Isolation of Pseudomonas aurantiaca strains capable of overproduction of phenazine antibiotics

N-methyl-N'-nitro-N-nitrosoguanidine (NH)-induced mutagenesis with subsequent selection for resistance to toxic amino acid analogues (azaserine, m-fluoro-DL-phenylalanine, and 6-diazo-5-oxo-L-norleucine) was applied to Pseudomonas aurantiaca B-162. The resulting strains produced phenazine antibiotics three times more efficiently than the wild type strain and ten times more efficiently than the known pseudomonad strains. Overproduction of phenazine antibiotics was shown to result either from deregulation of 3-deoxi-D-arabinohepulosonate-7-phosphate synthase (DAHP synthase), the key enzyme of the aromatic pathway (removal of inhibition by phenylalanine, tyrosine, and phenazine), or overproduction of N-hexanoyl homoserine lactone, the regulatory molecule of positive control of cellular metabolism (QS system).     

假单胞菌属双组分信号转导系统调控吩嗪生物合成研究进展

吩嗪是由假单胞菌或链霉菌产生的一类具有抗菌、抗肿瘤和抗寄生虫活性的含氮杂环代谢物,在农业和医疗领域具有广泛的应用.但吩嗪的合成受到复杂的级联网络调控.本文总结了假单胞菌属中双组分信号转导系统(two-component signal transduction system,TCS)对吩嗪生物合成的调控机制,阐明在双组分...     

Isolation of regulatory mutants of Pseudomonas acidovorans by use of amino acid analogs

Mutants resistant to various combinations of threonine, lysine and/or their analogs were obtained and characterized in Pseudomonas acidovorans. In particular, mutants resistant to aminoethylcysteine had a dihydrodipicolinate synthetase insensitive to lysine inhibition whereas mutants resistant to threonine plus a low concentration of aminoethylcysteine had a feedback-insensitive aspartokinase.     

MvaT调控铜绿假单胞菌吩嗪的合成机制

【背景】属于H-NS家族的MvaT转录因子参与了铜绿假单胞菌的许多重要代谢过程,如吩嗪合成代谢,但其调控方式仍不十分明确。【目的】确定转录调控因子MvaT是否直接调控铜绿假单胞菌的吩嗪合成过程,即该蛋白是否可以直接结合2个吩嗪-1-羧酸合成基因簇(phzA1G1和phzA2G2)与3个分支转化基因(phzH、phzS和phzM)的上游启动子区域。【方法】以铜绿假单胞菌SJTD-1和其mvaT基因敲除突变株SJTD-1(ΔmvaT)为研究对象,检测其在不同培养基条件下吩嗪化合物的合成量差异。通过体外异源表达与亲和纯化,获得重组蛋白MvaT。利用凝胶阻滞实验,确定MvaT重组蛋白对5个吩嗪代谢基因簇/基因上游启动子的结合情况。【结果】mvaT基因敲除突变株SJTD-1(ΔmvaT)的吩嗪产量较野生型显著提升。MvaT重组蛋白被有效表达与纯化,体外凝胶阻滞实验结果显示,该重组蛋白可与phzA1G1、phzA2G2、phzM、phzS和phzH的上游启动子区域均发生特异性结合。其中,重组蛋白MvaT与phzA1G1和phzA2G2的结合区域位于其上游启动子的200 bp以内,而该蛋白与phzM、phzS和phzH的结合区域则位于其上游启动子的100 bp以内。【结论】MvaT蛋白通过直接结合吩嗪合成代谢基因的上游启动子区域来直接调控假单胞菌的吩嗪类化合物合成。     

Nah plasmids of the IncP-9 group in natural Pseudomonas strains

Polymerase chain reaction studies showed that naphthalene-utilizing bacteria isolated from various localities of Belarus most often contained Nah plasmids of the P-9 incompatibility group and plasmids of indefinite systematics. The conventional incompatibility test and restriction enzyme analysis revealed three new IncP-9 subgroups: ζ, η, and IncP-9-like. In addition to the known nucleotide sequences of nahG and nahAc, two novel nahG variants were revealed by a restriction enzyme analysis of amplification products. An amplified rDNA restriction enzyme analysis (ARDRA) demonstrated that the native hosts of IncP-9 Nah plasmids were fluorescent bacteria of the genus Pseudomonas (P. fluorescens, P. putida, P. aeruginosa, and Pseudomonas sp.) and nonfluorescent bacteria of indefinite systematics.     

