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3. Genome sequence reveals that Pseudomonas fluorescens F113 possesses a large and diverse array of systems for rhizosphere function and host interaction

Author

Redondo-Nieto Miguel, Barret Matthieu, Morrissey John, Germaine Kieran, Martínez-Granero Francisco, Barahona Emma, Navazo Ana, Sánchez-Contreras María, Moynihan Jennifer A, Muriel Candela, Dowling David, O’Gara Fergal, Martín Marta, and Rivilla Rafael

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Pseudomonas fluorescens F113 is a plant growth-promoting rhizobacterium (PGPR) isolated from the sugar-beet rhizosphere. This bacterium has been extensively studied as a model strain for genetic regulation of secondary metabolite production in P. fluorescens, as a candidate biocontrol agent against phytopathogens, and as a heterologous host for expression of genes with biotechnological application. The F113 genome sequence and annotation has been recently reported. Results Comparative analysis of 50 genome sequences of strains belonging to the P. fluorescens group has revealed the existence of five distinct subgroups. F113 belongs to subgroup I, which is mostly composed of strains classified as P. brassicacearum. The core genome of these five strains is highly conserved and represents approximately 76% of the protein-coding genes in any given genome. Despite this strong conservation, F113 also contains a large number of unique protein-coding genes that encode traits potentially involved in the rhizocompetence of this strain. These features include protein coding genes required for denitrification, diterpenoids catabolism, motility and chemotaxis, protein secretion and production of antimicrobial compounds and insect toxins. Conclusions The genome of P. fluorescens F113 is composed of numerous protein-coding genes, not usually found together in previously sequenced genomes, which are potentially decisive during the colonisation of the rhizosphere and/or interaction with other soil organisms. This includes genes encoding proteins involved in the production of a second flagellar apparatus, the use of abietic acid as a growth substrate, the complete denitrification pathway, the possible production of a macrolide antibiotic and the assembly of multiple protein secretion systems.

Published
2013
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4. The Sinorhizobium meliloti RNA chaperone Hfq influences central carbon metabolism and the symbiotic interaction with alfalfa

Author

Jiménez-Zurdo José I, Toro Nicolás, Rivilla Rafael, Lloret Javier, Jofré Edgardo, Peregrina Alexandra, Oruezabal Roke I, and Torres-Quesada Omar

Subjects
Microbiology, QR1-502
Abstract

Abstract Background The bacterial Hfq protein is able to interact with diverse RNA molecules, including regulatory small non-coding RNAs (sRNAs), and thus it is recognized as a global post-transcriptional regulator of gene expression. Loss of Hfq has an extensive impact in bacterial physiology which in several animal pathogens influences virulence. Sinorhizobium meliloti is a model soil bacterium known for its ability to establish a beneficial nitrogen-fixing intracellular symbiosis with alfalfa. Despite the predicted general involvement of Hfq in the establishment of successful bacteria-eukaryote interactions, its function in S. meliloti has remained unexplored. Results Two independent S. meliloti mutants, 2011-3.4 and 1021Δhfq, were obtained by disruption and deletion of the hfq gene in the wild-type strains 2011 and 1021, respectively, both exhibiting similar growth defects as free-living bacteria. Transcriptomic profiling of 1021Δhfq revealed a general down-regulation of genes of sugar transporters and some enzymes of the central carbon metabolism, whereas transcripts specifying the uptake and metabolism of nitrogen sources (mainly amino acids) were more abundant than in the wild-type strain. Proteomic analysis of the 2011-3.4 mutant independently confirmed these observations. Symbiotic tests showed that lack of Hfq led to a delayed nodulation, severely compromised bacterial competitiveness on alfalfa roots and impaired normal plant growth. Furthermore, a large proportion of nodules (55%-64%) elicited by the 1021Δhfq mutant were non-fixing, with scarce content in bacteroids and signs of premature senescence of endosymbiotic bacteria. RT-PCR experiments on RNA from bacteria grown under aerobic and microoxic conditions revealed that Hfq contributes to regulation of nifA and fixK1/K2, the genes controlling nitrogen fixation, although the Hfq-mediated regulation of fixK is only aerobiosis dependent. Finally, we found that some of the recently identified S. meliloti sRNAs co-inmunoprecipitate with a FLAG-epitope tagged Hfq protein. Conclusions Our results support that the S. meliloti RNA chaperone Hfq contributes to the control of central metabolic pathways in free-living bacteria and influences rhizospheric competence, survival of the microsymbiont within the nodule cells and nitrogen fixation during the symbiotic interaction with its legume host alfalfa. The identified S. meliloti Hfq-binding sRNAs are predicted to participate in the Hfq regulatory network.

