Your search keyword '"Rhodococcus pathogenicity"' showing total 55 results

1. Genetic Diversity of Toxoplasma gondii Isolates From Free-Range Chickens In Bahia, Brazil.

Author

Rocha, Daniele S., Nilsson, Mariana G., Maciel, Bianca M., Pena, Hilda F. J., Alves, Bruna F., Silva, Aristeu V., Gondim, Luís F. P., and Albuquerque, George R.

Subjects

GENETIC polymorphisms, TOXOPLASMA gondii, FREE range (Animal culture), RHODOCOCCUS pathogenicity, CHICKENS, GENETICS

Abstract

Abstract The genotyping of 25 isolates of Toxoplasma gondii from free-range chickens in the state of Bahia, Brazil, was performed by PCR-restriction fragment length polymorphism using 11 genetic markers: SAG1, 5′+3′SAG2, alt.SAG2, SAG3, BTUB, GRA6, c22-8, c29-2, L358, PK1, Apico, and CS3. The analysis revealed 8 genotypes, 3 of which had not been previously reported. Four genotypes were represented by single isolates, whereas the other genotypes were represented by 2 or more isolates. Five isolates showed mixed infections, and 2 of them were identical. None of the clonal types I, II, or III were found, but 2 isolates corresponded to the Brazilian clonal lineage BrIII. There was a single allele for the c22-8 marker. The CS3 marker demonstrated efficiency in the evaluation of virulence in mice. This study reaffirms the diverse genetic variability of T. gondii in Brazil. [ABSTRACT FROM AUTHOR]

Published

2018

2. Calcite precipitation by Rhodococcus sp. isolated from Kotumsar cave, Chhattisgarh, India.

Author

Baskar, Sushmitha, Chalia, Swati, and Baskar, Ramanathan

Subjects

*CALCITE, *RHODOCOCCUS, *RHODOCOCCUS pathogenicity, *GEOMICROBIOLOGY, *CALCITE analysis

Abstract

The precipitation of carbonate minerals by Rhodococcus sp. strain S14 isolated from Kotumsar cave, Chhattisgarh, India is reported. The speleothems at Kotumsar showed high microbial cell enumeration on B4 agar; iron agar (3.4 × 105 CFU/g) and sulphite agar (7.2 × 10² CFU/g). National Centre for Biotechnology Information database was used for the BLASTn sequence search of 16S rRNA sequences. The S14 strain gave similarity scores of ≥99% with the respective organisms on the database. The strain was identified as Rhodococcus sp. Culture experiments performed using the isolated strains suggested that the rate of precipitation was dependent on pH, temperature and bacterial growth. Rhodococcus sp. S14 strain induced the formation of calcite in vitro and the biominerals produced were calcified spherulites with pores (as imaged with SEM). The precipitate, at the end of the experimental period of 35 days, had the appearance of coccoliths. This is the initial report on the possible involvement of Rhodococcus sp. in the precipitation of carbonates at Kotumsar cave. [ABSTRACT FROM AUTHOR]

Published

2018

3. Plant teratologies as a result of phytoplasma infections.

Author

Spallino, Rosa Elena, Rizza, Serena, Oliveri, Cinzia, Catara, Vittoria, Marzachì, Cristina, and Tessitori, Matilde

Subjects

*PLANT abnormalities, *PHYTOPLASMA diseases, *RHODOCOCCUS pathogenicity, *RIBOSOMAL RNA, *LINARIA

Abstract

The direct correlation between teratological cases and phytoplasma infections was ascertained in spontaneous and cultivated plant species. Plants, belonging to 31 species and 12 families, showing symptoms of growth abnormalities were collected and analysed. Attempted detection ofRhodococcus fasciansby isolation, PCR indexing and 16S rRNA sequencing from fasciated tissues allowed to exclude its presence. Nested PCR by universal primers and 16S rRNA sequence analyses indicated the presence of phytoplasmas, belonging to six groups, in the 44% of symptomatic samples. Among the infected species,Austrocylindropuntia exaltata,Opuntia subulata,Euphorbia characias,Euphorbia dendroides,Euphorbia linifolia,Euphorbia myrsinites,Rumex buchephalophorus,Linaria multicaulisandFedia cornucopiaerepresent new phytoplasma hosts world-wide.Moreover this is the first report of phytoplasma belonging to subgroup 16SrRNA II-I in Italy. These findings together with the known erratic distribution in plant tissues of these phloem-restricted prokaryotes indicate a close correlation between fasciation and similar growth disorders and phytoplasma infections. [ABSTRACT FROM PUBLISHER]

Published

2017

4. Membrane transport systems and the biodegradation potential and pathogenicity of genus Rhodococcus.

Author

de Carvalho, Carla C. C. R., Costa, Sofia S., Fernandes, Pedro, Couto, Isabel, and Viveiros, Miguel

Subjects

BIOLOGICAL transport, BIODEGRADATION, RHODOCOCCUS, BACTERIAL cells, CELL physiology, RHODOCOCCUS pathogenicity, BACTERIA

Abstract

The Rhodococcus genus contains species with remarkable ability to tolerate toxic compounds and to degrade a myriad of substrates. These substrates have to cross a distinctive cell envelope dominated by mycolic acids anchored in a scaffold of arabinogalactan covalently attached to the cell wall peptidoglycan, and a cellular membrane with phospholipids, whose composition in fatty acids can be rapidly altered in response to environmental conditions. The hydrophobic nature of the cell envelope facilitates the entrance of hydrophobic molecules but some substrates require active transport systems. Additionally, toxic compounds may also be extruded by energy spending efflux systems. In this review, physiological evidences of the use of transport systems by Rhodococcus strains and genomic studies that corroborate their existence are presented and discussed. The recently released complete genomes of several Rhodococcus strains will be the basis for an in silico correlation analysis between the efflux pumps present in the genome and their role on active transport of substrates. These transport systems will be placed on an integrative perspective of the impact of this important genus on biotechnology and health, ranging from bioremediation to antibiotic and biocide resistance. [ABSTRACT FROM AUTHOR]

Published

2014

5. Loop-Mediated Isothermal Amplification and Polymerase Chain Reaction Methods for Specific and Rapid Detection of Rhodococcus fascians.

Author

Serdani, M., Curtis, M., Miller, M. L., Kraus, J., and Putnam, M. L.