Transformations of six isomers of dimethylbenzothiophene by three Pseudomonas strains

Dimethylbenzothiophenes are among the sulfur heterocycles in petroleum that are known to be degraded by microbial activity. Six of the 15 possible isomers of dimethylbenzothiophene were synthesized and used in biotransformation studies with three Pseudomonas isolates that oxidize a variety of condensed thiophenes including methylbenzothiophenes and methyldibenzothiophenes. The isomers of dimethylbenzothiophene were chosen to have a variety of substitution patterns: both methyl groups on the thiophene ring (the 2,3- isomer); a methyl group on each of the rings (the 2,7-, 3,5- and 3,7-isomers); and both methyl groups on the benzene ring (the 4,6- and 4,7- isomers). Each isolate was grown on 1-methylnaphthalene or glucose in the presence of one of the dimethylbenzothiophenes and culture extracts were analyzed to identify nearly 30 sulfur-containing metabolites in total. Sulfoxides and sulfones were commonly found metabolites in culture extracts from the 2,3-, 2,7- and 3,7-isomers, whereas 2,3-diones, 3(2H)-ones and 2(3H)-ones were formed from the 4,6- and 4,7-isomers. High-molecular-weight products, some of which were tentatively identified as tetramethylbenzo[b]naphtho[1,2-d]thiophenes, were detected in the extracts of cultures incubated with 4,6- or 4,7-dimethylbenzothiophene. The methyl groups of all of the isomers, except 4,6-, were oxidized to give hydroxymethyl-methylbenzothiophenes and methylbenzothiophene-carboxylic acids, and these were the only products detected from the oxidation of 3,5-dimethylbenzothiophene.     

Dioxygenase activity and relative behaviour of Pseudomonas strains from soil in the presence of different aromatic compounds

Ten different Pseudomonas strains isolated from contaminated soils were tested for expression of active dioxygenases. Of these, two different clusters, related to strain origin were observed. The first included two P. fluorescens strains and two P. aeruginosa strains isolated from soils polluted with polyaromatic hydrocarbons and the second two P. cepacia strains and four P. chlororaphis strains from soils with polyphenols. All the isolates showed catechol 1,2-dioxygenase basal activity, while other dioxygenases (catechol 2,3-dioxygenase, protocatechuate 2,3-, 3,4- and 4,5-dioxygenases) were detected only after growth in the presence of suitable inducers (benzoate, catechol, salicylate, phenol). Significant induction of catechol 1,2-dioxygenase, the major activity of the tested strains, was also observed when combining starvation with the presence of high molecular weight aromatic hydrocarbons with recalcitrant structures (fluoranthene, chrysene, benzanthracene, pyrene).     

Effects of antibiotics in soil on the population dynamics of transposon Tn5 carrying Pseudomonas fluorescens

The effects of kanamycin and streptomycin added to soil on the survival of transposon Tn5 modified Pseudomonas fluorescens strain R2f were investigated. Kanamycin in high (180 g g^-1 dry soil) or low (18 g g^-1) concentration or streptomycin in low concentration in Ede loamy sand soil had no noticeable effect on inoculant population dynamics in soil and wheat rhizosphere, whereas streptomycin in high concentration had a consistent significant stimulatory effect, in particular in the wheat rhizosphere. Streptomycin exerted its effect by selecting P. fluorescens with Tn5 insertion whilst suppressing the unmodified sensitive parent strain, as evidenced by comparing the behaviour of these two strains in separate and mixed inoculation studies.Soil textural type influenced the effect of streptomycin on the Tn5 carrying inoculant; the effect was consistently detected in rhizosphere and rhizoplane samples of wheat grown in Ede loamy sand after 7 and 14 days incubation, whereas it was only apparent after 7 days in rhizoplane or rhizosphere (and bulk soil) samples of wheat grown in two silt loam soils. Modification of soil pH by the addition of CaCO₃ or bentonite clay resulted in an enhancement of the selective effect of streptomycin by CaCO₃ and its abolishment by bentonite clay.The addition to soil of malic acid or wheat root exudate, but not of glucose, enhanced the streptomycin selective effect on the Tn5-modified P. fluorescens strain. Neither the streptomycin producer Streptomyces griseus nor two non-inhibiting mutants obtained following UV irradiation affected the dynamics of P. fluorescens (chr::Tn5) in soil and wheat rhizosphere.The effect of streptomycin in soil on inoculant Tn5 carrying bacteria depends on conditions such as soil type, the presence of (wheat) root exudates and the type of available substrate.     

Copper biosorption by Pseudomonas cepacia and other strains

Biosorption of copper by Pseudomonas cepacia was found to be dependent on added copper concentration. Copper uptake by the cells was rapid over the range of copper concentrations tested and complete within the first 10 min of incubation time. The effect of pH on copper uptake by P. cepacia was determined using overlapping buffers over the pH range 3–8, and copper biosorption from a 10 mM copper solution was greatest at pH 7. Copper uptake (measured by analysis of cell digests) was unaffected by cyanide and azide (up to 30 mM) and by incubation of cells with a 10 mM copper solution at 4 °C. Evidence from these results suggested that copper uptake by P. cepacia cells involves surface binding and not intracellular accumulation by active transport. Biosorption of copper by various Pseudomonas isolates from metal-contaminated environments agreed well with copper biosorption by Pseudomonas strains from the National Collection of Type Cultures (NCTC).     