Published
2010
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7. Role of extracellular matrix components in biofilm formation and adaptation of Pseudomonas ogarae F113 to the rhizosphere environment

Author

Blanco-Romero, Esther, Garrido-Sanz, Daniel, Durán, David, Rybtke, Morten, Tolker-Nielsen, Tim, Redondo-Nieto, Miguel, Rivilla, Rafael, Martín, Marta, Blanco-Romero, Esther, Garrido-Sanz, Daniel, Durán, David, Rybtke, Morten, Tolker-Nielsen, Tim, Redondo-Nieto, Miguel, Rivilla, Rafael, and Martín, Marta

Abstract

Regulating the transition of bacteria from motile to sessile lifestyles is crucial for their ability to compete effectively in the rhizosphere environment. Pseudomonas are known to rely on extracellular matrix (ECM) components for microcolony and biofilm formation, allowing them to adapt to a sessile lifestyle. Pseudomonas ogarae F113 possesses eight gene clusters responsible for the production of ECM components. These gene clusters are tightly regulated by AmrZ, a major transcriptional regulator that influences the cellular levels of c-di-GMP. The AmrZ-mediated transcriptional regulation of ECM components is primarily mediated by the signaling molecule c-di-GMP and the flagella master regulator FleQ. To investigate the functional role of these ECM components in P. ogarae F113, we performed phenotypic analyses using mutants in genes encoding these ECM components. These analyses included assessments of colony morphology, dye-staining, static attachment to abiotic surfaces, dynamic biofilm formation on abiotic surfaces, swimming motility, and competitive colonization assays of the rhizosphere. Our results revealed that alginate and PNAG polysaccharides, along with PsmE and the fimbrial low molecular weight protein/tight adherence (Flp/Tad) pilus, are the major ECM components contributing to biofilm formation. Additionally, we found that the majority of these components and MapA are needed for a competitive colonization of the rhizosphere in P. ogarae F113.

Published
2024

10. Hydrocarbon Bioremediation: Scaling Up from Lab to Field for Petroleum-Contaminated Soils

Author

Curiel-Alegre, Sandra, primary, Khan, Aqib Hassan Ali, additional, Rad, Carlos, additional, Velasco-Arroyo, Blanca, additional, Rumbo, Carlos, additional, Rivilla, Rafael, additional, Durán, David, additional, Redondo-Nieto, Miguel, additional, Borràs, Eduard, additional, Molognoni, Daniele, additional, Martín-Castellote, Soledad, additional, Juez, Blanca, additional, and Barros, Rocío, additional

Published
2023
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13. Evaluation of Siderophores Generated by Pseudomonas Bacteria and Their Possible Application as Fe Biofertilizers.

Author

Lozano-González, José María, Valverde, Silvia, Montoya, Mónica, Martín, Marta, Rivilla, Rafael, Lucena, Juan J., and López-Rayo, Sandra

Subjects
SIDEROPHORES, IRON chelates, BIOFERTILIZERS, PSEUDOMONAS, IRON, PLANT growth, GLUTAMIC acid, ORGANIC acids
Abstract

The application of synthetic iron chelates to overcome iron deficiency in crops is leading to a high impact on the environment, making it necessary to find more friendly fertilizers. A promising alternative is the application of biodegradable iron chelates, such as those based on siderophores. In the present work, seven bacterial strains of the genus Pseudomonas were selected for their ability to secrete pyoverdine, a siderophore with a high affinity for iron, which could be used as a biofertilizer. The concentration of siderophores secreted by each bacterium expressed as desferrioxamine B equivalents, and the pyoverdine concentration was determined. Their potential as Fe biofertilizers was determined based on their capacity to complex Fe, determining the maximum iron complexation capacity at alkaline pH and selecting the RMC4 strain. The biostimulant capacity of the RMC4 strain was evaluated through the secretion of organic acids such as the hormone Indol-3-acetic acid or glutamic acid, among others, in a kinetic assay. Finally, the genome of RMC4 was determined, and the strain was identified as Pseudomonas monsensis. The annotated genome was screened for genes and gene clusters implicated in biofertilization and plant growth promotion. Besides iron mobilization, genes related to phosphorus solubilization, production of phytohormones and biological control, among others, were observed, indicating the suitability of RMC4 as an inoculant. In conclusion, RMC4 and its siderophores are promising sources for Fe biofertilization in agriculture. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Field scale biodegradation of total petroleum hydrocarbons and soil restoration by Ecopiles: microbiological analysis of the process