Subjects

*RHODOCOCCUS, *POLYMERASE chain reaction, *PHYTOPATHOGENIC microorganisms, *ORNAMENTAL plant diseases & pests, *SENSITIVITY analysis, *GENE expression in plants, *RHODOCOCCUS pathogenicity

Abstract

Rhodococcus fascians is a phytopathogenic actinobacterium which causes leafy galls and other plant distortions that result in economically significant losses to nurseries producing ornamental plants. Traditional assays for detection and identification are time-consuming and laborious. We developed a rapid polymerase chain reaction (PCR) diagnostic assay based on two primer pairs, p450 and fas, which target thefasA and fasD genes, respectively, that are essential for pathogenicity. We also developed a faster, more convenient, loop-mediated iso-thermal amplification (LAMP) assay targeting the fasR gene, which regulates expression of virulence genes. Both assays were evaluated for sensitivity and specificity in vitro and in planta. The p450 and fas pri-mers amplified DNA only from pure cultures of pathogenic reference isolates of R. fascians. Nonpathogenic isolates and 51 other plant-associated bacteria were not amplified. The PCR primers correctly detected pathogenic R. fascians from 73 of 75 (97%) bacterial strains isolated from naturally infected plants. The PCR assay correctly dis-criminated between pathogenic R. fascians and other bacteria in 132 of 139 (95%) naturally infected plants, and in 34 of 34 (100%) artificially inoculated plants. The fas primers were slightly more accurate than the p450 primers. The LAMP assay accurately detected pathogenic R. fascians in 26 of 28 (93%) naturally infected plants and did not react with 23 asymptomatic plants. The LAMP primers also amplified product for DNA extracts of 40 of 41 bacterial strains isolated from plants with leafy galls. The detection limit of both the PCR and LAMP assays was approximately 10³ CFU/30-μl reaction. These new tools allow fast, reliable, and accurate detection of R. fascians in vitro and in planta. The LAMP assay in particular is a significant advancement in rapid R. fascians diagnostics, and enables those with limited laboratory facili-ties to confirm the presence of this pathogen in infected plants. [ABSTRACT FROM AUTHOR]

Published

2013

6. The Steroid Catabolic Pathway of the Intracellular Pathogen Rhodococcus equi Is Important for Pathogenesis and a Target for Vaccine Development.

Author

van der Geize, R., Grommen, A. W. F., Hessels, G. I., Jacobs, A. A. C., and Dijkhuizen, L.

Subjects

*INTRACELLULAR pathogens, *RHODOCOCCUS pathogenicity, *STEROIDS, *LUNG diseases, *DRUG metabolism, *TARGETED drug delivery, *MYCOBACTERIUM tuberculosis, *VIRAL vaccines, *TRANSFERASES, *DRUG development

Abstract

Rhodococcus equi causes fatal pyogranulomatous pneumonia in foals and immunocompromised animals and humans. Despite its importance, there is currently no effective vaccine against the disease. The actinobacteria R. equi and the human pathogen Mycobacterium tuberculosis are related, and both cause pulmonary diseases. Recently, we have shown that essential steps in the cholesterol catabolic pathway are involved in the pathogenicity of M. tuberculosis. Bioinformatic analysis revealed the presence of a similar cholesterol catabolic gene cluster in R. equi. Orthologs of predicted M. tuberculosis virulence genes located within this cluster, i.e. ipdA (rv3551), ipdB (rv3552), fadA6 and fadE30, were identified in R. equi RE1 and inactivated. The ipdA and ipdB genes of R. equi RE1 appear to constitute the α-ubunit and β-subunit, respectively, of a heterodimeric coenzyme A transferase. Mutant strains RE1δipdδB and RE1δfadE30, but not RE1δfadδ6, were impaired in growth on the steroid catabolic pathway intermediates 4-androstene-3,17-dione (AD) and 3aα-H-4α(3'-propionic acid)-5α- hydroxy-7aβ-methylhexahydro-1-indanone (5α-hydroxy-methylhexahydro-1-indanone propionate; 5OH-HIP). Interestingly, RE1δipdAB and RE1δfadE30, but not RE1δfadA6, also displayed an attenuated phenotype in a macrophage infection assay. Gene products important for growth on 5OH-HIP, as part of the steroid catabolic pathway, thus appear to act as factors involved in the pathogenicity of R. equi. Challenge experiments showed that RE1δipdAB could be safely administered intratracheally to 2 to 5 week-old foals and oral immunization of foals even elicited a substantial protective immunity against a virulent R. equi strain. Our data show that genes involved in steroid catabolism are promising targets for the development of a live-attenuated vaccine against R. equi infections. [ABSTRACT FROM AUTHOR]

Published

2011

7. Analysis of virulence plasmid gene expression of intra-macrophage and in vitro grown Rhodococcus equi ATCC 33701

Author

Ren, Jun and Prescott, John F.

Subjects

*MACROPHAGES, *GENE expression, *RHODOCOCCUS pathogenicity

Abstract

Rhodococcus equi is a soil organism that infects macrophages of foals and immunocompromised humans. Virulence in foal isolates is tightly associated with an 80 kb plasmid, which includes a pathogenicity island (PI) with a virulence-associated gene family, vap. A DNA microarray containing 66 of 69 putative open reading frames (ORFs) of the virulence plasmid was developed. Virulence plasmid gene expression of R. equi grown in macrophages or under different conditions in vitro was compared against in vitro growth at 30 °C, pH=7. When grown in macrophages, all seven vap family genes as well as six ORFs within, but not outside, the PI were induced. Cluster analysis of the gene expression matrix assembled from different growth conditions suggested that those genes that actively responded to environmental changes divided broadly into two groups. One group, orf1, 2, 5, 6–8, 12–15, 19, and 20 (which includes all the vap genes), was induced at 37 °C, mostly by low iron, and to a lesser extent by the synergy of low calcium and pH=5. The second group, orf3, 9, and 10, was induced at 37 °C by magnesium depletion (produced by EDTA treatment of growth medium). Temperature (37 °C) was the most important factor inducing gene expression for the both groups. Iron restriction led to down-regulation of Group II genes and magnesium restriction led to down-regulation of Group I genes. A putative consensus IdeR binding site was identified upstream of vapA, suggesting that vapA is a member of an IdeR regulon in R. equi. Expression of genes inside macrophages was most closely but not completely mimicked by growth of bacteria at 37 °C, pH=5, under conditions of restricted iron, calcium and magnesium; that is, similar to environmental factors found inside macrophages. [Copyright &y& Elsevier]

Published

2003

8. Chromosomal Locus That Affects Pathogenicity of Rhodococcus fascians.

Author

Vereecke, Danny, Cornelis, Karen, Temmerman, Wim, Jaziri, Mondher, Van Mantagu, Marc, Holsters, Marcelle, and Goethals, Koen

Subjects

*PATHOGENIC bacteria, *BACTERIAL genetics, *RHODOCOCCUS pathogenicity

Abstract

Characterizes the chromosomal locus, designated as vic, that leads to a severe attenuation of virulence in the pathogenic bacterium Rhodococcus fascians. Sequence analysis of vic locus; Presence of Mas homologue in vic; Dependence of the expression of mutant vicA on the available carbon sources.

