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11.
12.
Autoinduction of 2,4-diacetylphloroglucinol biosynthesis in the biocontrol agent Pseudomonas fluorescens CHA0 and repression by the bacterial metabolites salicylate and pyoluteorin 下载免费PDF全文
13.
Characterization of the hcnABC Gene Cluster Encoding Hydrogen Cyanide Synthase and Anaerobic Regulation by ANR in the Strictly Aerobic Biocontrol Agent Pseudomonas fluorescens CHA0 总被引:1,自引:0,他引:1 下载免费PDF全文
Jacques Laville Caroline Blumer Christine Von Schroetter Valeria Gaia Genevive Dfago Christoph Keel Dieter Haas 《Journal of bacteriology》1998,180(12):3187-3196
The secondary metabolite hydrogen cyanide (HCN) is produced by Pseudomonas fluorescens from glycine, essentially under microaerophilic conditions. The genetic basis of HCN synthesis in P. fluorescens CHA0 was investigated. The contiguous structural genes hcnABC encoding HCN synthase were expressed from the T7 promoter in Escherichia coli, resulting in HCN production in this bacterium. Analysis of the nucleotide sequence of the hcnABC genes showed that each HCN synthase subunit was similar to known enzymes involved in hydrogen transfer, i.e., to formate dehydrogenase (for HcnA) or amino acid oxidases (for HcnB and HcnC). These similarities and the presence of flavin adenine dinucleotide- or NAD(P)-binding motifs in HcnB and HcnC suggest that HCN synthase may act as a dehydrogenase in the reaction leading from glycine to HCN and CO2. The hcnA promoter was mapped by primer extension; the −40 sequence (TTGGC….ATCAA) resembled the consensus FNR (fumarate and nitrate reductase regulator) binding sequence (TTGAT….ATCAA). The gene encoding the FNR-like protein ANR (anaerobic regulator) was cloned from P. fluorescens CHA0 and sequenced. ANR of strain CHA0 was most similar to ANR of P. aeruginosa and CydR of Azotobacter vinelandii. An anr mutant of P. fluorescens (CHA21) produced little HCN and was unable to express an hcnA-lacZ translational fusion, whereas in wild-type strain CHA0, microaerophilic conditions strongly favored the expression of the hcnA-lacZ fusion. Mutant CHA21 as well as an hcn deletion mutant were impaired in their capacity to suppress black root rot of tobacco, a disease caused by Thielaviopsis basicola, under gnotobiotic conditions. This effect was most pronounced in water-saturated artificial soil, where the anr mutant had lost about 30% of disease suppression ability, compared with wild-type strain CHA0. These results show that the anaerobic regulator ANR is required for cyanide synthesis in the strictly aerobic strain CHA0 and suggest that ANR-mediated cyanogenesis contributes to the suppression of black root rot. 相似文献
14.