Author

Martínez-Cuesta, Ruben, primary, Conlon, Robert, additional, Wang, Mutian, additional, Blanco-Romero, Esther, additional, Durán, David, additional, Redondo-Nieto, Miguel, additional, Dowling, David, additional, Garrido-Sanz, Daniel, additional, Martin, Marta, additional, Germaine, Kieran, additional, and Rivilla, Rafael, additional

Published
2023
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25. Transcriptional organization of the region encoding the synthesis of the flagellar filament in Pseudomonas fluorescens

Author

Redondo-Nieto, Miguel, Lloret, Javier, Larenas, Javiera, Barahona, Emma, Navazo, Ana, Martinez-Granero, Francisco, Capdevila, Silvia, Rivilla, Rafael, and Martin, Marta

Subjects
Pseudomonas fluorescens -- Genetic aspects, Flagella (Microbiology) -- Analysis, Genetic transcription -- Research, Bacteria -- Motility, Bacteria -- Research, Biological sciences
Abstract

Pseudomonas fluorescens Fl13 is motile by means of type b flagella. Analysis of the region encoding the synthesis of the flagellar filament has shown a transcriptional organization different from that of type a flagella. Additionally to the promoters driving fliC, fliD, and fleQ expression, we have found promoters upstream of the flaG gene and the fliST operon. These promoters were functional in vivo. Both promoters have been mapped and appear to be dependent on the vegetative sigma factor and independent of FleQ, the master regulator of flagellum synthesis.

Published
2008

26. Pseudomonas fluorescens F113 type VI secretion systems mediate bacterial killing and adaption to the rhizosphere microbiome

Author

Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Ciencia, Innovación y Universidades (MICINN). España, Durán, David, Bernal Guzmán, Patricia, Vázquez Arias, David, Blanco Romero, Esther, Garrido Sanz, Daniel, Redondo Nieto, Miguel, Rivilla, Rafael, Martín, Marta, Universidad de Sevilla. Departamento de Microbiología y Parasitología, Ministerio de Ciencia, Innovación y Universidades (MICINN). España, Durán, David, Bernal Guzmán, Patricia, Vázquez Arias, David, Blanco Romero, Esther, Garrido Sanz, Daniel, Redondo Nieto, Miguel, Rivilla, Rafael, and Martín, Marta

Abstract

The genome of Pseudomonas fluorescens F113, a model rhizobacterium and a plant growth-promoting agent, encodes three putative type VI secretion systems (T6SSs); F1-, F2- and F3-T6SS. Bioinformatic analysis of the F113 T6SSs has revealed that they belong to group 3, group 1.1, and group 4a, respectively, similar to those previously described in Pseudomonas aeruginosa. In addition, in silico analyses allowed us to identify genes encoding a total of five orphan VgrG proteins and eight putative effectors (Tfe), some with their cognate immunity protein (Tfi) pairs. Genes encoding Tfe and Tfi are found in the proximity of P. fluorescens F113 vgrG, hcp, eagR and tap genes. RNA-Seq analyses in liquid culture and rhizosphere have revealed that F1- and F3-T6SS are expressed under all conditions, indicating that they are active systems, while F2-T6SS did not show any relevant expression under the tested conditions. The analysis of structural mutants in the three T6SSs has shown that the active F1- and F3-T6SSs are involved in interbacterial killing while F2 is not active in these conditions and its role is still unknown.. A rhizosphere colonization analysis of the double mutant affected in the F1- and F3-T6SS clusters showed that the double mutant was severely impaired in persistence in the rhizosphere microbiome, revealing the importance of these two systems for rhizosphere adaption.