Published

2002

9. Evolutionary transitions between beneficial and phytopathogenic Rhodococcus challenge disease management.

Author

Savory EA, Fuller SL, Weisberg AJ, Thomas WJ, Gordon MI, Stevens DM, Creason AL, Belcher MS, Serdani M, Wiseman MS, Grünwald NJ, Putnam ML, and Chang JH

Subjects

Disease Management, Gene Expression Regulation, Bacterial, Genes, Bacterial, Phylogeny, Pistacia growth & development, Plasmids, Rhodococcus growth & development, Virulence, Evolution, Molecular, Pistacia microbiology, Plant Diseases microbiology, Rhodococcus genetics, Rhodococcus pathogenicity

Abstract

Understanding how bacteria affect plant health is crucial for developing sustainable crop production systems. We coupled ecological sampling and genome sequencing to characterize the population genetic history of Rhodococcus and the distribution patterns of virulence plasmids in isolates from nurseries. Analysis of chromosome sequences shows that plants host multiple lineages of Rhodococcus , and suggested that these bacteria are transmitted due to independent introductions, reservoir populations, and point source outbreaks. We demonstrate that isolates lacking virulence genes promote beneficial plant growth, and that the acquisition of a virulence plasmid is sufficient to transition beneficial symbionts to phytopathogens. This evolutionary transition, along with the distribution patterns of plasmids, reveals the impact of horizontal gene transfer in rapidly generating new pathogenic lineages and provides an alternative explanation for pathogen transmission patterns. Results also uncovered a misdiagnosed epidemic that implicated beneficial Rhodococcus bacteria as pathogens of pistachio. The misdiagnosis perpetuated the unnecessary removal of trees and exacerbated economic losses.

Published

2017

10. Plasmid-powered evolutionary transitions.

Author

Melnyk RA and Haney CH

Subjects

Bacterial Proteins genetics, Rhodococcus genetics, Virulence, Biological Evolution, Plant Diseases microbiology, Plasmids genetics, Rhodococcus pathogenicity

Abstract

The acquisition of a virulence plasmid is sufficient to turn a beneficial strain of Rhodococcus bacteria into a pathogen.

Published

2017

11. Lipid structure influences the ability of glucose monocorynomycolate to signal through Mincle.

Author

van der Peet PL, Nagata M, Shah S, White JM, Yamasaki S, and Williams SJ

Subjects

Crystallography, X-Ray, Glycolipids chemistry, Host-Pathogen Interactions, Humans, Lectins, C-Type genetics, Magnetic Resonance Spectroscopy, Membrane Proteins genetics, Membrane Proteins metabolism, Mycobacterium tuberculosis pathogenicity, Receptors, Immunologic genetics, Rhodococcus pathogenicity, Signal Transduction, Glycolipids metabolism, Lectins, C-Type metabolism, Lipids chemistry, Receptors, Immunologic metabolism

Abstract

Mincle (macrophage-inducible C-type lectin) is a C-type lectin receptor that provides the capacity for immune sensing of a range of pathogen- and commensal-derived glycolipids. Mincle can recognize mycolic and/or corynomycolic acid esters of trehalose, glycerol and glucose from mycobacteria and corynebacteria. While simple straight-chain long fatty acids (e.g. behenic acid) can substitute for mycolic acid on trehalose and glycerol and maintain robust signalling through Mincle, glucose monobehenate has been reported to be much less active than glucose monocorynomycolate (GMCM). We report the preparation of a range of analogues of GMCM to explore structural requirements in the lipid chain for signalling through Mincle. GMCM analogues bearing simple straight chain or branched fatty acid esters provided only weak signalling through human and mouse Mincle. A GMCM variant with a truncated (pentyl) α-chain provided attenuated signalling, whereas an analogue with an extended (tricosyl; C23) α-chain signalled as potently as GMCM. This work suggests that Mincle has the ability to survey mycolate-derived glycolipids from actinomycetes, distinguishing non-pathogenic (e.g. Rhodococcus spp.) and pathogenic (e.g. Mycobacterium tuberculosis) species on the basis of α-chain length. Finally, an α-phenyldodecyl analogue of GMCM possessed similar potency to GMCM and was only slightly less potent than trehalose dimycolate (cord factor), showing that large functional groups may be tolerated in the α-chain.

Published

2016

12. Mining the genome of Rhodococcus fascians, a plant growth-promoting bacterium gone astray.

Author

Francis IM, Stes E, Zhang Y, Rangel D, Audenaert K, and Vereecke D

Subjects

Arabidopsis growth & development, Arabidopsis microbiology, Bacterial Proteins biosynthesis, Bacterial Proteins genetics, Biotechnology, Chromosomes, Bacterial genetics, Cytokinins biosynthesis, Cytokinins genetics, Ethylenes metabolism, Genome, Bacterial, Host-Pathogen Interactions genetics, Host-Pathogen Interactions physiology, Indoleacetic Acids metabolism, Plant Development, Plant Diseases microbiology, Plant Growth Regulators biosynthesis, Plant Growth Regulators genetics, Rhodococcus physiology, Virulence genetics, Virulence physiology, Plants microbiology, Rhodococcus genetics, Rhodococcus pathogenicity

Abstract

Rhodococcus fascians is a phytopathogenic Gram-positive Actinomycete with a very broad host range encompassing especially dicotyledonous herbaceous perennials, but also some monocots, such as the Liliaceae and, recently, the woody crop pistachio. The pathogenicity of R. fascians strain D188 is known to be encoded by the linear plasmid pFiD188 and to be dictated by its capacity to produce a mixture of cytokinins. Here, we show that D188-5, the nonpathogenic plasmid-free derivative of the wild-type strain D188 actually has a plant growth-promoting effect. With the availability of the genome sequence of R. fascians, the chromosome of strain D188 was mined for putative plant growth-promoting functions and the functionality of some of these activities was tested. This analysis together with previous results suggests that the plant growth-promoting activity of R. fascians is due to production of plant growth modulators, such as auxin and cytokinin, combined with degradation of ethylene through 1-amino-cyclopropane-1-carboxylic acid deaminase. Moreover, R. fascians has several functions that could contribute to efficient colonization and competitiveness, but there is little evidence for a strong impact on plant nutrition. Possibly, the plant growth promotion encoded by the D188 chromosome is imperative for the epiphytic phase of the life cycle of R. fascians and prepares the plant to host the bacteria, thus ensuring proper continuation into the pathogenic phase., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

13. LONELY-GUY Knocks Every Door: Crosskingdom Microbial Pathogenesis.

Author

Naseem M, Sarukhanyan E, and Dandekar T

Subjects

Aminohydrolases metabolism, Animals, Arabidopsis Proteins metabolism, Immunity, Innate physiology, Mycobacterium tuberculosis pathogenicity, Rhodococcus metabolism, Rhodococcus pathogenicity, Cytokinins metabolism, Host-Pathogen Interactions physiology, Mycobacterium tuberculosis metabolism, Plant Diseases microbiology

Abstract

Many plant microbial pathogens utilize cytokinins to establish inter-actions with their host. However, the production of cytokinins by an animal pathogen has just been reported for the first time. Here we discuss the impact of microbial secreted cytokinins on the infection dynamics in plant and animal cells.