Isabelle Vallet-Gely Alexey Novikov Luis Augusto Peter Liehl Gérard Bolbach Maria Péchy-Tarr Pierre Cosson Christoph Keel Martine Caroff Bruno Lemaitre 《Applied and environmental microbiology》2010,76(3):910-921
Pseudomonas entomophila is an entomopathogenic bacterium that is able to infect and kill Drosophila melanogaster upon ingestion. Its genome sequence suggests that it is a versatile soil bacterium closely related to Pseudomonas putida. The GacS/GacA two-component system plays a key role in P. entomophila pathogenicity, controlling many putative virulence factors and AprA, a secreted protease important to escape the fly immune response. P. entomophila secretes a strong diffusible hemolytic activity. Here, we showed that this activity is linked to the production of a new cyclic lipopeptide containing 14 amino acids and a 3-C10OH fatty acid that we called entolysin. Three nonribosomal peptide synthetases (EtlA, EtlB, EtlC) were identified as responsible for entolysin biosynthesis. Two additional components (EtlR, MacAB) are necessary for its production and secretion. The P. entomophila GacS/GacA two-component system regulates entolysin production, and we demonstrated that its functioning requires two small RNAs and two RsmA-like proteins. Finally, entolysin is required for swarming motility, as described for other lipopeptides, but it does not participate in the virulence of P. entomophila for Drosophila. While investigating the physiological role of entolysin, we also uncovered new phenotypes associated with P. entomophila, including strong biocontrol abilities.Pseudomonas entomophila is a recently isolated Pseudomonas species that is closely related to the saprophytic soil bacterium Pseudomonas putida. It was initially characterized as a natural pathogen of Drosophila (63). Indeed, P. entomophila was first isolated from flies sampled in Guadeloupe, and it is highly pathogenic for Drosophila larvae and adults. P. entomophila can also effectively kill members of other insect orders (e.g., Bombyx mori, Anopheles gambiae), which makes it a new entomopathogenic bacterium. Its ability to infect and kill Drosophila melanogaster very efficiently after ingestion makes it an appropriate model for the study of host-pathogen interactions (38, 62, 63).In order to unravel features contributing to the entomopathogenic properties of P. entomophila, its genome was sequenced. The results suggest that this strain is a ubiquitous, metabolically versatile bacterium that may colonize diverse habitats, including soil, rhizosphere, and aquatic systems, as shown for P. putida KT2440 (62). However, in contrast to the P. putida genome, the P. entomophila genome contains many genes that are predicted to be important for virulence toward insects. Notably, P. entomophila could secrete many degradative enzymes (proteases and lipases), putative toxins, and secondary metabolites (62). Similar factors have been shown to play a key role in the virulence of other entomopathogenic bacteria like Photorhabdus and Xenorhabdus sp. (27, 29).Insertional mutagenesis allowed the identification of several P. entomophila genes required to infect and/or kill Drosophila. This analysis demonstrated that P. entomophila virulence is under the control of the GacS/GacA two-component system (62, 63), a global regulatory system which is known to control secondary metabolite production, protein secretion, and pathogenic abilities in gammaproteobacteria (37, 65). Another study indicates that P. entomophila can counteract the Drosophila gut immune response as a result of the secretion of an abundant protease, AprA, which degrades antimicrobial peptides produced by gut epithelia and thereby promotes bacterial persistence (38). However, an AprA-deficient mutant remains virulent to some extent, indicating that P. entomophila virulence is multifactorial, AprA being one virulence factor among others.The secretion of virulence factors is a common mechanism employed by pathogens to compromise host defenses. Several entomopathogenic bacteria (e.g., Photorhabdus luminescens) secrete toxins that allow them to impair host function (8). The starting point of this study was the observation that, in contrast to several other Pseudomonas strains, P. entomophila secretes a strong diffusible hemolytic activity (which is also controlled by the Gac system). This raises the possibility of a link between this hemolytic activity and the pathogenicity of P. entomophila for Drosophila. Indeed, bacterial hemolysins are exotoxins that attack blood cell membranes and cause cell rupture by poorly defined mechanisms. It was conceivable that this hemolytic activity could be a readout for the ability of P. entomophila to damage the epithelial cells of the Drosophila gut, which plays a crucial role in its virulence (10, 33, 63).In this study, the P. entomophila hemolytic factor was identified as a cyclic lipopeptide (CLP) whose structure was elucidated. CLPs are versatile molecules with antimicrobial, cytotoxic, and surfactant properties that are produced by members of the genera Bacillus, Serratia, Burkholderia, and Pseudomonas (31, 41, 43, 50). They are produced by a ribosome-independent mechanism that utilizes multifunctional enzymes called nonribosomal peptide synthetases (NRPSs) (42, 59). These NRPSs are composed of repeated amino acid activation modules containing domains for condensation, aminoacyl adenylation, and thiolation. Modules are responsible for activation and incorporation of amino acids into the growing peptide. A large number of prokaryotic and some eukaryotic organisms synthesize peptide metabolites via this nonribosomal mechanism of biosynthesis (42, 47).Several genes involved in P. entomophila lipopeptide production were identified, three of them encoding NRPSs. The physiological role of this lipopeptide was also investigated, and it does not seem to play a role in the process of virulence towards Drosophila and Dictyostelium or in the P. entomophila biocontrol activity that was uncovered by this study. This suggests that the lifestyle of this newly identified bacterium is probably quite versatile and that lipopeptide production could be required only under specific circumstances. 相似文献
15.