Published
2021

28. Rhizosphere selection of highly motile phenotypic variants of Pseudomonas fluorescens with enhanced competitive colonization ability

Author

Martinez-Grancro, Francisco, Rivilla, Rafael, and Martin, Marta

Subjects
Pseudomonas fluorescens -- Genetic aspects, Rhizosphere -- Research, Phenotype -- Research, Bacteriology -- Cultures and culture media, Bacteriology -- Research, Biological sciences
Abstract

A large number of phenotypic variants are generated by overexpressing the genes encoding the site-specific recombinases and selection after prolonged laboratory cultivation and rhizosphere colonization. The results have shown that gac mutations are selected both in the stationary phase and during rhizosphere colonization and that overexpression of site-specific recombinases followed by a single rhizosphere passage allows the isolation of more competitive strains.

Published
2006

29. Two site-specific recombinases are implicated in phenotypic variation and competitive rhizosphere colonization in Pseudomonas fluorescens

Author

Martinez-Granero, Francisco, Capdevila, Silvia, Sanchez-Contreras, Maria, Martin, Marta, and Rivilla, Rafael

Subjects
Bacterial genetics -- Research, Pseudomonas fluorescens -- Research, Pseudomonas fluorescens -- Genetic aspects, Biological sciences
Abstract

The biocontrol agent Pseudomonas fluorescens F113 undergoes phenotypic variation during rhizosphere colonization, and this variation has been related to the activity of a site-specific recombinase encoded by the sss gene. Here, it is shown that a second recombinase encoded by the xerD gene is also implicated in phenotypic variation. A putative xerD gene from this strain was cloned, and sequence analysis confirmed that it encoded a site-specific recombinase of the [lambda] integrase family. Mutants affected in the sss or xerD genes produced a very low quantity of phenotypic variants compared to the wild-type strain, both under prolonged cultivation in the laboratory and after rhizosphere colonization, and they were severely impaired in competitive root colonization. Overexpression of the genes encoding either recombinase resulted in a substantial increment in the production of phenotypic variants under both culture and rhizosphere colonization conditions, implying that both site-specific recombinases are involved in phenotypic variation. Overexpression of the sss gene suppressed the phenotype of a xerD mutant, but overexpression of the xerD gene had no effect on the phenotype of an sss mutant. Genetic analysis of the phenotypic variants obtained after overexpression of the genes encoding both the recombinases showed that they carried mutations in the gacA/S genes, which are necessary to produce a variety of secondary metabolites. These results indicate that the Gac system is affected by the activity of the site-specific recombinases. Transcriptional fusions of the sss and xerD genes with a promoterless lacZ gene showed that both genes have a similar expression pattern, with maximal expression during stationary phase. Although the expression of both genes was independent of diffusible compounds present in root exudates, it was induced by the plant, since bacteria attached to the root showed enhanced expression.

Published
2005

30. Analysis of Pseudomonas fluorescens F113 genes implicated in flagellar filament synthesis and their role in competitive root colonization

Author

Capdevila, Silvia, Martinez-Granero, Francisco M., Sanchez-Contreras, Maria, Rivilla, Rafael, and Martin, Marta

Subjects
Flagella (Microbiology) -- Research, Pseudomonas fluorescens -- Analysis, Genetic research, Biological sciences
Abstract

The ability of plant-associated micro-organisms to colonize and compete in the rhizosphere is specially relevant for the biotechnological application of micro-organisms as inoculants. Pseudomonads are one of the best root colonizers and they are widely used in plant-pathogen biocontrol and in soil bioremediation. This study analyses the motility mechanism of the well-known biocontrol strain Pseudomonas fluorescens F113. A 6x5 kb region involved in the flagellar filament synthesis, containing the fliC, flaG, fliD, fliS, fliT and fleQ genes and part of the fleS gene, was sequenced and mutants in this region were made. Several non-motile mutants affected in the fliC, fliS and fleQ genes, and a fliT mutant with reduced motility properties, were obtained. These mutants were completely displaced from the root tip when competing with the wild-type F113 strain, indicating that the wild-type motility properties are necessary for competitive root colonization, A mutant affected in the flag gene had longer flagella, but the same motility and colonization properties as the wild-type. However, in rich medium or in the absence of iron limitation, it showed a higher motility, suggesting the possibility of improving competitive root colonization by manipulating the motility processes.