Published

2015

14. Methylated Cytokinins from the Phytopathogen Rhodococcus fascians Mimic Plant Hormone Activity.

Author

Radhika V, Ueda N, Tsuboi Y, Kojima M, Kikuchi J, Kudo T, and Sakakibara H

Subjects

Arabidopsis drug effects, Cytokinins pharmacology, Isopentenyladenosine chemistry, Isopentenyladenosine metabolism, Methylation, Molecular Mimicry, Molecular Structure, Plant Roots drug effects, Plant Roots growth & development, Rhodococcus metabolism, Arabidopsis microbiology, Cytokinins chemistry, Cytokinins metabolism, Host-Pathogen Interactions, Rhodococcus pathogenicity

Abstract

Cytokinins (CKs), a class of phytohormones that regulate plant growth and development, are also synthesized by some phytopathogens to disrupt the hormonal balance and to facilitate niche establishment in their hosts. Rhodococcus fascians harbors the fasciation (fas) locus, an operon encoding several genes homologous to CK biosynthesis and metabolism. This pathogen causes unique leafy gall symptoms reminiscent of CK overproduction; however, bacterial CKs have not been clearly correlated with the severe symptoms, and no virulence-associated unique CKs or analogs have been identified. Here, we report the identification of monomethylated N(6)-(∆(2)-isopentenyl)adenine and dimethylated N(6)-(∆(2)-isopentenyl)adenine (collectively, methylated cytokinins [MeCKs]) from R. fascians. MeCKs were recognized by a CK receptor and up-regulated type-A ARABIDOPSIS THALIANA RESPONSE REGULATOR genes. Treatment with MeCKs inhibited root growth, a hallmark of CK action, whereas the receptor mutant was insensitive. MeCKs were retained longer in planta than canonical CKs and were poor substrates for a CK oxidase/dehydrogenase, suggesting enhanced biological stability. MeCKs were synthesized by S-adenosyl methionine-dependent methyltransferases (MT1 and MT2) that are present upstream of the fas genes. The best substrate for methylation was isopentenyl diphosphate. MT1 and MT2 catalyzed distinct methylation reactions; only the MT2 product was used by FAS4 to synthesize monomethylated N(6)-(∆(2)-isopentenyl)adenine. The MT1 product was dimethylated by MT2 and used as a substrate by FAS4 to produce dimethylated N(6)-(∆(2)-isopentenyl)adenine. Chemically synthesized MeCKs were comparable in activity. Our results strongly suggest that MeCKs function as CK mimics and play a role in this plant-pathogen interaction., (© 2015 American Society of Plant Biologists. All Rights Reserved.)

Published

2015

15. [Applicability of MALDI Mass Spectrometry for Diagnostics of Phase Variants in Bacterial Populations].

Author

Kryazhevskikh NA, Loiko NG, Demkina EV, Mulyukin AL, Lebedev AT, Gaponov AM, Tutel'yan AV, Nikolaeva YA, and El'-Registan GI

Subjects

Acinetobacter chemistry, Acinetobacter metabolism, Acinetobacter pathogenicity, Arthrobacter chemistry, Arthrobacter metabolism, Arthrobacter pathogenicity, Bacterial Proteins classification, Bacterial Typing Techniques instrumentation, Corynebacterium chemistry, Corynebacterium metabolism, Corynebacterium pathogenicity, Data Interpretation, Statistical, Escherichia chemistry, Escherichia metabolism, Escherichia pathogenicity, Phenotype, Phylogeny, Rhodococcus chemistry, Rhodococcus metabolism, Rhodococcus pathogenicity, Virulence, Acinetobacter classification, Arthrobacter classification, Bacterial Proteins isolation & purification, Corynebacterium classification, Escherichia classification, Rhodococcus classification, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization statistics & numerical data

Abstract

Efficiency of MALDI mass spectrometry for differentiation between phenotypic phase variants (in colony morphology and virulence/avirulence) was investigated.for saprotrophic and opportunistically pathogenic bacteria of five genera (Acinetobacter, Arthrobacter, Rhodococcus, Corynebacterium, and Escherichia). Analysis of MALDI spectra (on the SA and HCCA matrices) included: (1) determination of similarity of the protein spectra as a percentage of the common protein peaks to the total amount of proteins, which reflects the phylogenetic relationships of the objects and has been recommended for identification of closely related species; (2) comparison of intensities of the common peaks; and (3) the presence of specific peaks as determinative characteristics of the variants. Under the standard analytical conditions the similarity between the MALDI profiles was shown to increase in the row: genus-species-strain-variant. Assessment of intensities of the common peaks was most applicable for differentiation between phase variants, especially in the case of high similarity of their profiles. Phase variants (A. oxydans strain K14) with similar colony morphotypes (S, R, M, and S(m)) grown on different media (LB agar, TSA, and TGYg) exhibited differences in their protein profiles reflecting the differences in their physiological characteristics. This finding is in agreement with our previous results on screening of the R. opacus with similar colony morphology and different substrate specificity in decomposition of chlorinated phenols. Analysis of MALDI spectra is probably the only efficient method for detection of such variants.

Published

2015

16. Genomic analyses confirm close relatedness between Rhodococcus defluvii and Rhodococcus equi (Rhodococcus hoagii).

Author

Sangal V, Jones AL, Goodfellow M, Hoskisson PA, Kämpfer P, and Sutcliffe IC

Subjects

Base Sequence, Genes, Bacterial, Genomics, Molecular Sequence Data, Phylogeny, Plasmids, Rhodococcus pathogenicity, Rhodococcus equi pathogenicity, Virulence genetics, Genome, Bacterial, Rhodococcus classification, Rhodococcus genetics, Rhodococcus equi classification, Rhodococcus equi genetics

Abstract

Rhodococcus defluvii strain Ca11(T) was isolated from a bioreactor involved in extensive phosphorus removal. We have sequenced the whole genome of this strain, and our comparative genomic and phylogenetic analyses confirm its close relatedness with Rhodococcus equi (Rhodococcus hoagii) strains, which share >80 % of the gene content. The R. equi virulence plasmid is absent though most of the chromosomal R. equi virulence-associated genes are present in R. defluvii Ca11(T). These data suggest that although R. defluvii is an environmental organism, it has the potential to colonize animal hosts.