X-ray crystallography of biologically important RNA molecules has been hampered by technical challenges, including finding heavy-atom derivatives to obtain high-quality experimental phase information. Existing techniques have drawbacks, limiting the rate at which important new structures are solved. To address this, we have developed a reliable means to localize heavy atoms specifically to virtually any RNA. By solving the crystal structures of thirteen variants of the G*U wobble pair cation binding motif, we have identified a version that when inserted into an RNA helix introduces a high-occupancy cation binding site suitable for phasing. This "directed soaking" strategy can be integrated fully into existing RNA crystallography methods, potentially increasing the rate at which important structures are solved and facilitating routine solving of structures using Cu-Kalpha radiation. This method already has been used to solve several crystal structures. 相似文献
16.
Stomatal conductance in mature deciduous forest trees exposed to elevated CO<Subscript>2</Subscript>
Sonja Gisela Keel Steeve Pepin Sebastian Leuzinger Christian Körner 《Trees - Structure and Function》2007,21(2):151
Stomatal conductance (g s) of mature trees exposed to elevated CO2 concentrations was examined in a diverse deciduous forest stand in NW Switzerland. Measurements of g s were carried out on upper canopy foliage before noon, over four growing seasons, including an exceptionally dry summer (2003). Across all species reductions in stomatal conductance were smaller than 25% most likely around 10%, with much variation among species and trees. Given the large heterogeneity in light conditions within a tree crown, this signal was not statistically significant, but the responses within species were surprisingly consistent throughout the study period. Except during a severe drought, stomatal conductance was always lower in trees of Carpinus betulus exposed to elevated CO2 compared to Carpinus trees in ambient air, but the difference was only statistically significant on 2 out of 15 days. In contrast, stomatal responses in Fagus sylvatica and Quercus petraea varied around zero with no consistent trend in relation to CO2 treatment. During the 2003 drought in the third treatment year, the CO2 effect became reversed in Carpinus, resulting in higher g s in trees exposed to elevated CO2 compared to control trees, most likely due to better water supply because of the previous soil water savings. This was supported by less negative predawn leaf water potential in CO2 enriched Carpinus trees, indicating an improved water status. These findings illustrate (1) smaller than expected CO2-effects on stomata of mature deciduous forest trees, and (2) the possibility of soil moisture feedback on canopy water relations under elevated CO2. 相似文献
17.
Beat Ruffner Maria Péchy-Tarr Monica H?fte Guido Bloemberg Jürg Grunder Christoph Keel Monika Maurhofer 《BMC genomics》2015,16(1)
Background
Root-colonizing fluorescent pseudomonads are known for their excellent abilities to protect plants against soil-borne fungal pathogens. Some of these bacteria produce an insecticidal toxin (Fit) suggesting that they may exploit insect hosts as a secondary niche. However, the ecological relevance of insect toxicity and the mechanisms driving the evolution of toxin production remain puzzling.Results
Screening a large collection of plant-associated pseudomonads for insecticidal activity and presence of the Fit toxin revealed that Fit is highly indicative of insecticidal activity and predicts that Pseudomonas protegens and P. chlororaphis are exclusive Fit producers. A comparative evolutionary analysis of Fit toxin-producing Pseudomonas including the insect-pathogenic bacteria Photorhabdus and Xenorhadus, which produce the Fit related Mcf toxin, showed that fit genes are part of a dynamic genomic region with substantial presence/absence polymorphism and local variation in GC base composition. The patchy distribution and phylogenetic incongruence of fit genes indicate that the Fit cluster evolved via horizontal transfer, followed by functional integration of vertically transmitted genes, generating a unique Pseudomonas-specific insect toxin cluster.Conclusions
Our findings suggest that multiple independent evolutionary events led to formation of at least three versions of the Mcf/Fit toxin highlighting the dynamic nature of insect toxin evolution.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1763-2) contains supplementary material, which is available to authorized users. 相似文献18.