Published
2004

32. Phenotypic selection and phase variation occur during alfalfa root colonization by Pseudomonas fluorescens F113

Author

Sanchez-Conrteras, Maria, Martin, Marta, Villacieros, Marta, O'Gara, Fergal, Bonilla, Ildefonso, and Rivilla, Rafael

Subjects
Bacteriology -- Research, Alfalfa -- Genetic aspects, Phenotype -- Genetic aspects, Pseudomonas fluorescens -- Genetic aspects, Biological sciences
Abstract

Research has been conducted on the alfalfa root rhizophere colonization by Pseudomonas fluorescens F113 which undergoes phenotypic variations. Results indicate that these variations are affected by the rhizophere colonization.

Published
2002

37. Exopolysaccharide II production is regulated by salt in the halotolerant strain Rhizobium meliloti EFB1

Author

LLoret, Javier, Wulff, Brande B.H., Rubio, Jose M., Downie, J. Allan, Bonilla, Ildefonso, and Rivilla, Rafael

Subjects
Rhizobium meliloti -- Physiological aspects, Microbial polysaccharides -- Research, Salt -- Research, Biological sciences
Abstract

Salt also affects the production of exopolysaccharide (EPS) in the halotolerant strain Rhizobium meliloti EFB1. The difference in the production of EPS II in the presence and absence of salt is regulated at the transcriptional level. These were the findings in a study of EPS production in Rhizobium meliloti EFB1. The transposon-induced mutant was isolated, that, when grown in the absence of salt, had a colony morphology similar to that of the wild type grown in the presence of salt. Results indicated that galactoglucan is produced by strain EFB1 and that this production declines when the organism is grown in the presence of salt.

Published
1998

38. Ionic stress and osmotic pressure induce different alterations in the lipopolysaccharide of a Rhizobium meliloti strain

Author

Lloret, Javier, Bolanos, Luis, Lucas, M. Mercedes, Peart, Jan M., Brewin, Nicholas J., Bonilla, Ildefonso, and Rivilla, Rafael

Subjects
Rhizobium meliloti -- Research, Endotoxins -- Research, Salt -- Bacteriology, Biological sciences
Abstract

The ability of Rhizobium meliloti to tolerate high concentrations of salt in marshes may be related to changes in its lipopolysaccharide (LPS) structure in response to salt stress. The EFB1 strain of the bacteria can grow in concentrations of NaCl as high as 500mM. Electrophoresis and antibody assays indicated that the LPS of this strain changed in response to ionic stress and osmotic stress.

Published
1995

41. PCR use of highly conserved DNA regions for identification of Sinorhizobium meliloti

Author

Sanchez-Contreras, Maria, Lloret, JAvier, Martin, Marta, Villacieros, MArta, Bonilla, Ildefonso, and Rivilla, Rafael

Subjects
Nitrogen-fixing microorganisms -- Research, Polymerase chain reaction -- Research, Biological sciences
Abstract

Researchers describe four PCR primers that recognize the nodbox 4 locus and the mucR gene of Sinorhizobium meliloti. These regions are specific for this species and are highly conserved.

Published
2000

42. Phylogenomic Analyses of Bradyrhizobium Reveal Uneven Distribution of the Lateral and Subpolar Flagellar Systems, Which Extends to Rhizobiales

Author

Garrido-Sanz, Daniel, primary, Redondo-Nieto, Miguel, additional, Mongiardini, Elías, additional, Blanco-Romero, Esther, additional, Durán, David, additional, Quelas, Juan, additional, Martin, Marta, additional, Rivilla, Rafael, additional, Lodeiro, Aníbal, additional, and Althabegoiti, M., additional

Published
2019
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43. Genome-wide analysis of the FleQ direct regulon in Pseudomonas fluorescens F113 and Pseudomonas putida KT2440

Author

Ministerio de Educación, Cultura y Deporte (España), Ministerio de Economía y Competitividad (España), European Commission, Blanco-Romero, E., Redondo-Nieto, M., Martínez-Granero, Francisco, Garrido-Sanz, D., Ramos-González, María Isabel, Martín, M., Rivilla, Rafael, Ministerio de Educación, Cultura y Deporte (España), Ministerio de Economía y Competitividad (España), European Commission, Blanco-Romero, E., Redondo-Nieto, M., Martínez-Granero, Francisco, Garrido-Sanz, D., Ramos-González, María Isabel, Martín, M., and Rivilla, Rafael

Abstract

Bacterial motility plays a crucial role in competitiveness and colonization in the rhizosphere. In this work, Chromatin ImmunoPrecipitation Sequencing (ChIP-seq) analysis has been used to identify genes putatively regulated by the transcriptional regulatory protein FleQ in Pseudomonas fluorescens F113 and Pseudomonas putida KT2440. This protein was previously identified as a master regulator of flagella and biofilm formation in both strains. This work has demonstrated that FleQ from both bacteria are conserved and functionally equivalent for motility regulation. Furthermore, the ChIP-seq analysis has shown that FleQ is a global regulator with the identification of 121 and 103 FleQ putative binding sites in P. fluorescens F113 and P. putida KT2440 respectively. Putative genes regulated by FleQ included, as expected, flagellar and motility-related genes and others involved in adhesion and exopolysaccharide production. Surprisingly, the ChIP-seq analysis also identified iron homeostasis-related genes for which positive regulation was shown by RT-qPCR. The results also showed that FleQ from P. fluorescens F113 shares an important part of its direct regulon with AmrZ, a global regulator also implicated in environmental adaption. Although AmrZ also regulates motility and iron uptake, the overlap occurred mostly with the iron-related genes, since both regulators control a different set of motility-related genes.

Published
2018

44. Changes in bacterial populations and in biphenyl dioxygenase gene diversity in a polychlorinated biphenyl-polluted soil after introduction of willow trees for rhizoremediation

Author

de Carcer, Daniel Aguirre, Martin, Marta, Karlson, Ulrich, and Rivilla, Rafael

Subjects
Polychlorinated biphenyls -- Chemical properties, Soil pollution -- Environmental aspects, Soil pollution -- Research, Company growth, Biological sciences
Abstract

The positive and practical changes taking place in bacterial communities of a polychlorinated biphenyl (PCB)-contaminated soil after introducing host plant for rhizoremediation is studied. Results conclude that bacterial community was different from its parental community during the development of the Salix viminalis sp. root system.

Published
2007

45. Three independent signalling pathways repress motility in Pseudomonas fluorescens F113

Author

Navazo, Ana, Barahona, Emma, Redondo‐Nieto, Miguel, Martínez‐Granero, Francisco, Rivilla, Rafael, and Martín, Marta

Subjects
Mutagenesis, Insertional, Bacterial Proteins, Mutation, DNA Transposable Elements, Mutant Proteins, Gene Expression Regulation, Bacterial, Special Issue: Life of microbes that interact with plants Guest Editors: Dr. Ana Segura, Dr. Gail Preston and Professor Pierre de Wit, Pseudomonas fluorescens, Locomotion, Bacterial Outer Membrane Proteins, Signal Transduction, Transcription Factors
Abstract

Summary Motility is one of the most important traits for rhizosphere colonization by pseudomonads. Despite this importance, motility is severely repressed in the rhizosphere‐colonizing strain Pseudomonas fluorescens F113. This bacterium is unable to swarm under laboratory conditions and produce relatively small swimming haloes. However, phenotypic variants with the ability to swarm and producing swimming haloes up to 300% larger than the wild‐type strain, arise during rhizosphere colonization. These variants harbour mutations in the genes encoding the GacA/GacS two‐component system and in other genes. In order to identify genes and pathways implicated in motility repression, we have used generalized mutagenesis with transposons. Analysis of the mutants has shown that besides the Gac system, the Wsp system and the sadB gene, which have been previously implicated in cyclic di‐GMP turnover, are implicated in motility repression: mutants in the gacS, sadB or wspR genes can swarm and produce swimming haloes larger than the wild‐type strain. Epistasis analysis has shown that the pathways defined by each of these genes are independent, because double and triple mutants show an additive phenotype. Furthermore, GacS, SadB and WspR act at different levels. Expression of the fleQ gene, encoding the master regulator of flagella synthesis is higher in the gacS‐ and sadB‐ backgrounds than in the wild‐type strain and this differential expression is reflected by a higher secretion of the flagellin protein FliC. Conversely, no differences in fleQ expression or FliC secretion were observed between the wild‐type strain and the wspR‐ mutant.