Published

2015

17. Analysis of genome sequences from plant pathogenic Rhodococcus reveals genetic novelties in virulence loci.

Author

Creason AL, Vandeputte OM, Savory EA, Davis EW 2nd, Putnam ML, Hu E, Swader-Hines D, Mol A, Baucher M, Prinsen E, Zdanowska M, Givan SA, El Jaziri M, Loper JE, Mahmud T, and Chang JH

Subjects

Amino Acid Sequence, Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacterial Proteins metabolism, Conserved Sequence, Evolution, Molecular, Gene Fusion, Gene Transfer, Horizontal genetics, Genome, Bacterial genetics, Isopentenyladenosine metabolism, Molecular Sequence Data, Operon genetics, Plasmids genetics, Polymorphism, Genetic, Rhodococcus metabolism, Rhodococcus physiology, Genetic Loci genetics, Genomics, Plants microbiology, Rhodococcus genetics, Rhodococcus pathogenicity, Sequence Analysis

Abstract

Members of Gram-positive Actinobacteria cause economically important diseases to plants. Within the Rhodococcus genus, some members can cause growth deformities and persist as pathogens on a wide range of host plants. The current model predicts that phytopathogenic isolates require a cluster of three loci present on a linear plasmid, with the fas operon central to virulence. The Fas proteins synthesize, modify, and activate a mixture of growth regulating cytokinins, which cause a hormonal imbalance in plants, resulting in abnormal growth. We sequenced and compared the genomes of 20 isolates of Rhodococcus to gain insights into the mechanisms and evolution of virulence in these bacteria. Horizontal gene transfer was identified as critical but limited in the scale of virulence evolution, as few loci are conserved and exclusive to phytopathogenic isolates. Although the fas operon is present in most phytopathogenic isolates, it is absent from phytopathogenic isolate A21d2. Instead, this isolate has a horizontally acquired gene chimera that encodes a novel fusion protein with isopentyltransferase and phosphoribohydrolase domains, predicted to be capable of catalyzing and activating cytokinins, respectively. Cytokinin profiling of the archetypal D188 isolate revealed only one activate cytokinin type that was specifically synthesized in a fas-dependent manner. These results suggest that only the isopentenyladenine cytokinin type is synthesized and necessary for Rhodococcus phytopathogenicity, which is not consistent with the extant model stating that a mixture of cytokinins is necessary for Rhodococcus to cause leafy gall symptoms. In all, data indicate that only four horizontally acquired functions are sufficient to confer the trait of phytopathogenicity to members of the genetically diverse clade of Rhodococcus.

Published

2014

18. Rhodococcus bacteria found to have dual functions.

Subjects

RHODOCOCCUS, RHODOCOCCUS pathogenicity, PATHOGENIC bacteria, PLASMIDS, MOLECULES

Abstract

The article reports on research that identified species of Rhodococcus bacteria that transition between beneficial and pathogenic. Topics discussed include the use of DNA molecules known as plasmids in determining Rhodococcus transitioning between being a "good" and "bad" bacteria and the development of molecular tools that allow the user to discriminate between the beneficial and pathogenic strains of Rhodococcus.

Published

2018

19. The leafy gall syndrome induced by Rhodococcus fascians.

Author

Stes E, Francis I, Pertry I, Dolzblasz A, Depuydt S, and Vereecke D

Subjects

Bacterial Proteins genetics, Cytokinins metabolism, Gene Expression Regulation, Bacterial, Metabolic Networks and Pathways genetics, Plasmids, Rhodococcus genetics, Virulence Factors genetics, Plant Diseases microbiology, Rhodococcus pathogenicity

Abstract

The Actinomycete Rhodococcus fascians causes the leafy gall syndrome, an infectious plant disease that affects a wide range of plants, primarily dicotyledonous herbs. The syndrome is associated with delayed senescence, loss of apical dominance, activation of dormant axillary meristems, and formation of multiple inflorescences, leading to a stunted and bushy plant appearance. A major breakthrough in the elucidation of the virulence strategy of this pathogen was the discovery of a linear virulence plasmid, pFiD188 for R. fascians strain D188. Upon perception of a compatible host plant, an autoregulatory mechanism mediated by the att operon directs a switch in the bacterial life style from a harmless epiphyte into a pathogenic endophyte and, concomitantly, activates gene expression of the fas operon that encodes a cytokinin biosynthesis pathway. A mixture of five cytokinins determines the cytokinin activity of R. fascians that directly affects plant responses and development. Moreover, the bacterial cytokinins stimulate the host to produce auxins and polyamines, that function as accessory signals to aid in symptom development. The plant reacts against the developmental hijacking by R. fascians by activating a set of counteracting measures that ultimately results in a delicate balance, allowing a long-lasting biotrophic interaction., (© 2013 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published

2013

20. pFiD188, the linear virulence plasmid of Rhodococcus fascians D188.

Author

Francis I, De Keyser A, De Backer P, Simón-Mateo C, Kalkus J, Pertry I, Ardiles-Diaz W, De Rycke R, Vandeputte OM, El Jaziri M, Holsters M, and Vereecke D

Subjects

Amino Acid Sequence, Bacterial Proteins genetics, Base Sequence, Biofilms growth & development, Conjugation, Genetic, DNA Mutational Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, Gene Expression Regulation genetics, Genes, Bacterial genetics, Molecular Sequence Data, Operon genetics, Plant Leaves microbiology, Replicon genetics, Rhodococcus enzymology, Rhodococcus pathogenicity, Rhodococcus ultrastructure, Sequence Alignment, Sequence Analysis, DNA, Telomere, Virulence genetics, Plant Diseases microbiology, Plasmids genetics, Rhodococcus genetics, Nicotiana microbiology

Abstract

Rhodococcus fascians is currently the only phytopathogen of which the virulence genes occur on a linear plasmid. To get insight into the origin of this replicon and into the virulence strategy of this broad-spectrum phytopathogen, the sequence of the linear plasmid of strain D188, pFiD188, was determined. Analysis of the 198,917 bp revealed four syntenic regions with linear plasmids of R. erythropolis, R. jostii, and R. opacus, suggesting a common origin of these replicons. Mutational analysis of pFi_086 and pFi_102, similar to cutinases and type IV peptidases, respectively, showed that conserved region R2 was involved in plasmid dispersal and pointed toward a novel function for actinobacterial cutinases in conjugation. Additionally, pFiD188 had three regions that were unique for R. fascians. Functional analysis of the stk and nrp loci of regions U2 and U3, respectively, indicated that their role in symptom development was limited compared with that of the previously identified fas, att, and hyp virulence loci situated in region U1. Thus, pFiD188 is a typical rhodococcal linear plasmid with a composite structure that encodes core functions involved in plasmid maintenance and accessory functions, some possibly acquired through horizontal gene transfer, implicated in virulence and the interaction with the host.

