores.     

Spectrophotometric ferric ion biosensor from Pseudomonas fluorescens culture

Pseudomonas fluorescens cultures produce fluorescent siderophores. By utilizing optimal conditions for maximizing siderophore production in shake flask cultures of P. fluorescens, we report successful characterization of the culture broth supernatant as a robust ferric ions biosensor. For characterizing the ferric ions biosensor, we tested the effects of pH, buffers, different ferric salts and possible interference by ferrous ions under different solution conditions. We find that the biosensor is very specific to ferric ions only with sensitivity to concentrations as low as 10 microM. Further, the response time of the biosensor is the shortest (approximately 5 min or smaller) for citrate as the accompanying anion with ferric ions. While the response time is longer than that expected of normal biosensors, it is well compensated by the simplicity and economics of the biosensor production. Extremely low standard deviations in several experimental repeats also highlight the robustness of the ferric ions biosensor. Most importantly, the biosensor is extremely easy to use due to its straightforward spectrophotometric applications. We also show the utility of the biosensor with the high resolution technique of fluorescence microscopy. Finally, we report a novel mechanistic finding that siderophores present in the culture broth supernatants have two distinct optically active sites on them, which can be monitored independently in presence or absence of ferric ions.     

Early responses of tobacco suspension cells to rhizobacterial elicitors of induced systemic resistance

Colonization of roots by selected strains of fluorescent Pseudomonas spp. can trigger induced systemic resistance (ISR) against foliar pathogens in a plant species-specific manner. It has been suggested that early responses in cell suspension cultures in response to rhizobacterial elicitors, such as generation of active oxygen species (AOS) and extracellular medium alkalinization (MA), are linked to the development of ISR in whole plants. Perception of flagellin was demonstrated to elicit ISR in Arabidopsis, and bacterial lipopolysaccharides (LPS) have been shown to elicit several defense responses and to act as bacterial determinants of ISR in various plant species. In the present study, the LPS-containing cell walls, the pyoverdine siderophores, and the flagella of Pseudomonas putida WCS358, P. fluorescens WCS374, and P. fluorescens WCS417, which are all known to act as elicitors of ISR in selected plant species, were tested for their effects on the production of AOS, MA, elevation of cytoplasmic Ca(2+) ([Ca(2+)](cyt)), and defense-related gene expression in tobacco suspension cells. The LPS of all three strains, the siderophore of WCS374, and the flagella of WCS358 induced a single, transient, early burst of AOS, whereas the siderophores of WCS358 and WCS417 and the flagella of WCS374 and WCS417 did not. None of the compounds caused cell death. Once stimulated by the active compounds, the cells became refractory to further stimulation by any of the active elicitors, but not to the elicitor cryptogein from the oomycete Phytophthora cryptogea, indicating that signaling upon perception of the different rhizobacterial compounds rapidly converges into a common response pathway. Of all compounds tested, only the siderophores of WCS358 and WCS417 did not induce MA; the flagella of WCS374 and WCS417, although not active as elicitors of AOS, did induce MA. These results were corroborated by using preparations from relevant bacterial mutants. The active rhizobacterial elicitors led to a rapid increase in [Ca(2+)](cyt), peaking at 6 min, whereas the inactive siderophores of WCS358 and WCS417 elicited a single spike at 1 min. Elicitation of the cells by cell-wall LPS of WCS358 or the siderophore of WCS374 induced a weak, transient expression of several defense-related genes, including PAL and GST. The spectrum of early responses of the suspension cells was not matched by the expression of ISR in whole tobacco plants against Erwinia carotovora pv. carotovora. Of the live bacterial strains, only WCS358 elicited significant ISR, but application of the LPS or the siderophore of all three strains also elicited ISR. Notably, the absence of elicitation of AOS and MA in suspension-cultured cells but induction of ISR in whole plants by the siderophore of WCS358, which was lost upon treatment with the siderophore-minus mutant of WCS358, indicates that the early responses in suspension cells are not predictive of the ability to induce ISR in whole plants. Possible explanations for these discrepancies are discussed.     

Affinity purification of a siderophore that exhibits an antagonistic effect against soft rot bacterium

Bacterial colonies were isolated from different Egyptian soil samples. From these isolates, one bacterial species was found to produce siderophore. Using classical and biochemical identification methods, the siderophore producing isolate was identified as Pseudomonas fluorescens. Based on the affinity of siderophores for metal ions, an affinity chromatography system was designed for the purification of the siderophore in one step. It was possible to isolate 25 mg siderophore per liter of culture media. The purified siderophore was found to exist in two forms of approximately 30 and 90 kD. They are believed to be polymers of several siderophore molecules. Both forms were found to be active against the pathogen Erwinia carotovora var. carotovora, the causal bacteria of soft rot disease on potato tubers. The advantage of this method over other purification methods is that it uses metal ion so it can be applied for the purification of the known types of siderophores. Moreover, the purification is based on affinity chromatography, so the siderophore purity state permits several biotechnological applications without further treatments.