Published
2009

47. AmrZ is a major determinant of c-di-GMP levels in Pseudomonas fluorescens F113

Author

Muriel, Candela, primary, Arrebola, Eva, additional, Redondo-Nieto, Miguel, additional, Martínez-Granero, Francisco, additional, Jalvo, Blanca, additional, Pfeilmeier, Sebastian, additional, Blanco-Romero, Esther, additional, Baena, Irene, additional, Malone, Jacob G., additional, Rivilla, Rafael, additional, and Martín, Marta, additional

Published
2018
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48. Polychlorinated biphenyl rhizoremediation by Pseudomonas fluorescens F113 derivatives, using a Sinorhizobium melitoti nod system to drive bhp gene expression

Author

Villacieros, Marta, Macek, Thomas, Karlson, Ulrich, Whelan, Clare, Bolanos, Luis, Dowling, David N., Mackova, Martina, Oruezabel, Roke I., Martin, Marta, Molgaard, Jesper, Carcer, Daniel Aguirre de, Rivilla, Rafael, Sachez-Contreras, Maria, and Lloret, Javier

Subjects
Gene expression -- Research, Pseudomonas -- Behavior, Pseudomonas -- Research, Biological sciences
Abstract

Heterologous rhizobial nodulation (nod) promoters from Sinorhizobium meliloti and its regulatory systems are tested to drive the expression of the bhp operon in Pseudomonas fluorescens F113 derivatives. The analysis showed that nodbox 4 from Sinorhizobium meliloti has a high level of expression in F113 that is dependant on an intact nodD1 gene.

Published
2005

49. AmrZ regulates cellulose production in Pseudomonas syringae pv. tomato DC3000

Author

Prada‐Ramírez, Harold A., Pérez-Mendoza, Daniel, Felipe, Antonia, Martínez-Granero, Francisco, Rivilla, Rafael, Sanjuán, Juan, Gallegos, María Trinidad, Junta de Andalucía, European Commission, and Ministerio de Economía y Competitividad (España)

Abstract

In Pseudomonas syringae pv. tomato DC3000, the second messenger c-di-GMP has been previously shown to stimulate pellicle formation and cellulose biosynthesis. A screen for genes involved in cellulose production under high c-di-GMP intracellular levels led to the identification of insertions in two genes, wssB and wssE, belonging to the Pto DC3000 cellulose biosynthesis operon wssABCDEFGHI. Interestingly, beside cellulose-deficient mutants, colonies with a rougher appearance than the wild type also arouse among the transposants. Those mutants carry insertions in amrZ, a gene encoding a transcriptional regulator in different Pseudomonas. Here, we provide evidence that AmrZ is involved in the regulation of bacterial cellulose production at transcriptional level by binding to the promoter region of the wssABCDEFGHI operon and repressing cellulose biosynthesis genes. Mutation of amrZ promotes wrinkly colony morphology, increased cellulose production and loss of motility in Pto DC3000. AmrZ regulon includes putative c-di-GMP metabolising proteins, like AdcA and MorA, which may also impact those phenotypes. Furthermore, an amrZ but not a cellulose-deficient mutant turned out to be impaired in pathogenesis, indicating that AmrZ is a key regulator of Pto DC3000 virulence probably by controlling bacterial processes other than cellulose production., We thank Sheng Yang He for the Pto fliC mutant and Gabriela A. Farias for helping with flagella staining and microscope observation. This research was supported by grants BIO2011-23032 and BIO2014-55075-P from the Spanish Ministerio de Economía y Competitividad (MINECO) and P10-CVI-5800 from the Junta de Andalucía, all of them cofi- nanced by European Regional Development Fund. H.A.P.R. was supported by a FPI fellowship from the Spanish MINECO, also cofinanced by European Regional Develop- ment Fund. D.P.M. was initially supported by a JAE-doc CSIC contract and later by contracts from grants P10-CVI-5800 and 201440E026, and by Andalucía Talent Hub Program launched by the Andalusian Knowledge Agency, cofunded by the European Union’s Seventh Framework Program, Marie Skłodowska-Curie actions (COFUND – Grant Agreement n° 291780) and Junta de Andalucía.

Published
2016

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