Published

2012

21. Plant-derived auxin plays an accessory role in symptom development upon Rhodococcus fascians infection.

Author

Stes E, Prinsen E, Holsters M, and Vereecke D

Subjects

Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis microbiology, Biological Transport, Cytokinins pharmacology, Gene Expression Regulation, Plant drug effects, Host-Pathogen Interactions, Indoleacetic Acids analysis, Indoles metabolism, Models, Biological, Mutation, Plant Components, Aerial genetics, Plant Components, Aerial growth & development, Plant Components, Aerial microbiology, Plant Components, Aerial physiology, Plant Growth Regulators analysis, Plant Leaves genetics, Plant Leaves growth & development, Plant Leaves microbiology, Plant Leaves physiology, RNA, Plant genetics, Reverse Transcriptase Polymerase Chain Reaction, Rhodococcus growth & development, Signal Transduction drug effects, Tryptophan Transaminase genetics, Virulence drug effects, Arabidopsis physiology, Indoleacetic Acids metabolism, Plant Diseases microbiology, Plant Growth Regulators metabolism, Rhodococcus pathogenicity

Abstract

The biotrophic phytopathogen Rhodococcus fascians has a profound impact on plant development, mainly through its principal virulence factors, a mix of synergistically acting cytokinins that induce shoot formation. Expression profiling of marker genes for several auxin biosynthesis routes and mutant analysis demonstrated that the bacterial cytokinins stimulate the auxin biosynthesis of plants via specific targeting of the indole-3-pyruvic acid (IPA) pathway, resulting in enhanced auxin signaling in infected tissues. The double mutant tryptophan aminotransferase 1-1 tryptophan aminotransferase related 2-1 (taa1-1 tar2-1) of Arabidopsis (Arabidopsis thaliana), in which the IPA pathway is defective, displayed a decreased responsiveness towards R. fascians infection, although bacterial colonization and virulence gene expression were not impaired. These observations implied that plant-derived auxin was employed to reinforce symptom formation. Furthermore, the increased auxin production and, possibly, the accumulating bacterial cytokinins in infected plants modified the polar auxin transport so that new auxin maxima were repetitively established and distributed, a process that is imperative for symptom onset and maintenance. Based on these findings, we extend our model of the mode of action of bacterial and plant signals during the interaction between R. fascians and Arabidopsis., (© 2011 The Authors. The Plant Journal © 2011 Blackwell Publishing Ltd.)

Published

2012

22. Virulence quenching with a prenylated isoflavanone renders the Malagasy legume Dalbergia pervillei resistant to Rhodococcus fascians.

Author

Rajaonson S, Vandeputte OM, Vereecke D, Kiendrebeogo M, Ralambofetra E, Stévigny C, Duez P, Rabemanantsoa C, Mol A, Diallo B, Baucher M, and El Jaziri M

Subjects

Anti-Bacterial Agents isolation & purification, Anti-Bacterial Agents pharmacology, Dalbergia microbiology, Gene Expression Regulation, Bacterial, Isoflavones isolation & purification, Molecular Structure, Monoterpenes isolation & purification, Plant Bark chemistry, Plant Extracts pharmacology, Plant Tumors microbiology, Prenylation, Rhodococcus drug effects, Rhodococcus genetics, Dalbergia chemistry, Isoflavones pharmacology, Monoterpenes pharmacology, Rhodococcus pathogenicity, Virulence

Abstract

The phytopathogenic Actinomycete Rhodococcus fascians induces leafy galls on a wide range of hosts, causing major economical losses in the ornamentals industry. Although differences in the responsivity occur within species, no plant tested so far could be considered resistant to R. fascians strain D188 infection. Here, we observed that members of the genus Dalbergia, which belong to the Fabaceae, did not develop leafy galls when challenged with R. fascians and we set out to unravel the mechanism of this recalcitrance. Whereas organic extracts of Dalbergia tissues exhibited toxicity towards the bacteria, more importantly, dichloromethane bark extracts inhibited the induction of bacterial virulence gene expression without any apparent loss of viability, illustrating that resistance is likely multifactorial. The virulence quencher was identified as a new prenylated isoflavanone, termed perbergin, and specifically targeted the AttR regulon (a LysR-type transcriptional regulator) which is imperative for the switch of R. fascians from an epiphytic to a pathogenic lifestyle. The mode of action of perbergin demonstrated that just like in Gram-negative host-microbe interactions, also in Gram-positive phytopathogens autoregulation is being targeted by the plant as an efficient means of defence. Moreover, the identification of perbergin opens the path to disease control in affected nurseries., (© 2011 Society for Applied Microbiology and Blackwell Publishing Ltd.)

Published

2011

23. Pseudo-membranes on internal organs associated with Rhodococcus qingshengii infection in Atlantic salmon (Salmo salar).

Author

Avendaño-Herrera R, Balboa S, Doce A, Ilardi P, Lovera P, Toranzo AE, and Romalde JL

Subjects

Actinomycetales Infections microbiology, Actinomycetales Infections pathology, Animals, Chile, Fish Diseases microbiology, Phylogeny, RNA, Ribosomal, 16S genetics, Rhodococcus classification, Rhodococcus genetics, Rhodococcus pathogenicity, Salmo salar, Actinomycetales Infections veterinary, Fish Diseases pathology, Rhodococcus physiology

Abstract

This paper describes a pathological condition in intensive reared Atlantic salmon (Salmo salar), restricted to the appearance of pseudo-membranes covering internal organs (i.e. spleen, liver, heart and others) associated with the presence of large numbers of a Gram-positive bacteria. Isolate 79043-3, obtained as pure culture from affected fish, was subjected to a polyphasic taxonomic study in order to determine its exact taxonomic position, as well as to experimental challenges leading to determine its pathogenic potential for cultured fish. Based on this characterization, we report the first isolation of Rhodococcus qingshengii, from a farmed population of Atlantic salmon in Chile. Virulence studies demonstrated that the isolate fulfilled the Koch's postulates, suggesting that this bacterial species could be considered as an opportunistic pathogen for Atlantic salmon., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2011

24. A successful bacterial coup d'état: how Rhodococcus fascians redirects plant development.

Author

Stes E, Vandeputte OM, El Jaziri M, Holsters M, and Vereecke D

Subjects

Cytokinins metabolism, Homeostasis, Meristem growth & development, Meristem metabolism, Meristem microbiology, Plant Development, Plant Growth Regulators metabolism, Plant Leaves growth & development, Plant Leaves metabolism, Plant Leaves microbiology, Plant Tumors genetics, Plants metabolism, Plasmids genetics, Putrescine metabolism, Rhodococcus pathogenicity, Rhodococcus physiology, Signal Transduction physiology, Virulence genetics, Virulence physiology, Plant Tumors microbiology, Plants microbiology, Rhodococcus genetics

Abstract

Rhodococcus fascians is a gram-positive phytopathogen that induces differentiated galls, known as leafy galls, on a wide variety of plants, employing virulence genes located on a linear plasmid. The pathogenic strategy consists of the production of a mixture of six synergistically acting cytokinins that overwhelm the plant's homeostatic mechanisms, ensuring the activation of a signaling cascade that targets the plant cell cycle and directs the newly formed cells to differentiate into shoot meristems. The shoots that are formed upon infection remain immature and never convert to source tissues resulting in the establishment of a nutrient sink that is a niche for the epiphytic and endophytic R. fascians subpopulations. Niche formation is accompanied by modifications of the transcriptome, metabolome, physiology, and morphology of both host and pathogen. Here, we review a decade of research and set the outlines of the molecular basis of the leafy gall syndrome., (Copyright © 2011 by Annual Reviews. All rights reserved.)