Aletaha D Nell VP Stamm T Uffmann M Pflugbeil S Machold K Smolen JS 《Arthritis research & therapy》2005,7(4):R796-R806
Introduction
Frequent assessments of rheumatoid arthritis (RA) disease activity allow timely adaptation of therapy, which is essential in preventing disease progression. However, values of acute phase reactants (APRs) are needed to calculate current composite activity indices, such as the Disease Activity Score (DAS)28, the DAS28-CRP (i.e. the DAS28 using C-reactive protein instead of erythrocyte sedimentation rate) and the Simplified Disease Activity Index (SDAI). We hypothesized that APRs make limited contribution to the SDAI, and that an SDAI-modification eliminating APRs – termed the Clinical Disease Activity Index (CDAI; i.e. the sum of tender and swollen joint counts [28 joints] and patient and physician global assessments [in cm]) – would have comparable validity in clinical cohorts. 相似文献19.
There is increasing evidence for beneficial effects of early DMARD (disease-modifying antirheumatic drug) therapy over delayed
treatment in patients who present with arthritis of recent onset. However, no universal consensus exists concerning the choice
of initial drug or whether single drugs or combinations should be given as initial treatments. Recent studies have focused
on the benefits of various strategies in which treatments were tailored to achieve low levels of disease activity, as assessed
using validated response criteria. These studies demonstrated superiority of 'aggressive' over 'conventional' approaches.
Whether the inclusion of tumour necrosis factor antagonists or other biologic targeted therapies in such strategies confers
additional benefits in terms of improved long-term outcomes must be clarified by further studies. Assessment of risks in the
individual patient, allowing individual 'tailoring' of the initial treatment, would be desirable. 相似文献
20.
Nicholas Boire Sean Zhang Joshua Khuvis Rick Lee Jennifer Rivers Philip Crandall M. Kevin Keel Nicole Parrish 《PloS one》2016,11(2)
The causative agent of White-nose Syndrome (WNS), Pseudogymnoascus destructans, has been shown to be fatal to several species of bats in North America. To date, no compounds or chemical control measures have been developed which eliminates the growth of the fungus in the environment or in affected animals. In the current study, we evaluated the activity of cold-pressed, terpeneless orange oil (CPT) against multiple isolates of P. destructans in vitro. For all assays, a modified Kirby-Bauer disk diffusion assay was used. Standardized spore suspensions were prepared, adjusted to a specific optical density, and used to plate fungal lawns. Plates were incubated at either 15°C or 4°C for up to 6 months and checked at regular intervals for growth. Once controls had grown, zones of inhibition were measured (mm) on test plates and compared to those obtained using current antifungal drugs. All P. destructans isolates were completely inhibited by 100% CPT (10 μL) at 1 month of incubation regardless of temperature (4°C and 15°C). Complete inhibition persisted up to 6 months following a single exposure at this concentration. Of the standard antifungals, only amphotericin B demonstrated any activity, resulting in zone diameters ranging from 58 mm to 74 mm. CPT, at the highest concentration tested (100%), had no significant effect against a variety of other environmental organisms including various filamentous fungi, bacteria and aerobic actinomycetes. Given that CPT is relatively non-toxic, the possibility exists that the all-natural, mixture could be used as an environmental pre-treatment to eradicate P. destructans from bat habitats. Additional studies are needed to assess any undesirable effects of CPT on bat behavior and health and overall impacts on other members of the interconnected ecosystem(s). 相似文献