Ornibactin production and transport properties in strains of Burkholderia vietnamiensis and Burkholderia cepacia (formerly Pseudomonas cepacia)

Several strains of Burkholderia vietnamiensis, isolated from the rhizosphere of rice plants, and four strains formerly known as Pseudomonas cepacia including two collection strains and two clinical isolates were compared for siderophore production and iron uptake. The B. vietnamiensis (TVV strains) as well as the B. cepacia strains (ATCC 25416 and ATCC 17759) and the clinical isolates K132 and LMG 6999 were all found to produce ornibactins under iron starvation. The two ATCC strains of B. cepacia additionally produced the previously described siderophores, pyochelin and cepabactin. Analysis of the ratio of isolated ornibactins (C4, C6 and C8) by HPLC revealed nearly identical profiles. Supplementation of the production medium with ornithine (20 mm) resulted in a 2.5-fold increase in ornibactin synthesis. Ornibactin-mediated iron uptake was independent of the length of the acyl side chain and was observed with all strains of B. vietnamiensis and B. cepacia, but was absent with strains of Pseudomonas aeruginosa, Pseudomonas fluorescens and Pseudomonas stutzeri, known to produce pyoverdines or desferriferrioxamines as siderophores. These results suggest that ornibactin production is a common feature of all Burkholderia strains and that these strains develop an ornibactin-specific iron transport system which is distinct from the pyoverdine-specific transport in Pseudomonas strains.     

The effect of transposons on the expression of the naphthalene biodegradation genes in Pseudomonas putida BS202(NPL-1) and derivative strains

NPL-1 and its derivative plasmid pBS106, which control the degradation of naphthalene and salicylate, were found to contain class II transposons of the Tn3 family. These transposons are involved in intraplasmid rearrangements, such as deletions and inversions, and can influence the expression of the catabolic and regulatory genes borne by biodegradation plasmids. The formation of a strong NahR-independent constitutive promoter by the inversion of a DNA fragment may be responsible for changing the character of naphthalene dioxygenase synthesis from inducible (in the case of plasmid NPL-1) to constitutive (in the case of plasmid NPL-41). The stability of plasmids NPL-1 and NPL-41 in Pseudomonas putida strains grown on different substrates depends on the expression of the nah and tnp genes.Translated from Mikrobiologiya, Vol. 74, No. 1, 2005, pp. 79–86.Original Russian Text Copyright © 2005 by Sokolov, Kosheleva, Filonov, Boronin.     

Metabolism of benzalphthalide by Pseudomonas sp.

A Pseudomonas sp. degraded benzalphthalide to o-phthalate and benzoate. A tentative pathway for the metabolism of benzalphthalide in this Pseudomonas sp. is proposed on the basis of isolated metabolites, oxygraphic assay and enzymatic studies.     

Identification of NRRL strain B-18602 (PR3) as Pseudomonas aeruginosa and effect of phenazine 1-carboxylic acid formation on 7,10-dihydroxy-8(E)-octadecenoic acid accumulation

A new compound, 7,10-dihydroxy-8(E)-octadecenoic acid (DOD), produced from oleic acid by a new bacterial isolate PR3, was discovered in 1991. We have now identified isolate PR3 as a strain of Pseudomonas aeruginosa by DNA reassociation studies. Strain PR3 also produced a crystalline yellowish compound the structure of which, as determined by GC/MS and NMR, is phenazine 1-carboxylic acid (PCA). In cultures of PR3, high PCA production was associated with low DOD accumulation.The mention of firm names or trade products does not imply that they are endorsed or recommended by the US Department of Agriculture over other firms or similar products not mentioned.     

2,5-Diketo- D-gluconate production by a mixed culture of two newly-isolated strains: Flavimonas oryzihabitans and Pseudomonas cepacia

A mixed culture of two Gram-negative bacteria isolated from soil converted 50 g d-glucose l^–1 to 2,5-diketo-d-gluconate (2,5 DKG) in 92% yield within 150 h. The first strain, producing 2-keto-d-gluconate (2 KDG) from d-glucose via d-gluconate (DG), was classified as Flavimonas oryzihabitans. The second strain, that converts 2 KDG to 2,5 DKG, was identified as Pseudomonas cepacia. This approach presents a new possibility to produce ascorbic acid by microbial transformation, including the use of other, more convenient substrates.     

Chromosome-encoded inducible copper resistance inPseudomonas strains

NinePseudomonas strains were selected by their high copper tolerance from a population of bacteria isolated from heavy-metal polluted zones. Copper resistance (Cu ^r ) was inducible by previous exposure of cultures to subinhibitory amounts of copper sulfate. All nine strains possessed large plasmids, but transformation and curing results suggest that Cu ^r is conferred by chromosomal genes. Plasmid-lessPseudomonas aeruginosa PAO-derived strains showed the same level of Cu ^r as environmental isolates and their resistance to copper was also inducible. Total DNA from the environmentalPseudomonas, as well as fromP. aeruginosa PAO strains, showed homology to a Cu ^r P. syringae cop probe at low-stringency conditions but failed to hybridize at high-stringency conditions.     

A novel EDTA-degrading Pseudomonas sp.

A bacterial strain LPM-410 capable of utilizing ethylenediaminetetraacetate (EDTA) as the sole source of energy, carbon, and nitrogen was isolated from sewage sludge and identified as a Pseudomonas sp. on the basis of its phenotypic characteristics. Suspensions of exponential-phase cells degraded EDTA, Mg–, Ca–, Ba–, and Mn–EDTA at constant specific rates ranging from 0.363 to 0.525 mmol EDTA/(g cells h). The more stable chelate, Zn–EDTA, was degraded at a lower rate (0.195 ± 0.030 mmol EDTA/(g cells h)), and here was no degradation of Co–, Cu–, Pb–, and Fe(III)–EDTA.     

l-Lysine-2-monooxygenase production by strains of Pseudomonas fluorescens and P. putida

Twelve strains of Pseudomonas fluorescens and P. putida were grown in a synthetic medium that contained l-lysine as the only source of carbon and nitrogen, and screened for l-lysine-2-monooxygenase production. Best production was by P. putida BKM B-1458 at 30 IU/g wet wt biomass when grown in a shake-flask but 25 IU/g in a 250-l fermenter.     

Rhizosphere strain of <Emphasis Type="Italic">Pseudomonas chlororaphis</Emphasis> capable of degrading naphthalene in the presence of cobalt/nickel

Combination of genetic systems of degradation of polyaromatic hydrocarbons, resistance to heavy metals, and promotion of plant growth/protection is one of the approaches to the creation of polyfunctional strains for phytoremediation of soils after co-contamination with organic pollutants and heavy metals. A plant-growth-promoting rhizosphere strain Pseudomonas chlororaphis PCL1391 (pBS216^*, pBS501) has been obtained, in which the nah operon of plasmid pBS216 provides naphthalene biodegradation and the cnr-like operon of plasmid pBS501 provides resistance to cobalt and nickel due to the extrusion of heavy metal cations from the cells. In the presence of 100 μM of nickel, the viability, growth rate, and naphthalene biodegradation efficiency of the resistant strain PCL1391 (pBS216^*, pBS501) were much higher as compared with the sensitive PCL1391 (pBS216). During the growth of the resistant strain, in contrast to the sensitive strain, nickel (100 μM) had no inhibiting effect on the activity of the key enzymes of naphthalene biodegradation. Original Russian Text ? T.V. Siunova, T.O. Anokhina, A.V. Mashukova, V.V. Kochetkov, A.M. Boronin, 2007, published in Mikrobiologiya, 2007, Vol. 76, No. 2, pp. 212–218.     

Protoplast production fromPorphyra linearis using a simplified agarase procedure capable of commercial application

Abalone enzymes, Cellulase R-10, Macerozyme and agarase fromPseudomonas atlantica were tested for activity on agarose, cellulose, xylan, the cell wall matrix and porphyran isolated fromPorphyra linearis. Agarase, and to a lesser extent Macerozyme, digested both agarose and porphyran. Abalone enzymes and Cellulase R-10 reacted only weakly with porphyran. A simple standardized protocol for making protoplasts fromPorphyra linearis was developed using 0.025% agarase in seawater without added organic osmoticants. Protoplasts prepared with agarase remained viable for at least 24 h in the digestion medium. Regeneration of the protoplasts followed the normal pattern for this species. Agarase can be used to obtain large number of protoplasts which could substitute for conchospores in seeding nets for the aquaculture ofP. linearis Author for correspondenceIssued as NRCC no. 34897     

Heterologous expression and regulation of the lysA genes of Pseudomonas aeruginosa and Escherichia coli

Summary Chlorsulfuron-resistant mutants of Arabidopsis thaliana were isolated by screening for growth of seedlings in the presence of the herbicide. Both whole plants and derived tissue cultures were resistant to concentrations of the herbicide approximately 300-fold higher than that required to prevent growth of the wild-type. The resistance is due to a single dominant nuclear mutation at a locus designated csr which has been genetically mapped to chromosome-3. Acetohydroxy acid synthase activity in extracts from chlorsulfuron-resistant plants was much less-susceptible to inhibition by chlorsulfuron and a structurally related inhibitor than the activity in wild-type extracts. This suggests that the csr locus is the structural gene for acetohydroxy acid synthase.