Published

2011

25. Identification of Rhodococcus fascians cytokinins and their modus operandi to reshape the plant.

Author

Pertry I, Václavíková K, Depuydt S, Galuszka P, Spíchal L, Temmerman W, Stes E, Schmülling T, Kakimoto T, Van Montagu MC, Strnad M, Holsters M, Tarkowski P, and Vereecke D

Subjects

Arabidopsis Proteins physiology, Cytokinins analysis, Histidine Kinase, Homeostasis, Protein Kinases physiology, Receptors, Cell Surface physiology, Virulence, Arabidopsis microbiology, Rhodococcus pathogenicity

Abstract

Decades ago, the importance of cytokinins (CKs) during Rhodococcus fascians pathology had been acknowledged, and an isopentenyltransferase gene had been characterized in the fas operon of the linear virulence plasmid, but hitherto, no specific CK(s) could be associated with virulence. We show that the CK receptors AHK3 and AHK4 of Arabidopsis thaliana are essential for symptom development, and that the CK perception machinery is induced upon infection, underlining its central role in the symptomatology. Three classical CKs [isopentenyladenine, trans-zeatin, and cis-zeatin (cZ)] and their 2-methylthio (2MeS)-derivatives were identified by CK profiling of both the pathogenic R. fascians strain D188 and its nonpathogenic derivative D188-5. However, the much higher CK levels in strain D188 suggest that the linear plasmid is responsible for the virulence-associated production. All R. fascians CKs were recognized by AHK3 and AHK4, and, although they individually provoked typical CK responses in several bioassays, the mixture of bacterial CKs exhibited clear synergistic effects. The cis- and 2MeS-derivatives were poor substrates of the apoplastic CK oxidase/dehydrogenase enzymes and the latter were not cytotoxic at high concentrations. Consequently, the accumulating 2MeScZ (and cZ) in infected Arabidopsis tissue contribute to the continuous stimulation of tissue proliferation. Based on these results, we postulate that the R. fascians pathology is based on the local and persistent secretion of an array of CKs.

Published

2009

26. Safety evaluation of a heavy oil-degrading bacterium, Rhodococcus erythropolis C2.

Author

Aoshima H, Hirase T, Tada T, Ichimura N, Kato H, Nagata Y, Myoenzono T, Taguchi M, Takahashi K, Hukuzumi T, Aoki T, Makino S, Hagiya K, and Ishiwata H

Subjects

Animals, Biodegradation, Environmental, Environmental Pollutants metabolism, Female, Guinea Pigs, Male, Mutagenesis, Petroleum, Rabbits, Rats, Rhodococcus chemistry, Safety, Rhodococcus pathogenicity

Abstract

The safety of an oil-degrading bacterium, C2 strain, was evaluated for utilization in an open system for bioremediation of oil-contaminated environments. The C2 strain was identified as Rhodococcus erythropolis by performing an alignment analysis of the whole 16S rRNA sequence. R. erythropolis was classified as a nonpathogenic (category 1) bacterium. Biological and biochemical properties of the C2 strain also confirmed its nonpathogenicity. The pathogenicity and basic ecotoxicity were studied in laboratory animals and in a variety of test species, respectively. General and inhalation toxicities were not detected; additionally, there was no evidence of skin irritation, mutagenic potential, eye irritation, skin sensitization, ecotoxicity or notable pathogenicity. The comparison of these results with human exposure levels and previously published data indicates that the C2 strain appears to be safe for utilization in bioremediation of polluted environments, requires no special occupational health precautions during the application process, and has a low environmental impact. This study suggests that the C2 strain could be suitable for bioremediation of oil-contaminated environments.

Published

2007

27. Rhodococcus fascians infection accelerates progression of tobacco BY-2 cells into mitosis through rapid changes in plant gene expression.

Author

Vandeputte O, Vereecke D, Mol A, Lenjou M, Van Bockstaele D, El Jaziri M, and Baucher M

Subjects

Amino Acid Sequence, Aphidicolin metabolism, Cell Cycle genetics, Cell Division, Cell Line, DNA, Complementary genetics, DNA, Plant genetics, Kinetics, Mitosis, Mitotic Index, Molecular Sequence Data, Plant Proteins genetics, Polymorphism, Genetic, RNA, Messenger genetics, RNA, Plant genetics, Sequence Alignment, Sequence Homology, Amino Acid, Nicotiana cytology, Nicotiana growth & development, Gene Expression Regulation, Plant, Plant Diseases microbiology, Rhodococcus pathogenicity, Nicotiana genetics, Nicotiana microbiology

Abstract

* To characterize plant cell cycle activation following Rhodococcus fascians infection, bacterial impact on cell cycle progression of tobacco BY-2 cells was investigated. * S-phase-synchronized BY-2 cells were cocultivated with R. fascians and cell cycle progression was monitored by measuring mitotic index, cell cycle gene expression and flow cytometry parameters. Cell cycle alteration was further investigated by cDNA-AFLP (amplified fragment length polymorphism). * It was shown that cell cycle progression of BY-2 cells was accelerated only upon infection with bacteria whose virulence gene expression was induced by a leafy gall extract. Thirty-eight BY-2 genes showed a differential expression within 6 h post-infection. Among these, seven were previously associated with specific plant cell cycle phases (in particular S and G2/M phases). Several genes also showed a differential expression during leafy gall formation. * R. fascians-infected BY-2 cells provide a simple model to identify plant genes related to leafy gall development. R. fascians can also be regarded as a useful biotic agent to alter cell cycle progression and, thereby, gain a better understanding of cell cycle regulation in plants.

Published

2007

28. Modulation of eukaryotic cell apoptosis by members of the bacterial order Actinomycetales.

Author

Barry DP and Beaman BL

Subjects

Animals, Corynebacterium diphtheriae pathogenicity, Corynebacterium diphtheriae physiology, Humans, Models, Biological, Mycobacterium avium pathogenicity, Mycobacterium avium physiology, Mycobacterium bovis pathogenicity, Mycobacterium bovis physiology, Mycobacterium tuberculosis pathogenicity, Mycobacterium tuberculosis physiology, Nocardia pathogenicity, Nocardia physiology, Rhodococcus pathogenicity, Rhodococcus physiology, Actinomycetales pathogenicity, Actinomycetales Infections complications, Apoptosis physiology, Eukaryotic Cells microbiology

Abstract

Apoptosis, or programmed cell death, is normally responsible for the orderly elimination of aged or damaged cells, and is a necessary part of the homeostasis and development of multicellular organisms. Some pathogenic bacteria can disrupt this process by triggering excess apoptosis or by preventing it when appropriate. Either event can lead to disease. There has been extensive research into the modulation of host cell death by microorganisms, and several reviews have been published on the phenomenon. Rather than covering the entire field, this review focuses on the dysregulation of host cell apoptosis by members of the order Actinomycetales, containing the genera Corynebacterium, Mycobacterium, Rhodococcus, and Nocardia.

Published

2006

29. Vaccine-associated systemic Rhodococcus erythropolis infection in farmed atlantic salmon Salmo salar.

Author

Olsen AB, Birkbeck TH, Nilsen HK, MacPherson HL, Wangel C, Myklebust C, Laidler LA, Aarflot L, Thoen E, Nygård S, Thayumanavan T, and Colquhoun DJ

Subjects

Actinomycetales Infections epidemiology, Actinomycetales Infections microbiology, Actinomycetales Infections pathology, Animals, Fish Diseases epidemiology, Fish Diseases pathology, Fisheries, Genotype, Peritoneal Cavity microbiology, Phenotype, Phylogeny, Polymerase Chain Reaction veterinary, RNA, Ribosomal, 16S genetics, Rhodococcus classification, Rhodococcus isolation & purification, Survival Analysis, Time Factors, Actinomycetales Infections veterinary, Bacterial Vaccines adverse effects, Fish Diseases microbiology, Rhodococcus pathogenicity, Salmo salar

Abstract

In 7 instances between 2000 and 2003, clinical investigation of populations of fresh- and seawater-reared, vaccinated, Atlantic salmon Salmo salar suffering total losses of between 0.1 and 35 % revealed infection with a Gram-positive rod-shaped bacterium. The isolations were geographically widespread, occurring in both Norway and Scotland. In all cases, a Gram-positive bacterium, subsequently identified as Rhodococcus erythropolis, was isolated in pure culture. Infections, although systemic, were focused within the peritoneal cavity. While initial attempts to reproduce the disease by intraperitoneal injection of unvaccinated Atlantic salmon failed, Koch's postulates were subsequently fulfilled in fish vaccinated with a commercially available oil-adjuvanted vaccine.

Published

2006

30. Biosynthesis of auxin by the gram-positive phytopathogen Rhodococcus fascians is controlled by compounds specific to infected plant tissues.

Author

Vandeputte O, Oden S, Mol A, Vereecke D, Goethals K, El Jaziri M, and Prinsen E

Subjects

Indoleacetic Acids metabolism, Indoles metabolism, Kinetics, Plant Diseases etiology, Plant Diseases microbiology, Plants metabolism, Plasmids genetics, Rhodococcus genetics, Nicotiana metabolism, Nicotiana microbiology, Virulence genetics, Indoleacetic Acids biosynthesis, Plants microbiology, Rhodococcus metabolism, Rhodococcus pathogenicity

Abstract

The role and metabolism of indole-3-acetic acid in gram-negative bacteria is well documented, but little is known about indole-3-acetic acid biosynthesis and regulation in gram-positive bacteria. The phytopathogen Rhodococcus fascians, a gram-positive organism, incites diverse developmental alterations, such as leafy galls, on a wide range of plants. Phenotypic analysis of a leafy gall suggests that auxin may play an important role in the development of the symptoms. We show here for the first time that R. fascians produces and secretes the auxin indole-3-acetic acid. Interestingly, whereas noninfected-tobacco extracts have no effect, indole-3-acetic acid synthesis is highly induced in the presence of infected-tobacco extracts when tryptophan is not limiting. Indole-3-acetic acid production by a plasmid-free strain shows that the biosynthetic genes are located on the bacterial chromosome, although plasmid-encoded genes contribute to the kinetics and regulation of indole-3-acetic acid biosynthesis. The indole-3-acetic acid intermediates present in bacterial cells and secreted into the growth media show that the main biosynthetic route used by R. fascians is the indole-3-pyruvic acid pathway with a possible rate-limiting role for indole-3-ethanol. The relationship between indole-3-acetic acid production and the symptoms induced by R. fascians is discussed.

Published

2005

31. Phenotypic alterations in Arabidopsis thaliana plants caused by Rhodococcus fascians infection.

Author

de O Manes CL, Beeckman T, Ritsema T, Van Montagu M, Goethals K, and Holsters M

Subjects

Arabidopsis growth & development, Microscopy, Fluorescence, Plant Diseases genetics, Plant Diseases parasitology, Plant Stems growth & development, Plant Stems parasitology, Plant Stems ultrastructure, Arabidopsis parasitology, Phenotype, Rhodococcus pathogenicity

Abstract

Arabidopsis thaliana (L.) Heynh. plants were challenged with Rhodococcus fascians at several developmental stages and using different inoculation procedures. A variety of morphological alterations was scored on the infected plants; some of them resembled phenotypes of A. thaliana mutants in their shoot apical meristem (SAM) organization. Infection with R. fascians did not affect SAM organization in wild type nor in SAM mutants. Anatomical studies on the new organs formed after infection with R. fascians demonstrated extensive bacterial colonization. Colonization and concomitant production of specific signals are the likely cause of malformations.

Published

2004

32. Structural and functional features of Rhodococcus ruber lipoarabinomannan.

Author

Gibson KJC, Gilleron M, Constant P, Puzo G, Nigou J, and Besra GS

Subjects

Animals, Carbohydrate Sequence, Cell Line, Humans, Lipopolysaccharides immunology, Lipopolysaccharides pharmacology, Macrophages immunology, Macrophages microbiology, Mice, Molecular Sequence Data, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Rhodococcus chemistry, Tumor Necrosis Factor-alpha biosynthesis, Virulence, Lipopolysaccharides chemistry, Rhodococcus pathogenicity

Abstract

The genus Rhodococcus is part of the phylogenetic group nocardioform actinomycetes, which also includes the genus MYCOBACTERIUM: Members of this phylogenetic group have a characteristic cell envelope structure, which is dominated by various complex lipids. Among these, lipoglycans are of particular interest since mycobacterial lipoarabinomannans are important immunomodulatory molecules that are likely to be involved in the subsequent fate of mycobacterial bacilli once inside phagocytic cells. Rhodococcus ruber is a species closely related to an established opportunistic human pathogen, Rhodococcus equi. This paper reports the isolation and characterization of R. ruber lipoarabinomannan, designated as RruLAM. SDS-PAGE and gas chromatography analyses revealed that RruLAM was of an intermediate size between Mycobacterium tuberculosis lipoarabinomannan and lipomannan. Using a combination of chemical degradation and (1)H, (13)C-NMR experiments, the carbohydrate structure of RruLAM was unambiguously shown to be composed of a linear (alpha1-->6)-Manp backbone substituted at some O-2 positions by a single t-alpha-Araf sugar unit. Integration of the anomeric proton signals provided an indication of the degree of branching as approximately 45 %. The RruLAM structure is much simpler than that established for M. tuberculosis lipoarabinomannan but is also different from that determined for the closely related species and opportunistic human pathogen, R. equi. RruLAM was unable to induce the production of TNF-alpha by either human or murine macrophage cell lines, suggesting that more sophisticated structures, such as phosphoinositol capping motifs, are required for such activity.

Published

2003

33. The use of chemical and molecular microbial indicators for faecal source identification.

Author

Gilpin B, James T, Nourozi F, Saunders D, Scholes P, and Savill M

Subjects

Agriculture, Animals, Bacteroides genetics, