Your search keyword '"*PSEUDOMONADACEAE"' showing total 788 results

1. Carpenter Bees (Xylocopa) Harbor a Distinctive Gut Microbiome Related to That of Honey Bees and Bumble Bees.

Author

Holley, Jo-anne C., Jackson, Mary N., Pham, Anna T., Hatcher, Sarah C., and Moran, Nancy A.

Subjects

*BUMBLEBEES, *GUT microbiome, *HONEYBEES, *BEES, *CARPENTERS, *LACTOBACILLACEAE, *PSEUDOMONADACEAE

Abstract

Eusocial corbiculate bees, including bumble bees and honey bees, maintain a socially transmitted core gut microbiome that contributes to digestion and pathogen defense. In contrast, solitary bees, which have fewer opportunities for direct interhost transmission, typically have less consistent microbiomes dominated by bacteria associated with pollen and food reserves. Carpenter bees (genus Xylocopa) are long-lived bees that are not eusocial but that often live in shared nesting sites. We characterized gut microbiomes for Xylocopa micans, X. mexicanorum, X. tabaniformis parkinsoniae, and X. virginica and for five solitary bee species from other genera (Andrena, Habropoda, Megachile, and Svastra), sampled in the same localities in central Texas. Unexpectedly, all four Xylocopa species had microbiomes dominated by bacterial lineages previously known only from social bees or other insect groups. Microbiomes were similar across three Xylocopa species and included lineages in the families Bifidobacteriaceae, Orbaceae, Lactobacillaceae, Pseudomonadaceae, and Enterobacteriaceae. In contrast, X. virginica had a distinct microbiome dominated by the genus Bombilactobacillus, a group abundant in guts of eusocial bees. Phylogenetic analyses support a past transfer of bacterial lineages into Xylocopa from bumble bees or honey bees. Gut microbiome compositions of Xylocopa species were distinct from those of other co-occurring solitary bees that had variable gut microbiomes dominated by bacteria from environmental sources. [ABSTRACT FROM AUTHOR]

Published

2022

2. Signal Synthase-Type versus Catabolic Monooxygenases: Retracing 3-Hydroxylation of 2-Alkylquinolones and Their N-Oxides by Pseudomonas aeruginosa and Other Pulmonary Pathogens.

Author

Ritzmann, Niklas H., Drees, Steffen L., and Fetzner, Susanne

Subjects

*QUORUM sensing, *PATHOGENIC microorganisms, *STAPHYLOCOCCUS aureus, *CYSTIC fibrosis, *BACTERIAL diseases, *PSEUDOMONADACEAE, *PSEUDOMONAS aeruginosa

Abstract

The multiple biological activities of 2-alkylquinolones (AQs) are crucial for virulence of Pseudomonas aeruginosa, conferring advantages during infection and in polymicrobial communities. Whereas 2-heptyl-3-hydroxyquinolin-4(1H)-one (the "Pseudomonas quinolone signal" [PQS]) is an important quorum sensing signal molecule, 2-alkyl-1-hydroxyquinolin-4(1H)-ones (also known as 2-alkyl-4-hydroxyquinoline N-oxides [AQNOs]) are antibiotics inhibiting respiration. Hydroxylation of the PQS precursor 2-heptylquinolin-4(1H)-one (HHQ) by the signal synthase PqsH boosts AQ quorum sensing. Remarkably, the same reaction, catalyzed by the ortholog AqdB, is used by Mycobacteroides abscessus to initiate degradation of AQs. The antibiotic 2-heptyl-1-hydroxyquinolin-4(1H)-one (HQNO) is hydroxylated by Staphylococcus aureus to the less toxic derivative PQS-N-oxide (PQS-NO), a reaction probably also catalyzed by a PqsH/AqdB ortholog. In this study, we provide a comparative analysis of four AQ 3-monooxygenases of different organisms. Due to the major impact of AQ/AQNO 3-hydroxylation on the biological activities of the compounds, we surmised adaptations on the enzymatic and/or physiological level to serve either the producer or target organisms. Our results indicate that all enzymes share similar features and are incapable of discriminating between AQs and AQNOs. PQS-NO, hence, occurs as a native metabolite of P. aeruginosa although the unfavorable AQNO 3-hydroxylation is minimized by export as shown for HQNO, involving at least one multidrug efflux pump. Moreover, M. abscessus is capable of degrading the AQNO heterocycle by concerted action of AqdB and dioxygenase AqdC. However, S. aureus and M. abscessus orthologs disfavor AQNOs despite their higher toxicity, suggesting that catalytic constraints restrict evolutionary adaptation and lead to the preference of non-N-oxide substrates by AQ 3-monooxygenases. IMPORTANCE Pseudomonas aeruginosa, Staphylococcus aureus, and Mycobacteroides abscessus are major players in bacterial chronic infections and particularly common colonizers of cystic fibrosis (CF) lung tissue. Whereas S. aureus is an early onset pathogen in CF, P. aeruginosa establishes at later stages. M. abscessus occurs at all stages but has a lower epidemiological incidence. The dynamics of how these pathogens interact can affect survival and therapeutic success. 2-Alkylquinolone (AQ) and 2-alkylhydroxyquinoline N-oxide (AQNO) production is a major factor of P. aeruginosa virulence. The 3-position of the AQ scaffold is critical, both for attenuation of AQ toxicity or degradation by competitors, as well as for full unfolding of quorum sensing. Despite lacking signaling functionality, AQNOs have the strongest impact on suppression of Gram-positives. Because evidence for 3-hydroxylation of AQNOs has been reported, it is desirable to understand the extent by which AQ 3-monooxygenases contribute to manipulation of AQ/AQNO equilibrium, resistance, and degradation. [ABSTRACT FROM AUTHOR]

Published

2021

3. Multiple Environmental Factors Influence the Importance of the Phosphodiesterase DipA upon Pseudomonas aeruginosa Swarming.

Author

Mattingly, Anne E., Kamatkar, Nachiket G., Borlee, Bradley R., and Shrout, Joshua D.

Subjects

*PSEUDOMONADACEAE, *PSEUDOMONADALES, *HYDRAULICS, *WATER distribution, *PSEUDOMONAS

Abstract

Pseudomonas aeruginosa exhibits flagellum-mediated swimming in liquid and swarming on hydrated surfaces under diverse nutrient conditions. Prior studies have implicated a phosphodiesterase, DipA, in regulating these flagellummediated motilities, but collectively, the necessity for DipA was unclear. In this study, we find that the medium composition conditionally constrains the influence of DipA on flagellar motility. We show that DipA exhibits more influence on minimal medium supplemented with glutamate or glucose, where flagellar motility was negated for the dipA mutant. Conversely, a dipA-deficient mutant exhibits flagellar motility when growing with LB Lennox broth and minimal medium supplemented with Casamino Acids. Swarming under these rich medium conditions occurs under elevated levels of c-di-GMP. We also demonstrate that the influence of DipA upon swimming often differs from that upon swarming, and we conclude that a direct comparison of the motility phenotypes is generally valid only when characterizing motility assay results from the same medium composition. Our results are consistent with the explanation that DipA is one of several phosphodiesterases responding to the nutrient environment sensed by P. aeruginosa. On minimal medium with glutamate or glucose, DipA is dominant; however, on rich medium, the necessity of DipA is fully negated. IMPORTANCE Motile and ubiquitous bacteria such as Pseudomonas aeruginosa can quickly colonize surfaces and form biofilms in numerous environments such as water distribution systems, soil, and the human lung. To effectively disrupt bacterial colonization, it is imperative to understand how bacteria regulate motility in these different growth environments. Here, we show that the phosphodiesterase DipA is not required for flagellar motility under all nutrient conditions. Thus, the maintenance of intracellular c-di-GMP levels to promote flagellar motility or biofilm development must be conditionally regulated by differing phosphodiesterases in variation with select nutrient cues. [ABSTRACT FROM AUTHOR]

Published

2018

4. Classification of a Violacein-Producing Psychrophilic Group of Isolates Associated with Freshwater in Antarctica and Description of Rugamonas violacea sp. nov

Author

Stanislava Králová, Hans-Jürgen Busse, Ivo Sedláček, Pavla Holochová, Karel Sedlář, Jan Pilný, Vendula Koublová, Roman Sobotka, Eva Staňková, Pavel Švec, and Ondrej Šedo

Subjects

DNA, Bacterial, species description, Microbiology (medical), Indoles, Physiology, Antarctic Regions, Biology, Microbiology, Species description, taxonomy, violacein, 03 medical and health sciences, Ribotyping, Genus, RNA, Ribosomal, 16S, psychrophiles, Botany, Genetics, 14. Life underwater, Rugamonas, Psychrophile, Phylogeny, Soil Microbiology, 030304 developmental biology, Base Composition, 0303 health sciences, General Immunology and Microbiology, Ecology, Phylogenetic tree, 030306 microbiology, Cell Biology, 16S ribosomal RNA, QR1-502, 6. Clean water, Bacterial Typing Techniques, Lakes, Infectious Diseases, Chemotaxonomy, Antarctica, Taxonomy (biology), Pseudomonadaceae, Research Article

Abstract

A group of 11 bacterial strains was isolated from streams and lakes located in a deglaciated northern part of James Ross Island, Antarctica. They were rod-shaped, Gram-stain-negative, motile, and catalase-positive and produced blue-violet-pigmented colonies on R2A agar. A polyphasic taxonomic approach based on 16S rRNA gene sequencing, whole-genome sequencing, automated ribotyping, repetitive element sequence-based PCR (rep-PCR), MALDI-TOF MS, fatty acid profile, chemotaxonomy analyses, and extensive biotyping was applied in order to clarify the taxonomic position of these isolates. Phylogenetic analysis based on the 16S rRNA gene indicated that all the isolates constituted a coherent group belonging to the genus Rugamonas. The closest relatives to the representative isolate P5900T were Rugamonas rubra CCM 3730T, Rugamonas rivuli FT103WT, and Rugamonas aquatica FT29WT, exhibiting 99.2%, 99.1%, and 98.6% 16S rRNA pairwise similarity, respectively. The average nucleotide identity and digital DNA-DNA hybridization values calculated from the whole-genome sequencing data clearly proved that P5900T represents a distinct Rugamonas species. The G+C content of genomic DNAs was 66.1 mol%. The major components in fatty acid profiles were summed feature 3 (C16:1 ω7c/C16:1 ω6c), C 16:0, and C12:0. The cellular quinone content contained exclusively ubiquinone Q-8. The predominant polar lipids were diphosphatidylglycerol, phosphatidylglycerol, and phosphatidylethanolamine. The polyamine pattern was composed of putrescine, 2-hydroxputrescine, and spermidine. IMPORTANCE Our polyphasic approach provides a new understanding of the taxonomy of novel pigmented Rugamonas species isolated from freshwater samples in Antarctica. The isolates showed considerable extracellular bactericidal secretions. The antagonistic activity of studied isolates against selected pathogens was proved by this study and implied the importance of such compounds’ production among aquatic bacteria. The psychrophilic and violacein-producing species Roseomonas violacea may play a role in the diverse consortium among pigmented bacteria in the Antarctic water environment. Based on all the obtained results, we propose a novel species for which the name Rugamonas violacea sp. nov. is suggested, with the type strain P5900T (CCM 8940T; LMG 32105T). Isolates of R. violacea were obtained from different aquatic localities, and they represent the autochthonous part of the water microbiome in Antarctica.

Published

2021

5. Substrate and Cofactor Range Differences of Two Cysteine Dioxygenases from Ralstonia eutropha H16.

Author

Wenning, Leonie, Stöveken, Nadine, Wübbeler, Jan Hendrik, and Steinbüchel, Alexander

Subjects

*PSEUDOMONADACEAE, *RALSTONIA eutropha, *SULFUR amino acids, *CYSTEINE, *ENZYMES

Abstract

Cysteine dioxygenases (Cdos), which catalyze the sulfoxidation of cysteine to cysteine sulfinic acid (CSA), have been extensively studied in eukaryotes because of their roles in several diseases. In contrast, only a few prokaryotic enzymes of this type have been investigated. In Ralstonia eutropha H16, two Cdo homologues (CdoA and CdoB) have been identified previously. In vivo studies showed that Escherichia coli cells expressing CdoA could convert 3-mercaptopropionate (3MP) to 3-sulfinopropionate (3SP), whereas no 3SP could be detected in cells expressing CdoB. The objective of this study was to confirm these findings and to study both enzymes in detail by performing an in vitro characterization. The proteins were heterologously expressed and purified to apparent homogeneity by immobilized metal chelate affinity chromatography (IMAC). Subsequent analysis of the enzyme activities revealed striking differences with regard to their substrate ranges and their specificities for the transition metal cofactor, e.g., CdoA catalyzed the sulfoxidation of 3MP to a 3-fold-greater extent than the sulfoxidation of cysteine, whereas CdoB converted only cysteine. Moreover, the dependency of the activities of the Cdos from R. eutropha H16 on the metal cofactor in the active center could be demonstrated. The importance of CdoA for the metabolism of the sulfur compounds 3,3'-thiodipropionic acid (TDP) and 3,3'-dithiodipropionic acid (DTDP) by further converting their degradation product, 3MP, was confirmed. Since 3MP can also function as a precursor for polythioester (PTE) synthesis in R. eutropha H16, deletion of cdoA might enable increased synthesis of PTEs. [ABSTRACT FROM AUTHOR]

Published

2016

6. Formation of Polyphosphate by Polyphosphate Kinases and Its Relationship to Poly(3-Hydroxybutyrate) Accumulation in Ralstonia eutropha Strain H16.

Author

Tumlirsch, Tony, Sznajder, Anna, and Jendrossek, Dieter

Subjects

*POLYPHOSPHATES, *PSEUDOMONADACEAE, *RALSTONIA eutropha, *PHOSPHOTRANSFERASES, *POLYHYDROXYBUTYRATE

Abstract

A protein (PhaX) that interacted with poly(3-hydroxybutyrate) (PHB) depolymerase PhaZa1 and with PHB granule-associated phasin protein PhaP2 was identified by two-hybrid analysis. Deletion of phaX resulted in an increase in the level of polyphosphate (polyP) granule formation and in impairment of PHB utilization in nutrient broth-gluconate cultures. A procedure for enrichment of polyP granules from cell extracts was developed. Twenty-seven proteins that were absent in other cell fractions were identified in the polyP granule fraction by proteome analysis. One protein (A2437) harbored motifs characteristic of type 1 polyphosphate kinases (PPK1s), and two proteins (A1212, A1271) had PPK2 motifs. In vivo colocalization with polyP granules was confirmed by expression of C- and N-terminal fusions of enhanced yellow fluorescent protein (eYFP) with the three polyphosphate kinases (PPKs). Screening of the genome DNA sequence for additional proteins with PPK motifs revealed one protein with PPK1 motifs and three proteins with PPK2 motifs. Construction and subsequent expression of C- and N-terminal fusions of the four new PPK candidates with eYFP showed that only A1979 (PPK2 motif) colocalized with polyP granules. The other three proteins formed fluorescent foci near the cell pole (apart from polyP) (A0997, B1019) or were soluble (A0226). Expression of the Ralstonia eutropha ppk (ppkReu) genes in an Escherichia coli ▵ ppk background and construction of a set of single and multiple chromosomal deletions revealed that both A2437 (PPK1a) and A1212 (PPK2c) contributed to polyP granule formation. Mutants with deletion of both genes were unable to produce polyP granules. The formation and utilization of PHB and polyP granules were investigated in different chromosomal backgrounds. [ABSTRACT FROM AUTHOR]

Published

2015

7. Contribution of the Distal Pocket Residue to the Acyl-Chain-Length Specificity of (R)-Specific Enoyl-Coenzyme A Hydratases from Pseudomonas spp.

Author

Takeharu Tsuge, Shun Sato, Ayaka Hiroe, Koya Ishizuka, Hiromi Kanazawa, Yoshitsugu Shiro, and Tamao Hisano

Subjects

*CHAIN length (Chemistry), *PSEUDOMONADACEAE, *HYDRATION, *HYDRATASES, *DECARBOXYLASES

Abstract

(R)-Specific enoyl-coenzyme A (enoyl-CoA) hydratases (PhaJs) are capable of supplying monomers from fatty acid _-oxidation to polyhydroxyalkanoate (PHA) biosynthesis. PhaJ1Pp from Pseudomonas putida showed broader substrate specificity than did PhaJ1Pa from Pseudomonas aeruginosa, despite sharing 67% amino acid sequence identity. In this study, the substrate specificity characteristics of two Pseudomonas PhaJ1 enzymes were investigated by site-directed mutagenesis, chimeragenesis, X-ray crystallographic analysis, and homology modeling. In PhaJ1Pp, the replacement of valine with isoleucine at position 72 resulted in an increased preference for enoyl-coenzyme A (CoA) elements with shorter chain lengths. Conversely, at the same position in PhaJ1Pa, the replacement of isoleucine with valine resulted in an increased preference for enoyl-CoAs with longer chain lengths. These changes suggest a narrowing and broadening in the substrate specificity range of the PhaJ1Pp and PhaJ1Pa mutants, respectively. However, the substrate specificity remains broader in PhaJ1Pp than in PhaJ1Pa. Additionally, three chimeric PhaJ1 enzymes, composed from PhaJ1Pp and PhaJ1Pa, all showed significant hydratase activity, and their substrate preferences were within the range exhibited by the parental PhaJ1 enzymes. The crystal structure of PhaJ1Pa was determined at a resolution of 1.7 Å, and subsequent homology modeling of PhaJ1Pp revealed that in the acyl-chain binding pocket, the amino acid at position 72 was the only difference between the two structures. These results indicate that the chain-length specificity of PhaJ1 is determined mainly by the bulkiness of the amino acid residue at position 72, but that other factors, such as structural fluctuations, also affect specificity. [ABSTRACT FROM AUTHOR]

Published

2015

8. Aggressive Emerging Pathovars of Xanthomonas arboricola Represent Widespread Epidemic Clones Distinct from Poorly Pathogenic Strains, as Revealed by Multilocus Sequence Typing.

Author

Fischer-Le Saux, Marion, Bonneau, Sophie, Essakhi, Salwa, Manceau, Charles, and Jacques, Marie-Agnès

Subjects

*PSEUDOMONADACEAE, *XANTHOMONAS diseases, *NUT tree diseases & pests, *PATHOGENIC bacteria, *STONE fruit diseases & pests

Abstract

Deep and comprehensive knowledge of the genetic structure of pathogenic species is the cornerstone on which the design of precise molecular diagnostic tools is built. Xanthomonas arboricola is divided into pathovars, some of which are classified as quarantine organisms in many countries and are responsible for diseases on nut and stone fruit trees that have emerged worldwide. Recent taxonomic studies of the genus Xanthomonas showed that strains isolated from other hosts should be classified in X. arboricola, extending the host range of the species. To investigate the genetic structure of X. arboricola and the genetic relationships between highly pathogenic strains and strains apparently not relevant to plant health, we conducted multilocus sequence analyses on a collection of strains representative of the known diversity of the species. Most of the pathovars were clustered in separate monophyletic groups. The pathovars pruni, corylina, and juglandis, responsible for pandemics in specific hosts, were highly phylogenetically related and clustered in three distinct clonal complexes. In contrast, strains with no or uncertain pathogenicity were represented by numerous unrelated singletons scattered in the phylogenic tree. Depending on the pathovar, intraand interspecies recombination played contrasting roles in generating nucleotide polymorphism. This work provides a population genetics framework for molecular epidemiological surveys of emerging plant pathogens within X. arboricola. Based on our results, we propose to reclassify three former pathovars of Xanthomonas campestris as X. arboricola pv. arracaciae comb. nov., X. arboricola pv. guizotiae comb. nov., and X. arboricola pv. zantedeschiae comb. nov. An emended description of X. arboricola Vauterin et al. 1995 is provided. [ABSTRACT FROM AUTHOR]

Published

2015

9. Anthranilate Deteriorates the Structure of Pseudomonas aeruginosa Biofilms and Antagonizes the Biofilm-Enhancing Indole Effect.

Author

Soo-Kyoung Kim, Ha-Young Park, and Joon-Hee Lee

Subjects

*PSEUDOMONAS aeruginosa, *BIOFILMS, *INDOLE, *TRYPTOPHAN, *PSEUDOMONADACEAE, *MICROBIAL ecology, *HETEROCYCLIC compounds

Abstract

Anthranilate and indole are alternative degradation products of tryptophan, depending on the bacterial species. While indole enhances the biofilm formation of Pseudomonas aeruginosa, we found that anthranilate, the tryptophan degradation product of P. aeruginosa, had an opposite effect on P. aeruginosa biofilm formation, in which anthranilate deteriorated the mushroom structure of biofilm. The anthranilate effect on biofilm formation was differentially exerted depending on the developmental stage and the presence of shear force. Anthranilate slightly accelerated the initial attachment of P. aeruginosa at the early stage of biofilm development and appeared to build more biofilm without shear force. But anthranilate weakened the biofilm structure in the late stage, deteriorating the mushroom structure of biofilms with shear force to make a flat biofilm. To investigate the interplay of anthranilate with indole in biofilm formation, biofilms were cotreated with anthranilate and indole, and the results showed that anthranilate antagonized the biofilm-enhancing effect of indole. Anthranilate was able to deteriorate the preformed biofilm. The effect of anthranilate and indole on biofilm formation was quorum sensing independent. AntR, a regulator of anthranilate- degrading metabolism was synergistically activated by cotreatment with anthranilate and indole, suggesting that indole might enhance biofilm formation by facilitating the degradation of anthranilate. Anthranilate slightly but significantly affected the cyclic diguaniylate (c-di-GMP) level and transcription of major extracellular polysaccharide (Psl, Pel, and alginate) operons. These results suggest that anthranilate may be a promising antibiofilm agent and antagonize the effect of indole on P. aeruginosa biofilm formation. [ABSTRACT FROM AUTHOR]

Published

2015

10. Knockout of Extracytoplasmic Function Sigma Factor ECF-10 Affects Stress Resistance and Biofilm Formation in Pseudomonas putida KT2440.

Author

Tettmann, Beatrix, Dötsch, Andreas, Armant, Olivier, Fjell, Christopher D., and Overhage, Joerg

Subjects

*PSEUDOMONADACEAE, *PSEUDOMONAS putida, *PHENOTYPES, *REJUVENESCENCE (Botany), *ANTIBACTERIAL agents

Abstract

Pseudomonas putida is a Gram-negative soil bacterium which is well-known for its versatile lifestyle, controlled by a large repertoire of transcriptional regulators. Besides one- and two-component regulatory systems, the genome of P. putida reveals 19 extracytoplasmic function (ECF) sigma factors involved in the adaptation to changing environmental conditions. In this study, we demonstrate that knockout of extracytoplasmic function sigma factor ECF-10, encoded by open reading frame PP4553, resulted in 2- to 4-fold increased antibiotic resistance to quinolone, β-lactam, sulfonamide, and chloramphenicol antibiotics. In addition, the ECF-10 mutant exhibited enhanced formation of biofilms after 24 h of incubation. Transcriptome analysis using Illumina sequencing technology resulted in the detection of 12 genes differentially expressed (>2-fold) in the ECF-10 knockout mutant strain compared to their levels of expression in wild-type cells. Among the upregulated genes were ttgA, ttgB, and ttgC, which code for the major multidrug efflux pump TtgABC in P. putida KT2440. Investigation of an ECF-10 and ttgA double-knockout strain and a ttgABC-overexpressing strain demonstrated the involvement of efflux pump TtgABC in the stress resistance and biofilm formation phenotypes of the ECF-10 mutant strain, indicating a new role for this efflux pump beyond simple antibiotic resistance in P. putida KT2440. [ABSTRACT FROM AUTHOR]

Published

2014

11. Use of Silica-Encapsulated Pseudomonas sp. Strain NCIB 9816-4 in Biodegradation of Novel Hydrocarbon Ring Structures Found in Hydraulic Fracturing Waters.

Author

Aukema, Kelly G., Kasinkas, Lisa, Aksan, Alptekin, and Wackett, Lawrence P.

Subjects

*BIODEGRADATION, *HYDRAULIC fracturing, *HYDRAULIC engineering, *MICROBIOLOGY, *PSEUDOMONADACEAE

Abstract

The most problematic hydrocarbons in hydraulic fracturing (fracking) wastewaters consist of fused, isolated, bridged, and spiro ring systems, and ring systems have been poorly studied with respect to biodegradation, prompting the testing here of six major ring structural subclasses using a well-characterized bacterium and a silica encapsulation system previously shown to enhance biodegradation. The direct biological oxygenation of spiro ring compounds was demonstrated here. These and other hydrocarbon ring compounds have previously been shown to be present in flow-back waters and waters produced from hydraulic fracturing operations. Pseudomonas sp. strain NCIB 9816-4, containing naphthalene dioxygenase, was selected for its broad substrate specificity, and it was demonstrated here to oxidize fundamental ring structures that are common in shale-derived waters but not previously investigated with this or related enzymes. Pseudomonas sp. NCIB 9816-4 was tested here in the presence of a silica encasement, a protocol that has previously been shown to protect bacteria against the extremes of salinity present in fracking wastewaters. These studies demonstrate the degradation of highly hydrophobic compounds by a silica-encapsulated model bacterium, demonstrate what it may not degrade, and contribute to knowledge of the full range of hydrocarbon ring compounds that can be oxidized using Pseudomonas sp. NCIB 9816-4. [ABSTRACT FROM AUTHOR]

Published

2014

12. Cyclic di-GMP-Mediated Regulation of Extracellular Mannuronan C-5 Epimerases Is Essential for Cyst Formation in Azotobacter vinelandii

Author

Christopher M. Waters, Brian Hsueh, Carlos L. Ahumada-Manuel, David Zamorano-Sánchez, Josefina Guzmán, Cinthia Núñez, Soledad Moreno, Guadalupe Espín, Iliana C. Martínez-Ortiz, and Miguel Cocotl-Yañez

Subjects

Cyclic di-GMP, Alginates, Cellular differentiation, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Bacterial Proteins, Guanosine monophosphate, Extracellular, Cyclic GMP, Molecular Biology, 030304 developmental biology, Azotobacter vinelandii, 0303 health sciences, biology, 030306 microbiology, Escherichia coli Proteins, Gene Expression Regulation, Bacterial, biology.organism_classification, Cell biology, Response regulator, chemistry, Pseudomonas aeruginosa, Second messenger system, Phosphorus-Oxygen Lyases, Carbohydrate Epimerases, Research Article, Pseudomonadaceae

Abstract

The genus Azotobacter, belonging to the Pseudomonadaceae family, is characterized by the formation of cysts, which are metabolically dormant cells produced under adverse conditions and able to resist desiccation. Although this developmental process has served as a model for the study of cell differentiation in Gram-negative bacteria, the molecular basis of its regulation is still poorly understood. Here we report that the ubiquitous second messenger cyclic dimeric guanosine monophosphate (c-di-GMP) is critical for the formation of cysts in Azotobacter vinelandii. Upon encystment induction the levels of c-di-GMP increased reaching a peak within the first 6 h. However, in the absence of the diguanylate-cyclase MucR the levels of this second messenger remained low throughout the developmental process. A. vinelandii cysts are surrounded by two alginate layers with variable proportions of guluronic residues which are introduced into the final alginate chain by extracellular mannuronic C-5 epimerases of the AlgE1-7 family. As opposed to Pseudomonas aeruginosa, MucR was not required for alginate polymerization in A. vinelandii. Conversely, MucR was necessary for the expression of extracellular alginate C-5 epimerases and therefore, the MucR-deficient strain produced cyst-like structures devoid of the alginate capsule and unable to resist desiccation. Expression of mucR was partially dependent on the response regulator AlgR, which binds to two sites in the mucR promoter enhancing mucR transcription. Together, these results indicate that the developmental process of A. vinelandii is controlled through a signaling module that involves activation by the response regulator AlgR and c-di-GMP accumulation that depends on MucR. ImportanceA. vinelandii has served as an experimental model for the study of the differentiation processes to form metabolically dormant cells in gram-negative bacteria. This work identifies c-di-GMP as a critical regulator for the production of alginates with specific content of guluronic residues and able to structure the rigid laminated layers of the cyst envelope. Although the allosteric activation of the alginate polymerase complex Alg8-Alg44 by c-di-GMP has long been recognized, our results show a previously unidentified role during the modification step of the polymer by controlling the expression of extracellular alginate epimerases. Our results also highlight the importance of c-di-GMP in the control of the physical properties of alginate, that ultimately determine the desiccation resistance of the differentiated cell.

Published

2020

13. Interaction of Aeromonas Strains with Lactic Acid Bacteria via Caco-2 Cells.

Author

Hatje, E., Neuman, C., and Katouli, M.

Subjects

*AEROMONAS, *PSEUDOMONADACEAE, *LACTIC acid, *BACTERIA, *PATHOGENIC microorganisms

Abstract

The genus Aeromonas includes some species that have now been identified as human pathogens of significant medical importance. We investigated the ability of 13 selected Aeromonas strains belonging to nine species isolated from clinical cases (n=5), environmental waters (n=5), and fish (n=3) to adhere to and translocate Caco-2 cells in the absence and presence of two lactic acid bacteria (LAB), i.e., Lactobacillus acidophilus and Bifidobacterium breve. Aeromonas isolates were also assessed for their cytotoxicity, the presence of virulence genes, and hemolysin production. Among the clinical isolates, one strain of Aeromonas veronii biovar veronii and two strains of Aeromonas hydrophila carried cytotoxin (act), heat-labile toxin (alt), hemolysin (hlyA), and aerolysin (aerA) genes, were cytotoxic to Vero cells, produced hemolysin, and showed higher adherence to Caco-2 cells. In contrast, this was seen in only one environmental strain, a strain of A. veronii biovar sobria. When Aeromonas strains were coinoculated with LAB onto Caco-2 cells, their level of adhesion was reduced. However, their rate of translocation in the presence of LAB increased and was significantly (P<0.05) higher among fish strains. We suggest that either the interaction between Aeromonas and LAB strains could have a detrimental effect on the Caco-2 cells, allowing the Aeromonas to translocate more readily, or the presence of the LAB stimulated the Aeromonas strains to produce more toxins and/or increase their translocation rate. [ABSTRACT FROM AUTHOR]

Published

2014

14. The Periplasmic HrpB1 Protein from Xanthomonas spp. Binds to Peptidoglycan and to Components of the Type III Secretion System.

Author

Hausner, Jens, Hartmann, Nadine, Lorenz, Christian, and Büttner, Daniela

Subjects

*PROTEINS, *BIOMOLECULES, *XANTHOMONAS, *PSEUDOMONADACEAE, *PEPTIDOGLYCANS, *BACTERIAL cell walls, *MICROBIAL polysaccharides, *ESCHERICHIA

Abstract

The plant-pathogenic bacterium Xanthomonas campestris pv. vesicatoria employs a type III secretion (T3S) system to translocate bacterial effector proteins into eukaryotic host cells. The membrane-spanning secretion apparatus consists of 11 core components and several associated proteins with yet unknown functions. In this study, we analyzed the role of HrpB1, which was previously shown to be essential for T3S and the formation of the extracellular T3S pilus. We provide experimental evidence that HrpB1 localizes to the bacterial periplasm and binds to peptidoglycan, which is in agreement with its predicted structural similarity to the putative peptidoglycan-binding domain of the lytic transglycosylase Slt70 from Escherichia coli. Interaction studies revealed that HrpB1 forms protein complexes and binds to T3S system components, including the inner membrane protein HrcD, the secretin HrcC, the pilus protein HrpE, and the putative inner rod protein HrpB2. The analysis of deletion and point mutant derivatives of HrpB1 led to the identification of amino acid residues that contribute to the interaction of HrpB1 with itself and HrcD and/or to protein function. The finding that HrpB1 and HrpB2 colocalize to the periplasm and both interact with HrcD suggests that they are part of a periplasmic substructure of the T3S system. [ABSTRACT FROM AUTHOR]

Published

2013

15. 16S rRNA Gene Amplicon Sequencing of Microbiota in Polybutylene Succinate Adipate-Packed Denitrification Reactors Used for Water Treatment of Land-Based Recirculating Aquaculture Systems

Author

Jun Ogawa, Miku Nakagawa, Tomoki Kawagishi, Takeshi Yamada, Masako Hamada, Nobukazu Sato, Mari Yasuda, and Akinori Ando

Subjects

0303 health sciences, Denitrification, Burkholderiaceae, biology, Rhodocyclaceae, Chemistry, Xanthomonadaceae, 010501 environmental sciences, Ribosomal RNA, biology.organism_classification, 16S ribosomal RNA, 01 natural sciences, Nocardiaceae, 03 medical and health sciences, Immunology and Microbiology (miscellaneous), Genetics, Amplicon Sequence Collections, Food science, Molecular Biology, 030304 developmental biology, 0105 earth and related environmental sciences, Pseudomonadaceae

Abstract

Information on the microbiota in polybutylene succinate adipate (PBSA)-packed denitrification reactors is limited. Here, we provide 439,817 high-quality reads of the 16S rRNA gene sequences of microbiota in PBSA-packed denitrification reactors used for land-based recirculating aquaculture. The predominant microorganisms belonged to the following families: Nocardiaceae, Chitinophagaceae, Xanthobacteraceae, Burkholderiaceae, Rhodocyclaceae, Pseudomonadaceae, Rhodanobacteraceae, and Xanthomonadaceae.

Published

2019

16. Only One of the Five Ralstonia solanacearum Long-Chain 3-Ketoacyl- Acyl Carrier Protein Synthase Homologues Functions in Fatty Acid Synthesis.

Author

Cheng, Juanli, Ma, Jincheng, Lin, Jinshui, Fan, Zhen-Chuan, Cronan, John E., and Haihong Wang

Subjects

*RALSTONIA solanacearum, *ACYL carrier protein, *FATTY acid synthesis, *BIOSYNTHESIS, *PSEUDOMONADACEAE, *MICROBIOLOGY

Abstract

Ralstonia solanacearum, a major phytopathogenic bacterium, causes a bacterial wilt disease in diverse plants. Although fatty acid analyses of total membranes of R. solanacearum showed that they contain primarily palmitic (C16:0), palmitoleic (C16:1) and cis-vaccenic (C18:1) acids, little is known regarding R. solanacea rum fatty acid synthesis. The R. solanacea rum GMI1000 genome is unusual in that it contains four genes (fabF1, fabp2, fabF3, and fabF4) annotated as encoding 3-ketoacyl-acyl carrier protein synthase II homologues and one gene (fabB) annotated as encoding 3-ketoacyl-acyl carrier protein synthase I. We have analyzed this puzzling apparent redundancy and found that only one of these genes, fabF1, encoded a long-chain 3-ketoacyl-acyl carrier protein synthase, whereas the other homologues did not play roles in R. solanacea rum fatty acid synthesis. Mutant strains lackingfabFl are nonviable, and thus, FabF1 is essential for R. solanacearum fatty acid biosynthesis. Moreover, R. solanacearum FabF1 has the activities of both 3-ketoacyl-acyl carrier protein synthase II and 3-ketoacyl-acyl carrier protein synthase I. [ABSTRACT FROM AUTHOR]

Published

2012

17. Plant- and Microbe-Derived Compounds Affect the Expression of Genes Encoding Antifungal Compounds in a Pseudomonad with Biocontrol Activity.

Author

de Werra, Patrice, Huser, Aurélie, Tabacchi, Raphael, Keel, Christoph, and Maurhofer, Monika

Subjects

*BACTERIAL growth, *BACTERIAL genetics, *MICROBIAL genetics, *PSEUDOMONADACEAE, *GRAM-negative bacteria, *PHYSIOLOGICAL control systems

Abstract

We have investigated the impacts of 63 different low-molecular-weight compounds, most of them plant derived, on the in vitro expression of two antifungal biosynthetic genes by the plant-protecting rhizobacterium Pseudomonas fluorescens CHA0. The majority of the compounds tested affected the expression of one or both antifungal genes. This suggests that biocontrol activity in plant-beneficial pseudomonads is modulated by plant-bacterium signaling. [ABSTRACT FROM AUTHOR]

Published

2011

18. Activation of the SoxR Regulon in Streptomyces coelicolor by the Extracellular Form of the Pigmented Antibiotic Actinorhodin.

Author

Jung-Ho Shin, Singh, Atul K., Dong-Joo Cheon, and Jung-Hye Roe

Subjects

*ENTEROBACTERIACEAE, *TRANSCRIPTION factors, *SUPEROXIDES, *NITRIC oxide, *PSEUDOMONADACEAE, *STREPTOMYCES coelicolor

Abstract

The redox-sensitive transcription factor SoxR in enteric bacteria senses and regulates the cellular response to superoxide and nitric oxide. In other bacterial groups, however, it may respond to redox-active small molecules, as demonstrated for pyocyanin sensing in pseudomonads. The antibiotic-producing soil bacterium Streptomyces coelicolor contains a gene for an SoxR homologue (SCO1697) whose DNA recognition helix is identical to that of Escherichia coli SoxR. Using the E. coli SoxR binding sequence, we predicted five candidate genes of the SoxR regulon and demonstrated that SoxR binds to their promoter regions and activates their expression concurrently with the production of the blue antibiotic actinorhodin (a benzoisochromanequinone). These genes encode a probable NADPH-dependent flavin reductase (SCO2478), an NADPH-dependent qui- none reductase (SCO4266), an ABC transporter (SCO7008), a monooxygenase (SCO 1909), and a hypothetical protein (SCO 1178). Addition of actinorhodin to exponentially growing cells activated the expression of SoxR target genes in an SoxR-dependent manner. The secreted γ-actinorhodin was over 10-fold more effective in activation than the intracellular form of actinorhodin, suggesting that SoxR is specified to respond more to exogenous signals than to intracellular metabolites. The ΓsoxR mutant was not compromised in resistance against oxidants but was slow in forming aerial mycelium on R2YE medium with reduced sporulation, and its production of actinorhodin and undecylprodigiosin was lowered by about 50% and 30%, respectively, compared to that of the wild type. These results support the proposal that SoxR senses redox-active molecules, such as actinorhodin in S. coelicolor, and induces a protective function against them. It also functions to ensure that cells undergo optimal differentiation and secondary metabolite production. [ABSTRACT FROM AUTHOR]

Published

2011

19. Interplay between Wheat Cultivars, Biocontrol Pseudomonads, and Soil.

Author

Meyer, Joana Beatrice, Lutz, Matthias Peter, Frapolli, Michele, Péchy-Tarr, Maria, Rochat, Laurène, Keel, Christoph, Défago, Geneviève, and Maurhofer, Monika

Subjects

*CULTIVARS, *PSEUDOMONADACEAE, *GRAM-negative bacteria, *GEL electrophoresis, *ELECTROPHORESIS, *SOIL biology, WHEAT genetics

Abstract

There is a significant potential to improve the plant-beneficial effects of root-colonizing pseudomonads by breeding wheat genotypes with a greater capacity to sustain interactions with these bacteria. However, the interaction between pseudomonads and crop plants at the cultivar level, as well as the conditions which favor the accumulation of beneficial microorganisms in the wheat rhizosphere, is largely unknown. Therefore, we characterized the three Swiss winter wheat (Triticum aestivum) cultivars Anna, Zinal, and Cimetta for their ability to accumulate naturally occurring plant-beneficial pseudomonads in the rhizosphere. Cultivar performance was measured also by the ability to select for specific genotypes of 2,4-diacetylphloroglucinol (DAPG) producers in two different soils. Cultivar-specific differences were found; however, these were strongly influ- enced by the soil type. Denaturing gradient gel electrophoresis (DGGE) analysis of fragments of the DAPG biosynthetic gene phlD amplified from natural Pseudomonas rhizosphere populations revealed that phlD diversity substantially varied between the two soils and that there was a cultivar-specific accumulation of certain phlD genotypes in one soil but not in the other. Furthermore, the three cultivars were tested for their ability to benefit from Pseudomonas inoculants. Interestingly, Anna, which was best protected against Pythium ultimum infection by inoculation with Pseudomonas fluorescens biocontrol strain CHA0, was the cultivar which profited the least from the bacterial inoculant in terms of plant growth promotion in the absence of the pathogen. Knowledge gained of the interactions between wheat cultivars, beneficial pseudomonads, and soil types allows us to optimize cultivar-soil combinations for the promotion of growth through beneficial pseudomonads. Additionally, this information can be implemented by breeders into a new and unique breeding strategy for low-input and organic conditions. [ABSTRACT FROM AUTHOR]

Published

2010

20. Selected Pseudomonas putida Strains Able To Grow in the Presence of High Butanol Concentrations.

Author

Rühl, Jana, Schmid, Andreas, and Blank, Lars Mathias

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *GRAM-negative bacteria, *BUTANOL, *ALCOHOLS (Chemical class), *ORGANIC solvents, *ORGANIC compounds

Abstract

Adapted Pseudomonas putida strains grew in the presence of up to 6% (vol/vol) butanol, the highest reported butanol concentration tolerated by a microbe. P. putida might be an alternative host for biobutanol production, overcoming the primary limitation of currently used strains—insufficient product titers due to low butanol tolerance. [ABSTRACT FROM AUTHOR]

Published

2009

21. Effect of pH and Temperature on Denitrification Gene Expression and Activity in Pseudomonas mandelii.

Author

Saleh-Lakha, Saleema, Shannon, Kelly E., Henderson, Sherri L., Goyer, Claudia, Trevors, Jack T., Zebarth, Bernie J., and Burton, David L.

Subjects

*PSEUDOMONAS aeruginosa infections, *PSEUDOMONAS, *PSEUDOMONADACEAE, *PSEUDOMONAS saccharophila, *PSEUDOMONAS tolaasii, *NITROGEN oxides, *NITROUS oxide, *DENITRIFICATION, *CHEMICAL reduction, *DENITRIFYING bacteria

Abstract

Pseudomonas mandelii liquid cultures were studied to determine the effect of pH and temperature on denitrification gene expression, which was quantified by quantitative reverse transcription-PCR. Denitrification was measured by the accumulation of nitrous oxide (N2O) in the headspace in the presence of acetylene. Levels of gene expression of nirS and cnorB at pH 5 were 539-fold and 6,190-fold lower, respectively, than the levels of gene expression for cells grown at pH 6, 7, and 8 between 4 h and 8 h. Cumulative denitrification levels were 28 μmol, 63 μmol, and 22 μmol at pH 6, 7, and 8, respectively, at 8 h, whereas negligible denitrification was measured at pH 5. P. mandelii cells grown at 20°C and 30°C exhibited 9-fold and 94-fold increases in levels of cnorB expression between 0 h and 2 h, respectively, and an average 17-fold increase in levels of nirS gene expression. In contrast, induction of cnorB and nirS gene expression for P. mandelii cells grown at 10°C did not occur in the first 4 h. Levels of cumulative denitrification at 10 h were 6.6 μmol for P. mandelii cells grown at 10°C and 20°C and 30 μmol for cells grown at 30°C. Overall, levels of cnorB and nirS expression were relatively insensitive to pH values over the range of pH 6 to 8 but were substantially reduced at pH 5, whereas gene expression was sensitive to temperature, with induction and time to achieve maximum gene expression delayed as the temperature decreased from 30°C. Low pH and temperature negatively affected denitrification activity. [ABSTRACT FROM AUTHOR]

Published

2009

22. Requirement of Polyphosphate by Pseudomonas fluorescens Pf0-1 for Competitive Fitness and Heat Tolerance in Laboratory Media and Sterile Soil.

Author

Silby, Mark W., Nicoll, Julie S., and Levy, Stuart B.

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *PSEUDOMONAS saccharophila, *PSEUDOMONAS tolaasii, *INDUSTRIAL productivity, *PRODUCTION (Economic theory), *FUNGUS-bacterium relationships, *LOCUS (Genetics), *NUCLEIC acids

Abstract

Knowledge of the genetic basis for bacterial survival and persistence in soil is a critical component in the development of successful biological control strategies and for understanding the ecological success of bacteria. We found a locus specifying polyphosphate kinase (ppk) and a nonpredicted antisense RNA (iiv8) in Pseudomonasfluorescens Pf0-1 to be necessary for optimal competitive fitness in LB broth culture and sterile loam soil. Pf0-1 lacking ppk and iiv8 was more than 10-fold less competitive against wild-type Pf0-1 in sterile loam soil low in inorganic phosphate. Studies indicated that ppk, and not iiv8, was required for competitive fitness. No role for iiv8 was identified. While a ppk and iiv8 mutant of Pf0-1 did not have increased sensitivity to osmotic, oxidative, and acid stress, it was more sensitive to elevated temperatures in laboratory medium and during growth in sterile soil. ppk was shown to be part of the Pho regulon in P. fluorescens, being upregulated in response to a low external Pi concentration, Of importance, overproduction of polyphosphate in the soil environment appears to be more deleterious than production of none at all. Our findings reveal a new role for polyphosphate (and the need for proper regulation of its production) in competitive fitness of P. fluorescens in laboratory and soil environments. [ABSTRACT FROM AUTHOR]

Published

2009

23. An Aeromonas caviae Genomic Island Is Required for both O-Antigen Lipopolysaccharide Biosynthesis and Flagellin Glycosylation.

Author

Mohammed B.^Tabei, S., Hitchen, Paul G., Day-Williams, Michaela J., Merino, Susana, Vart, Richard, Poh-Choo Pang, Horsburgh, Gavin J., Viches, Silvia, Wilhelms, Markus, Tomás, Juan M., Dell, Anne, and Shaw, Jonathan G.

Subjects

*AEROMONAS, *PSEUDOMONADACEAE, *BIOSYNTHESIS, *BIOCHEMISTRY, *BIOMOLECULES, *GLYCOSYLATION, *ESTERIFICATION, *CAMPYLOBACTER, *FOODBORNE diseases

Abstract

Aeromonas caviae Sch3N possesses a small genomic island that is involved in both flagellin glycosylation and lipopolysaccharide (LPS) O-antigen biosynthesis. This island appears to have been laterally acquired as it is flanked by insertion element-like sequences and has a much lower G+C content than the average aeromonad G+C content. Most of the gene products encoded by the island are orthologues of proteins that have been shown to be involved in pseudaminic acid biosynthesis and flagellin glycosylation in both Campylobacter jejuni and Helicobacter pylori. Two of the genes, lst and lsg, are LPS specific as mutation of them results in the loss of only a band for the LPS O-antigen. Lsg encodes a putative Wzx flippase, and mutation of Lsg affects only LPS; this finding supports the notion that flagellin glycosylation occurs within the cell before the flagellins are exported and assembled and not at the surface once the sugar has been exported. The proteins encoded by flmA, flmB, neuA, flmD, and neuB are thought to make up a pseudaminic acid biosynthetic pathway, and mutation of any of these genes resulted in the loss of motility, flagellar expression, and a band for the LPS O-antigen. Furthermore, pseudaminic acid was shown to be present on both flagellin subunits that make up the polar flagellum filament, to be present in the LPS O-antigen of the A. caviae wild-type strain, and to be absent from the A. caviae flmD mutant strain. [ABSTRACT FROM AUTHOR]

Published

2009

24. Biphenyl Dioxygenase from an Arctic Isolate Is Not Cold Adapted.

Author

Master, Emma R., Agar, Nathalie Y. R., Gómez-Gil, Leticia, Powlowski, Justin B., Mohn, William W., and Eltis, Lindsay D.

Subjects

*OXYGENASES, *PSEUDOMONAS, *BACTERIA, *BIPHENYL compounds, *COLD adaptation, *PSEUDOMONADACEAE

Abstract

Biphenyl dioxygenase from the psychrotolerant bacterium Pseudomonas sp. strain Cam-1 (BPDOCam-1) was purified and found to have an apparent kcat for biphenyl of 1.1 ± 0.1 s-1 (mean ± standard deviation) at 4°C. In contrast, BPDOLB400 from the mesophile Burkholderia xenovorans LB400 had no detectable activity at this temperature. At 57°C, the half-life of the BPDOCam-1 oxygenase was less than half that of the BPDOLB400 oxygenase. Nevertheless, BPDOCam-1 appears to be a typical Pseudomonas pseudoalcaligenes KF707-type dioxygenase. [ABSTRACT FROM AUTHOR]

Published

2008

25. High-Yield Production of Secreted Active Proteins by the Pseudomonas aeruginosa Type III Secretion System.

Author

Derouazi, M., Toussaint, B., Quénée, L., Epaulard, O., Guillaume, M., Marlu, R., and Polack, B.

Subjects

*PSEUDOMONAS aeruginosa, *ESCHERICHIA coli, *RECOMBINANT proteins, *RECOMBINANT molecules, *ENTEROBACTERIACEAE, *PSEUDOMONAS, *PSEUDOMONADACEAE

Abstract

The Escherichia coli system is the system of choice for recombinant protein production because it is possible to obtain a high protein yield in inexpensive media. The accumulation of protein in an insoluble form in inclusion bodies remains a major disadvantage. Use of the Pseudomonas aeruginosa type Ill secretion system can avoid this problem, allowing the production of soluble secreted proteins. [ABSTRACT FROM AUTHOR]

Published

2008

26. A Novel Gene, Encoding 6-Hydroxy-3-Succinoylpyridine Hydroxylase, Involved in Nicotine Degradation by Pseudomonas putida Strain S16.

Author

Hongzhi Tang, Shuning Wang, Lanying Ma, Xiangzhou Meng, Zixin Deng, Dake Zhang, Cuiqing Ma, and Ping Xu

Subjects

*PYRIDINE, *PYRROLIDINE, *NICOTINE, *TOBACCO, *ALKALOIDS, *PSEUDOMONAS, *PSEUDOMONADACEAE, *NUCLEOTIDE sequence, *METABOLISM

Abstract

Previous research suggested that Pseudoinonas spp. may attack the pyrrolidine ring of nicotine in a way similar to mammalian metabolism, resulting in the formation of pseudooxynicotine, the direct precursor of a potent tobacco-specific lung carcinogen. In addition, the subsequent intermediates, 6-hydroxy-3-succinoylpyri- dine (HSP) and 2,5-dihydroxypyridine (DHP) in the Pseudoinonas nicotine degradation pathway are two important precursors for drug syntheses. However, there is little information on the molecular mechanism for nicotine degradation via the pyrrolidine pathway until now. In this study we cloned and sequenced a 4,879-bp gene cluster involved in nicotine degradation. Intermediates N-methylmyosmine, pseudooxynicotine, 3-succinoylpyridine, HSP, and DHP were identified from resting cell reactions of the transformant containing the gene cluster and shown to be identical to those of the pyrrolidine pathway reported in wild-type strain Pseudoinonas putida S16. The gene for 6-hydroxy-3-succinoylpyridine hydroxylase (HSP hydroxylase) catalyzing HSP directly to DHP was cloned, sequenced, and expressed in Eschericlzia coli, and the purified HSP hydroxylase (38 kDa) is NADH dependent. DNA sequence analysis of this 936-bp fragment reveals that the deduced amino acid shows no similarity with any protein of known function. [ABSTRACT FROM AUTHOR]

Published

2008

27. Discovery of a Novel Styrene Monooxygenase Originating from the Metagenome.

Author

van Hellemond, Erik W., Janssen, Dick B., and Fraaije, Marco W.

Subjects

*MONOOXYGENASES, *STYRENE, *GENOMES, *GENOMICS, *MICROBIAL genomes, *ESCHERICHIA coli, *OXYGENASES, *PSEUDOMONADACEAE, *NUCLEOTIDE sequence

Abstract

Oxygenases form an interesting class of biocatalysts, as they typically perform oxygenations with exquisite chemo-, regio-, and/or enantioselectivity. It has been observed that, once heterologously expressed in Escherichia coli, some oxygenases are able to form the blue pigment indigo. We have exploited this characteristic to screen a metagenomic library derived from loam soil and identified a novel oxygenase. This oxygenase shows 50% sequence identity with styrene monooxygenases from pseudomonads (StyA). Only a limited number of homologs can be found in the genome sequence database, indicating that this biocatalyst is a member of a relatively small family of bacterial monooxygenases. The newly identified monooxygenase catalyzes the epoxidation of styrene and styrene derivatives and forms the corresponding (S)-epoxides with excellent enantiomeric excess [e.g., (S)-styrene oxide is formed with >99% enantiomeric excess, ee] and therefore is named styrene monooxgenase subunit A (SmoA). SmoA shows high enantioselectivity towards aromatic sulfides [e.g., (R). ethyl phenyl sulfoxide is formed with 92% eel. This excellent enantioselectivity in combination with the moderate sequence identity forms a clear indication that SmoA from a metagenomic origin represents a new enzyme within the small family of styrene monooxygenases. [ABSTRACT FROM AUTHOR]

Published

2007

28. Substrate Specificity-Conferring Regions of the Nonribosomal Peptide Synthetase Adenylation Domains Involved in Albicidin Pathotoxin Biosynthesis Are Highly Conserved within the Species Xanthomonas albilineans.

Author

Renier, Adeline, Vivien, Eric, Cociancich, Stéphane, Letourmy, Philippe, Perrier, Xavier, Rott, Philippe C., and Royer, Monique

Subjects

*XANTHOMONAS albilineans, *XANTHOMONAS diseases, *PSEUDOMONADACEAE, *GENETIC polymorphisms, *PEPTIDES, *NUCLEOTIDE sequence, *NUCLEIC acid analysis, *AMINO acid sequence, *SULFATES

Abstract

Albicidin is a pathotoxin produced by Xanthomonas albilineans, a xylem-invading pathogen that causes leaf scald disease of sugarcane. Albicidin is synthesized by a nonribosomal pathway via modular polyketide synthase and nonribosomal peptide synthetase (NRPS) megasynthases, and NRPS adenylation (A) domains are responsible for the recognition and activation of specific amino acid substrates. DNA fragments (0.5 kb) encoding the regions responsible for the substrate specificities of six albicidin NRPS A domains from 16 strains of X. albilineans representing the known diversity of this pathogen were amplified and sequenced. Polymorphism analysis of these DNA fragments at different levels (DNA, protein, and NRPS signature) showed that these pathogenicity loci were highly conserved. The conservation of these loci most likely reflects purifying selective pressure, as revealed by a comparison with the variability of nucleotide and amino acid sequences of two housekeeping genes (atpD and efp) of X. albilineans. Nevertheless, the 16 strains of X. albilineans were differentiated into several groups by a phylogenetic analysis of the nucleotide sequences corresponding to the NRPS A domains. One of these groups was representative of the genetic diversity previously found within the pathogen by random fragment length polymorphism and amplified fragment length polymorphism analyses. This group, which differed by three single synonymous nucleotide mutations, contained only four strains of X. albilineans that were all involved in outbreaks of sugarcane leaf scald. The amount of albicidin produced in vitro in agar and liquid media varied among the 16 strains of X. albilineans. However, no relationship among the amount of albicidin produced in vitro and the pathotypes and genetic diversity of the pathogen was found. The NRPS loci contributing to the synthesis of the primary structure of albicidin apparently are not involved in the observed pathogenicity differences among strains of X. albilineans. [ABSTRACT FROM AUTHOR]

Published

2007

29. Quantification of 2,4-Diacetylphloroglucinol-Producing Pseudomonas fluorescens Strains in the Plant Rhizosphere by Real-Time PCR.

Author

Mavrodi, Olga V., Mavrodi, Dmitri V., Thomashow, Linda S., and Welier, David M.

Subjects

*PSEUDOMONAS fluorescens, *GENETIC polymorphisms, *RHIZOSPHERE, *DEOXYRIBOSE, *GENETICS, *PSEUDOMONAS, *NUCLEIC acids, *PSEUDOMONADACEAE, *MUPIROCIN

Abstract

A real-time PCR SYBR green assay was developed to quantify populations of 2,4-diacetylphloroglucinol (2,4-DAPG)-producing (phlD+) strains of Pseudomonas fluorescens in soil and the rhizosphere. Primers were designed and PCR conditions were optimized to specifically amplify the phiD gene from four different genotypes of phlD+ P.fluorescens. Using purified genomic DNA and genomic DNA extracted from washes of wheat roots spiked with bacteria, standard curves relating the threshold cycles (CTs) and copies of the phlD gene were generated for P. fluorescens strains belonging to genotypes A (Pf-5), B (Q2-87), D (Q8r1-96 and FTAD1R34), and I (FTAD1R36). The detection limits of the optimized real-time PCR assay were 60 to 600 fg (8 to 80 CFU) for genomic DNA isolated from pure cultures of P. fluorescens and 600 fg to 6.0 pg (80 to 800 CFU, corresponding to log 4 to 5phlD+ strain CFU/rhizosphere) for bacterial DNA extracted from plant root washes. The real-time PCR assay was utilized to quantify phID+ pseudomonads in the wheat rhizosphere. Regression analysis of population densities detected by real-time PCR and by a previously described phID-specific PCR-based dilution endpoint assay indicated a significant linear relationship (P = 0.0016, r2 = 0.2). Validation of real-time PCR assays with environmental samples was performed with two different soils and demonstrated the detection of more than one genotype in Quincy take-all decline soil. The greatest advantage of the developed real-time PCR is culture independence, which allows determination of population densities and the genotype composition of 2,4-DAPG producers directly from the plant rhizospheres and soil. [ABSTRACT FROM AUTHOR]

Published

2007

30. Identification of Anaerobic Selenate-Respiring Bacteria from Aquatic Sediments.

Author

Narasingarao, Priya and Häggblom, Max M.

Subjects

*ANAEROBIC bacteria, *AEROMONADACEAE, *SELENIUM, *BIOTRANSFORMATION (Metabolism), *METABOLISM, *PSEUDOMONADACEAE, *GRAM-negative bacteria

Abstract

The diversity population of microorganisms with the capability to use selenate as a terminal electron acceptor, reducing it to selenite and elemental selenium by the process known as dissimilatory selenate reduction, is largely unknown. The overall objective of this study was to gain an in-depth understanding of anaerobic biotransformation of selenium in the environment, particularly anaerobic respiration, and to characterize the microorganisms catalyzing this process. Here, we demonstrate the isolation and characterization of four novel anaerobic dissimilatory selenate-respiring bacteria enriched from a variety of sources, including sediments from three different water bodies in Chennai, India, and a tidal estuary in New Jersey. Strains S5 and S7 from India, strain KM from the Meadowlands, NJ, and strain pn1, categorized as a laboratory contaminant, were all phylogenetically distinct, belonging to various phyla in the bacterial domain. The 16S rRNA gene sequence shows that strain S5 constitutes a new genus belonging to Chrysiogenetes, while strain S7 belongs to the Deferribacteres, with greater than 98% 16S rRNA gene similarity to Geovibrio ferrireducens. Strain KM is related to Malonomonas rubra, Pelobacter acidigallici, and Desulfurornusa spp., with 96 to 97% 16S rRNA gene similarity. Strain pn1 is 99% similar to Pseudomonas stutzeri. Strains S5, S7, and KM are obligately anaerobic selenate-respiring microorganisms, while strain pn1 is facultatively anaerobic. Besides respiring selenate, all these strains also respire nitrate. [ABSTRACT FROM AUTHOR]

Published

2007

31. Bacterial Degradation of N,N-Diethyl-m-Toluamide (DEET): Cloning and Heterologous Expression of DEET Hydrolase.

Author

Rivera-Cancel, Giomar, Bocioaga, Daniela, and Hay, Anthony G.

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *HYDROLASES, *ENZYMES, *CARBON, *DIETHYLAMINE

Abstract

Pseudomonas putida DTB grew aerobically with N,N-diethyl-m-toluamide (DEET) as a sole carbon source, initially breaking it down into 3-methylbenzoate and diethylamine. The former was further metabolized via 3-methylcatechol and meta ring cleavage. A gene from DTB, dthA, was heterologously expressed and shown to encode the ability to hydrolyze DEET into 3-methylbenzoate and diethylamine. [ABSTRACT FROM AUTHOR]

Published

2007

32. Simultaneous Detection of Pseudomonas fragi, P. lundensis, and P. putida from Meat by Use of a Multiplex PCR Assay Targeting the carA Gene.

Author

Ercolini, Danilo, Russo, Federica, Blaiotta, Giuseppe, Pepe, Olimpia, Mauriello, Gianluigi, and Villani, Francesco

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *MICROBIOLOGICAL assay, *MICROORGANISMS, *BACTERIAL ecology, *EXTREMOZYMES, *MICROBIOLOGY of extreme environments, *MICROBIAL ecology, *MICROBIOLOGY

Abstract

Species-specific primers and a multiplex PCR assay were developed for the simultaneous identification and differentiation of Pseudomonas fragi, P. lundensis, and P. putida based on the coamplification of different portions of the small subunit of the carbamoyl phosphate synthase gene (carA). The carA multiplex PCR was used to detect the presence of the three Pseudomonas species from beef, chicken, and pork samples and proved to be effective in showing their evolution during the storage of meat. [ABSTRACT FROM AUTHOR]

Published

2007

33. Improved Fluorescent In Situ Hybridization Method for Detection of Bacteria from Activated Sludge and River Water by Using DNA Molecular Beacons and Flow Cytometry.

Author

Lenaerts, Jeremy, Lappin-Scott, Hilary M., and Porter, Jonathan

Subjects

*FLUORESCENCE in situ hybridization, *FLUORESCENCE microscopy, *PSEUDOMONAS, *PSEUDOMONADACEAE, *GRAM-negative bacteria, *DNA, *NUCLEIC acids, *FLOW cytometry, *MICROBIAL ecology

Abstract

Fluorescent in situ hybridization (FISH) remains a key technique in microbial ecology. Molecular beacons (MBs) are self-reporting probes that have potential advantages over linear probes for FISH. MB-FISH strategies have been described using both DNA-based and peptide nucleic acid (PNA)-based approaches. Although recent reports have suggested that PNA MBs are superior, DNA MBs have some advantages, most notably cost. The data presented here demonstrate that DNA MBs are suitable for at least some FISH applications in complex samples, providing superior discriminatory power compared to that of corresponding linear DNA-FISH probes. The use of DNA MBs for flow cytometric detection of Pseudomonas putida resulted in approximately double the signal-to-noise ratio of standard linear DNA probes when using laboratory-grown cultures and yielded improved discrimination of target cells in spiked environmental samples, without a need for separate washing steps. DNA MBs were also effective for the detection and cell sorting of both spiked and indigenous P. putida from activated sludge and river water samples. The use of DNA MB-FISH presents another increase in sensitivity, allowing the detection of bacteria in environmental samples without the expense of PNA MBs or multilaser flow cytometry. [ABSTRACT FROM AUTHOR]

Published

2007

34. Erythromycin Resistance-Conferring Plasmid pRSB1905, Isolated from a Sewage Treatment Plant, Harbors a New Macrolide Resistance Determinant, an Integron-Containing Tn402-Like Element, and a Large Region of Unknown Function.

Author

Schlüter, A., Szczepanowski, R., Kurz, N., Schneiker, S., Krahn, I., and Pühler, A.

Subjects

*PLASMIDS, *GENETIC vectors, *PSEUDOMONADACEAE, *PSEUDOMONAS aeruginosa, *GRAM-negative bacteria, *SEWAGE disposal plants, *ERYTHROMYCIN, *ANTIBACTERIAL agents, *PHOSPHOTRANSFERASES

Abstract

The erythromycin resistance plasmid pRSB105 was previously isolated from an activated sludge bacterial community of a municipal wastewater treatment plant. Compilation of the complete pRSB105 nucleotide sequence revealed that the plasmid is 57,137 bp in size and has a mean G+C content of 56.66 mol%. The pRSB105 backbone is composed of two different replication and/or partitioning modules and a functional mobilization region encoding the mobilization genes mobCDE and mobBA. The first replicon (Rep1) is nearly identical to the corresponding replication module of the multiresistance plasmid pRSB101 isolated from an unknown activated sludge bacterium. Accordingly, pRSB101 and pRSB105 are sister plasmids belonging to a new plasmid family. The second replicon (Rep2) of pRSB105 was classified as a member of the IncP-6 group. While Rep1 confers replication ability only in γ-proteobacteria, Rep2 extents the host range of the plasmid since it is also functional in the β-proteobacterium Ralstonia eutropha. Plasmid pRSB105 harbors the macrolide resistance genes mel and mph, encoding, respectively, a predicted ABC-type efflux permease and a macrolide-2′-phosphotransferase. Erythromycin resistance is mainly attributed to mel, whereas mph contributes to erythromycin resistance to a lesser extent. The second resistance region, represented by an integron-containing Tn402-like element, includes a β-lactam (oxa10) and a trimethoprim (dfrB2) resistance gene cassette. In addition to antibiotic resistance modules, pRSB105 encodes a functional restriction/modification system and two nonresistance regions of unknown function. The presence of different mobile genetic elements that flank resistance and nonresistance modules on pRSB105 indicates that these elements were involved in acquisition of accessory plasmid modules. Comparative genomics of pRSB105 and related plasmids elucidated that pRSB105 evolved by integration of distinct modules from different plasmid sources, including Pseudomonas aeruginosa plasmids, and thus represents a mosaic plasmid. [ABSTRACT FROM AUTHOR]

Published

2007

35. Characterization of ISXax1, a Novel Insertion Sequence Restricted to Xanthomonas axonopodis pv. phaseoli (Variants fuscans and non-fuscans) and Xanthomonas axonopodis pv. vesicatoria.

Author

Alavi, Seyed Mehdi, Poussier, Stéphane, and Manceau, Charles

Subjects

*POLYMORPHISM (Zoology), *ANIMAL variation, *AXONOPUS, *XANTHOMONAS, *PSEUDOMONADACEAE, *MICROBIAL ecology, *MICROBIOLOGY, *BACTERIAL ecology, *VIRAL ecology, *ECOLOGY

Abstract

ISXax1 is a novel insertion sequence belonging to the IS256 and Mutator families. Dot blot, Southern blot, and PCR analyses revealed that ISXax1 is restricted to Xanthomonas axonopodis pv. phaseoli (variants fuscans and non-fuscans) and X. axonopodis pv. vesicatoria strains. Directed AFLP also showed that a high degree of polymorphism is associated with ISXax1 insertion in these strains. [ABSTRACT FROM AUTHOR]

Published

2007

36. In Planta Horizontal Transfer of a Major Pathogenicity Effector Gene.

Author

El Yacoubi, B., Brunings, A. M., Yuan, Q., Shankar, S., and Gabriel, D. W.

Subjects

*XANTHOMONAS, *PSEUDOMONADACEAE, *XANTHOMONAS albilineans, *COMPLEMENTATION (Genetics), *ENVIRONMENTAL management, *ENVIRONMENTAL protection, *ENVIRONMENTAL sciences, *EARTH sciences, *MICROBIAL ecology

Abstract

Xanthomonas cirri pv. citri is a clonal group of strains that causes citrus canker disease and appears to have originated in Asia. A phylogenetically distinct clonal group that causes identical disease symptoms on susceptible citrus, X. citri pv, aurantifolii, arose more recently in South America. Genomes of X. citri pv, aurantifolii strains carry two DNA fragments that hybridize to pthA, an X. citri pv, citri gene which encodes a major type HI pathogenicity effector protein that is absolutely required to cause citrus canker. Marker interruption mutagenesis and complementation revealed that X. citri pv, aurantifolii strain B69 carried one functional pthA homolog, designated pthB, that was required to cause cankers on citrus. Gene pthB was found among 38 open reading frames on a 37,106-bp plasmid, designated pXcB, which was sequenced and annotated. No additional pathogenicity effectors were found on pXcB, but 11 out of 38 open reading frames appeared to encode a type IV transfer system, pXcB transferred horizontally in planta, without added selection, from B69 to a nonpathogenic X. citri pv, citri (pthA::Tn5) mutant strain, fully restoring canker. In planta transfer efficiencies were very high (>0.1%/recipient) and equivalent to those observed for agar medium with antibiotic selection, indicating that pthB conferred a strong selective advantage to the recipient strain. A single pathogenicity effector that can confer a distinct selective advantage in planta may both facilitate plasmid survival following horizontal gene transfer and account for the origination of phylogenetically distinct groups of strains causing identical disease symptoms. [ABSTRACT FROM AUTHOR]

Published

2007

37. Vulnerability of Pathogenic Biofilms to Micavibrio aeruginosavorus.

Author

Kadouri, Daniel, Venzon, Nel C., and O'Toole, George A.

Subjects

*BIOFILMS, *MICROBIAL aggregation, *PSEUDOMONAS aeruginosa, *PSEUDOMONADACEAE, *GRAM-negative bacteria, *SCANNING electron microscopy, *CELL communication, *CELLULAR control mechanisms, *MICROBIOLOGY

Abstract

The host specificity of the gram-negative exoparasitic predatory bacterium Micavibrio aeruginosavorus was examined. M. aeruginosavorus preyed on Pseudomonas aeruginosa, as previously reported, as well as Burkhoideria cepacia, Klebsiella pneumoniae, and numerous clinical isolates of these species. In a static assay, a reduction in biofilm biomass was observed as early as 3 hours after exposure to M. aeruginosavorus, and an ∼100-fold reduction in biofilm cell viability was detected following a 24-h exposure to the predator. We observed that an initial titer of Micavibrio as low as 10 PFU/well or a time of exposure to the predator as short as 30 min was sufficient to reduce a P. aeruginosa biofilm. The ability of Micavibrio to reduce an existing biofilm was confirmed by scanning electron microscopy. In static and flow cell experiments, M. aeruginosavorus was able to modify the overall P. aeruginosa biofilm structure and markedly decreased the viability of P. aeruginosa. The altered biofilm structure was likely caused by an increase in ceil-cell interactions brought about by the presence of the predator or active predation. We also conducted a screen to identify genes important for P. aeruginosa. Micavibrio interaction, but no candidates were isolated among the ∼10,000 mutants tested. [ABSTRACT FROM AUTHOR]

Published

2007

38. Biochemical and Molecular Characterization of Tetracycline-Resistant Aeromonas veronii Isolates from Catfish.

Author

Nawaz, Mohamed, Kidon Sung, Khan, Saeed A., Khan, Ashraf A., and Steele, Roger

Subjects

*AEROMONAS, *PSEUDOMONADACEAE, *BIOCHEMICAL engineering, *CATFISH fisheries, *TETRACYCLINE, *ANTIBACTERIAL agents, *MORPHOLOGY, *POLYMORPHISM (Zoology), *ANIMAL variation

Abstract

Eighty-one tetracycline-resistant Aeromonas sp. strains were isolated from farm-raised catfish. Morphological and biochemical characteristics indicated that 23 of the 81 aeromonads were Aeromonas hydrophila, 7 isolates were Aeromonas trota, 6 isolates were Aeromonas caviae, 42 isolates were Aeromonas veronii, and 3 isolates were Aeromonas jandaei. However, the AluI and MboI restriction fragment length polymorphism (RFLP) patterns of the PCR-amplified 1.4-kb 16S rRNA gene from all 81 tetracycline-resistant aeromonads from catfish were identical to the RFLP banding patterns of A. veronii ATCC 35626, indicating that all 81 isolates were strains of A. veronii. A multiplex PCR assay successfully amplified the 5 tetracycline-resistant genes (tetA to E) from the genomic DNA of all 81 isolates. The assay determined that tetE was the dominant gene occurring in 73/81 (90.0%) of the aeromonads. Plasmids (2.0 to 20 kb) were isolated from 33 of the 81 isolates. Dendrogram analysis of the SpeI pulsed-field gel electrophoresis identified 15 distinct macrorestriction patterns among the isolates. Our results indicate the need for use of 16S rRNA in the identification of Aeromonas spp. and the prevalence of catfish as a reservoir of tet genes. [ABSTRACT FROM AUTHOR]

Published

2006

39. Bacteria Associated with Mucus and Tissues of the Coral Oculina patagonica in Summer and Winter.

Author

Koren, Omry and Rosenberg, Eugene

Subjects

*BACTERIA, *MUCUS, *TISSUES, *CORALS, *RIBONUCLEASES, *PSEUDOMONAS, *PSEUDOMONADACEAE, *MICROBIAL ecology

Abstract

The relative abundance of bacteria in the mucus and crushed tissue of the Mediterranean coral Oculina patagonica was determined by analyses of the 16S rRNA genes of isolated colonies and from a 16S rRNA clone library of extracted DNA. By SYBR gold staining, the numbers of bacteria in mucus and tissue samples were 6.2 × 107 and 8.3 × 108/cm² of coral surface, respectively, 99.8% of which failed to produce colonies on Marine Agar. From analysis of mucus DNA, the most-abundant bacterium was Vibrio splendidus, representing 68% and 50% of the clones from the winter and summer, respectively. After removal of mucus from coral by centrifugation, analyses of DNA from the crushed tissue revealed a large diversity of bacteria, with Vibrio species representing less than 5% of the clones. The most-abundant culturable bacteria were a Pseudomonas sp. (8 to 14%) and two different α-proteobacteria (6 to 18%). Out of a total 1,088 16S rRNA genes sequenced, 400 different operational taxonomic units were identified (>99.5% identity). Of these, 295 were novel (<99% identical to any sequences in the GenBank database). This study provides a comprehensive database for future examinations of changes in the bacterial community during bleaching events. [ABSTRACT FROM AUTHOR]

Published

2006

40. Pseudomonad Cyclopentadecanone Monooxygenase Displaying an Uncommon Spectrum of Baeyer-Villiger Oxidations of Cyclic Ketones.

Author

Iwaki, Hiroaki, Shaozhao Wang, Grosse, Stephan, Bergeron, Hélëne, Nagahashi, Ayako, Lertvorachon, Jittiwud, Jianzhong Yang, Konishi, Yasuo, Hasegawa, Yoshie, and Lau, Peter C. K.

Subjects

*PSEUDOMONADACEAE, *MONOOXYGENASES, *ORGANIC synthesis, *CYCLIC compounds, *OXYGENASES, *OXIDATION, *KETONES, *ENZYMES, *CATALYSIS

Abstract

Baeyer-Villiger monooxygenases (BVMOs) are biocatalysts that offer the prospect of high chemo-, regio-, and enantioselectivity in the organic synthesis of lactones or esters from a variety of ketones. In this study, we have cloned, sequenced, and overexpressed in Escherichia coli a new BVMO, cyclopentadecanone monooxygenase (CpdB or CPDMO), originally derived from Pseudomonas sp. strain HI-70. The 601-residue primary structure of CpdB revealed only 29% to 50% sequence identity to those of known BVMOs. A new sequence motif, characterized by a cluster of charged residues, was identified in a subset of BVMO sequences that contain an N-terminal extension of ∼60 to 147 amino acids. The 64-kDa CPDMO enzyme was purified to apparent homogeneity, providing a specific activity of 3.94 μmol/min/mg protein and a 20% yield. CPDMO is monomeric and NADPH dependent and contains ∼1 mol flavin adenine dinucleotide per mole of protein. A deletion mutant suggested the importance of the N-terminal 54 amino acids to CPDMO activity. In addition, a Ser261Ala substitution in a Rossmann fold motif resulted in an improved stability and increased affinity of the enzyme towards NADPH compared to the wild-type enzyme (Km = 8 μM versus Km = 24 μM). Substrate profiling indicated that CPDMO is unusual among known BVMOs in being able to accommodate and oxidize both large and small ring substrates that include C11 to C15 ketones, methyl-substituted C5 and C6 ketones, and bicyclic ketones, such as decalone and β-tetralone. CPDMO has the highest affinity (Km = 5.8 μM) and the highest catalytic efficiency (kcat/Km ratio of 7.2 × 105 M-1 s-1) toward cyclopentadecanone, hence the Cpd designation. A number of whole-cell biotransformations were carried out, and as a result, CPDMO was found to have an excellent enantioselectivity (E > 200) as well as 99% S-selectivity toward 2-methylcyclohexanone for the production of 7-methyl-2-oxepanone, a potentially valuable chiral building block. Although showing a modest selectivity (E = 5.8), macrolactone formation of 15-hexadecanolide from the kinetic resolution of 2-methylcyclopentadecanone using CPDMO was also demonstrated. [ABSTRACT FROM AUTHOR]

Published

2006

41. In Vivo Enzyme Immobilization by Use of Engineered Polyhydroxyalkanoate Synthase.

Author

Peters, Verena and Rehm, Bernd H. A.

Subjects

*ENZYMES, *PSEUDOMONADACEAE, *POLYPHENOLS, *PSEUDOMONAS, *POLYACRYLAMIDE, *GENETIC engineering, *NITROGEN excretion, *CYTOPLASMIC granules, *BIOCHEMICAL engineering

Abstract

This study demonstrated that engineered polyhydroxyalkanoate (PHA) synthases can be employed as molecular tools to covalently immobilize enzymes at the PITA granule surface. The β-galactosidase was fused to the N terminus of the class II PHA synthase from Pseudomonas aeruginosa. The open reading frame was confirmed to encode the complete fusion protein by T7 promoter-dependent overexpression. Restoration of PHA biosynthesis in the PHA-negative mutant of P. aeruginosa PAO1 showed a PHA synthase function of the fusion protein. PHA granules were isolated and showed β-gaIactosidase activity. PHA granule attached proteins were analyzed and confirmed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and matrix-assisted laser desorption ionization-time of flight mass spectrometry. Surprisingly, the β-galactosidase-PHA synthase fusion protein was detectable at a high copy number at the PHA granule, compared with PHA synthase alone, which was barely detectable at PHA granules. Localization of the β-galactosidase at the PHA granule surface was confirmed by enzyme-linked immunosorbent assay using anti-β-galactosidase anti- bodies. Treatment of these β-galactosidase-PHA granules with urea suggested a covalent binding of the β-galactosidase-PHA synthase to the PHA granule. The immobilized β-galactosidase was enzymologically characterized, suggesting a Michaelis-Menten reaction kinetics. A Km of 630 μM and a Vmax of 17.6 nmol/min for orthonitrophenyl-β-D-galactopyranoside as a substrate was obtained. The immobilized β-galactosidase was stable for at least several months under various storage conditions. This study demonstrated that protein engineering of PHA synthase enables the manufacture of PHA granules with covalently attached enzymes, suggesting an application in recycling of biocatalysts, such as in fine-chemical production. [ABSTRACT FROM AUTHOR]

Published

2006

42. Putative ABC Transporter Responsible for Acetic Acid Resistance in Acetobacter aceti.

Author

Nakano, Shigeru, Fukaya, Masahiro, and Horinouchi, Sueharu

Subjects

*ATP-binding cassette transporters, *ACETIC acid, *CARRIER proteins, *ACETOBACTER, *MEMBRANE proteins, *PSEUDOMONADACEAE, *PROTEINS, *AMINO acids, *ESCHERICHIA coli

Abstract

Two-dimensional gel electrophoretic analysis of the membrane fraction of Acetobacter aceti revealed the presence of several proteins that were produced in response to acetic acid. A 60-kDa protein, named AatA, which was mostly induced by acetic acid, was prepared; aatA was cloned on the basis of its NH2-terminal amino acid sequence. AatA, consisting of 591 amino acids and containing ATP-binding cassette (ABC)-sequences and ABC signature sequences, belonged to the ABC transporter superfamily. The aatA mutation with an insertion of the neomycin resistance gene within the aatA coding region showed reduced resistance to acetic acid, formic acid, propionic acid, and lactic acid, whereas the aatA mutation exerted no effects on resistance to various drugs, growth at low pH (adjusted with HCl), assimilation of acetic acid, or resistance to citric acid. Introduction of plasmid pABC101 containing aatA under the control of the Escherichia coli lac promoter into the aatA mutant restored the defect in acetic acid resistance. In addition, pABC101 conferred acetic acid resistance on E. coli. These findings showed that AatA was a putative ABC transporter conferring acetic acid resistance on the host cell. Southern blot analysis and subsequent nucleotide sequencing predicted the presence of aatA orthologues in a variety of acetic acid bacteria belonging to the genera Acetobacter and Gluconacetobacter. The fermentation with A. aceti containing aatA on a multicopy plasmid resulted in an increase in the final yield of acetic acid. [ABSTRACT FROM AUTHOR]

Published

2006

43. Identification and Specific Detection of a Novel Pseudomonadaceae Cluster Associated with Soils from Winter Wheat Plots of a Long-Term Agricultural Field Experiment.

Author

Pesaro, Manuel and Widmer, Franco

Subjects

*PSEUDOMONADACEAE, *SOILS, *GRAM-negative bacteria, *AGRICULTURE, *PSEUDOMONADALES, *MICROORGANISMS, *PLANT health, *RESTRICTION fragment length polymorphisms

Abstract

The genus Pseudomonas (sensu stricto) represents a group of microorganisms directly involved in functions conferring plant health. We performed a study in the DOK long-term agricultural field experiment on the basis of previously published Pseudomonas-selective PCR primers in order to investigate the community structure of the microbial groups defined by the target range of these primers. Three different agricultural management systems, i.e., conventional, biodynamic, and bio-organic, along with mineral and unfertilized controls were investigated, with each system planted with either winter wheat or a grass-clover ley. Amplified small-subunit rRNA gene fragments were analyzed using the genetic profiling techniques restriction fragment length polymorphism (RFLP) and denaturing gradient gel electrophoresis (DGGE), revealing distinct differences between soils planted with winter wheat and grass clover but only minor differences between the management systems. Phylogenetic analyses of 59 clone sequences retrieved from bio-organic and unfertilized systems identified sequences related to Pseudomonas fluorescens and a novel cluster termed Cellvibrio-related Pseudomonadaceae (CRP). The CRP clones were exclusively isolated from winter wheat soil samples and were responsible for the crop-specific differences observed in RFLP and DGGE profiles. New primers were designed for the amplification of CRP targets directly from soil DNA, yielding strong signals exclusively for winter wheat soils. We concluded that crop-associated CRP exist in agricultural soils and that genetic profiling followed by specific probe design represents a valuable approach for identification as well as sensitive and rapid monitoring of novel microbial groups in the environment. [ABSTRACT FROM AUTHOR]

Published

2006

44. Planktonic-Cell Yield of a Pseudomonad Bioflim.

Author

Bester, Elanna, Wolfaardt, Gideon, Joubert, Lydia, Garny, Kerstin, and Saftic, Sanja

Subjects

*PSEUDOMONADACEAE, *BIOFILMS, *PLANKTON, *CELL proliferation, *MICROBIAL ecology, *CELL culture, *MICROBIAL aggregation, *CELLS, *PSEUDOMONAS

Abstract

Biofilm cells differ phenotypically from their free-floating counterparts. Differential growth rates in biofilms are often referred to, particularly in response to limited diffusion of oxygen and nutrients. We observed growth rates of attached Pseudomonas sp. strain CT07 cells that were notably higher than the maximum specific growth rate measured in batch culture. Despite dilution rates in continuous flow cells that exceeded the maximum planktonic specific growth rate by 58 times, sampling of the effluent revealed >109 cells ml-1, suggesting that biofilms function as a source of planktonic cells through high cell yield and detachment. Further investigation demonstrated considerable planktonic cell yield from biofilms as young as 6 h, indicating that detachment is not limited to established biofilms. These biofilm-detached cells were more sensitive to a commercial biocide than associated biofilm- and chemostat-cultivated populations, implying that detached biofilm cells exhibit a character that is distinct from that of attached and planktonic cell populations. [ABSTRACT FROM AUTHOR]

Published

2005

45. Multiple and Interconnected Pathways for L-Lysine Catabolism in Pseudomonas putida KT2440.

Author

Revelles, Olga, Espinosa-Urgel, Manuel, Fuhrer, Tobias, Sauer, Uwe, and Ramos, Juan L.

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *BACTERIA, *BACTERIOLOGY, *LYSINE

Abstract

L-Lysine catabolism in Pseudomonas putida KT2440 was generally thought to occur via the aminovalerate pathway. In this study we demonstrate the operation of the alternative aminoadipate pathway with the intermediates D-lysine, L-pipecolate, and aminoadipate. The simultaneous operation of both pathways for the use of L-lysine as the sole carbon and nitrogen source was confirmed genetically. Mutants with mutations in either pathway failed to use L-lysine as the sole carbon and nitrogen source, although they still used L-lysine as the nitrogen source, albeit at reduced growth rates. New genes were identified in both pathways, including the davB and davA genes that encode the enzymes involved in the oxidation of L-lysine to δ-aminovaleramide and the hydrolysis of the latter to δ-aminovalerate, respectively. The amaA, dkpA, and amaB genes, in contrast, encode proteins involved in the transformation of Δ¹-piperidine-2-carboxylate into aminoadipate. Based on L-[U-13C, U-15N]lysine experiments, we quantified the relative use of pathways in the wild type and its isogenic mutants. The fate of 13C label of L-lysine indicates that in addition to the existing connection between the D- and L-lysine pathways at the early steps of the catabolism of L-lysine mediated by a lysine racemase, there is yet another interconnection at the lower end of the pathways in which aminoadipate is channeled to yield glutarate. This study establishes an unequivocal relationship between gene and pathway enzymes in the metabolism of L-lysine, which is of crucial importance for the successful colonization of the rhizosphere of plants by this microorganism. [ABSTRACT FROM AUTHOR]

Published

2005

46. Requirements for Heterologous Production of a Complex Metalloenzyme: the Membrane-Bound [NiFe] Hydrogenase.

Author

Lenz, Oliver, Gleiche, Andrea, Strack, Angelika, and Friedrich, Barbel

Subjects

*RALSTONIA, *PSEUDOMONADACEAE, *HYDROGENASE, *PLASMIDS, *GENES, *PROTEINS

Abstract

By taking advantage of the tightly clustered genes for the membrane-bound [NiFe] hydrogenase of Ralstonia eutropha H16, broad-host-range recombinant plasmids were constructed carrying the entire membrane-bound hydrogenase (MBH) operon encompassing 21 genes. We demonstrate that the complex MBH biosynthetic apparatus is actively produced in hydrogenase-free hosts yielding fully assembled and functional MBH protein. [ABSTRACT FROM AUTHOR]

Published

2005

47. Evolutionary and Diagnostic Implications of Intragenomic Heterogeneity in the 16S rRNA Gene in Aeromonas Strains.

Author

Morandi, Alessia, Zhaxybayeva, Olga, Gogarten, J. Peter, and Graf, Joerg

Subjects

*AEROMONAS, *PSEUDOMONADACEAE, *RNA, *GENES, *GENOMICS, *DIAGNOSIS

Abstract

Sequencing 16S rRNA genes (SSU) cloned from Aeromonas strains revealed that strains contained up to six copies differing by ≤1.5%. The SSU copies from Aeromonas veronii LMG13695 clustered with sequences from four Aeromonas species. These results demonstrate intragenomic heterogeneity of SSU and suggest caution when using SSU to identify aeromonads. [ABSTRACT FROM AUTHOR]

Published

2005

48. Genetic Characterization of Accumulation of Polyhydroxyalkanoate from Styrene in Pseudomonas putida CA-3.

Author

O'Leary, Niall D., O'Connor, Kevin E., Ward, Patrick, Goff, Miriam, and Dobson, Alan D. W.

Subjects

*PSEUDOMONAS, *PSEUDOMONADACEAE, *STYRENE, *GENETIC mutation, *RADIOGENETICS, *DEHYDROGENASES

Abstract

Pseudomonas putida CA-3 is capable of accumulating medium-chain-length polyhydroxyalkanoates (MCL-PHAs) when growing on the toxic pollutant styrene as the sole source of carbon and energy. In this study, we report on the molecular characterization of the metabolic pathways involved in this novel bioconversion. With a mini-Tn5 random mutagenesis approach, acetyl-coenzyme A (CoA) was identified as the end product of styrene metabolism in P. putida CA-3. Amplified flanking-region PCR was used to clone functionally expressed phenylacetyl-CoA catabolon genes upstream from the sty operon in P. putida CA-3, previously reported to generate acetyl-CoA moieties from the styrene catabolic intermediate, phenylacetyl-CoA. However, the essential involvement of a (non-phenylacetyl-CoA) catabolon-encoded 3-hydroxyacyl-CoA dehydrogenase is also reported. The link between dec novo fatty acid synthesis and PHA monomer accumulation was investigated, and a functionally expressed 3-hydroxyacyl-acyl carrier protein-CoA transacylase (phaG) gene in P. putida CA-3 was identified. The deduced PhaG amino acid sequence shared >99% identity with a transacylase from P. putida KT2440, involved in 3-hydroxyacyl-CoA MCL-PHA monomer sequestration from dec novo fatty acid synthesis under inorganic nutrient-limited conditions. Similarly, with P. putida CA-3, maximal phaG expression was observed only under nitrogen limitation, with concomitant PHA accumulation. Thus, β-oxidation and fatty acid dec novo synthesis appear to converge in the generation of MCL-PHA monomers from styrene in P. putida CA-3. Cloning and functional characterization of the pha locus, responsible for PHA polymerization/depolymerization is also reported and the significance and future prospects of this novel bioconversion are discussed. [ABSTRACT FROM AUTHOR]

Published

2005

49. A Cystic Fibrosis Epidemic Strain of Pseudomonas aeruginosa Displays Enhanced Virulence and Antimicrobial Resistance.

Author

Salunkhe, Prabhakar, Smart, Catherine H. M., Morgan, J. Alun W., Panagea, Stavroula, Walshaw, Martin J., Hart, C. Anthony, Geffers, Robert, Tümmler, Burkhard, and Winstanley, Craig

Subjects

*CYSTIC fibrosis, *PSEUDOMONAS aeruginosa, *PSEUDOMONAS, *GENETIC disorders, *PSEUDOMONADACEAE, *PATHOGENIC microorganisms, *GENETIC transcription

Abstract

The Liverpool epidemic strain (LES) of Pseudomonas aeruginosa is a transmissible aggressive pathogen of cystic fibrosis (CF) patients. We compared transcriptome profiles of two LES isolates with each other and with a laboratory and genetic reference strain (PAO1) after growth to late exponential phase and following exposure to oxidative stress. Both LES isolates exhibited enhanced antimicrobial resistances linked to specific mutations in efflux pump genes. Although transcription of AmpC Β-Iactamase was up-regulated in both, one LES isolate contained a specific mutation rendering the ampC gene untranslatable. The virulence-related quorum-sensing (QS) regulon of LES431, an isolate that caused pneumonia in the non-CF parent of a CF patient, was considerably up-regulated in comparison to either isolate LES400, associated with a chronic CF infection, or strain PAOI. Premature activation of QS genes was detected in isolates from both non-CF parents and the CF patient in a previously reported infection episode. LES isolates lacking the up-regulated QS phenotype contained different frameshift mutations in lasR. When fed to Drosophila melanogaster, isolate LES431 killed the fruit flies more readily than either isolate LES400 or strain PAO1, indicating that virulence varies intra-clonally. The LES may represent a clone with enhanced virulence and antimicrobial resistance characteristics that can vary or are lost due to mutations during long-term colonization but have contributed to the successful spread of the lineage throughout the CF population of the United Kingdom. [ABSTRACT FROM AUTHOR]

Published

2005

50. Genes Involved in Cyclic Lipopeptide Production Are Important for Seed and Straw Colonization by Pseudomonas sp. Strain DSS73.

Author

Nielsen, Tommy H., Nybroe, Ole, Koch, Birgit, Hansen, Michael, and Sørensen, Jan

Subjects

*GENETICS, *PSEUDOMONAS, *PSEUDOMONADACEAE, *GENOTYPE-environment interaction, *GENES, *MICROBIOLOGY

Abstract

Survival in natural bulk soil and colonization of sugar beet seeds and barley straw residues were determined for Pseudomonas sp. strain DSS73 and Tn5 mutants in ainsY (encoding a peptide synthetase involved in production of the cyclic lipopeptide amphisin) and gacS (encoding the sensory kinase of the two-component GacA/GacS regulatory system). No differences in survival or growth in response to carbon amendment (citrate) were observed in bulk soil. However, both mutants were impaired in their colonization of sugar beet seeds and barley straw residues by an inoculum established in the bulk soil. The two mutants had comparable colonization phenotypes, suggesting that amphisin production is more important for colonization than other gacS- controlled traits. [ABSTRACT FROM AUTHOR]

Published

2005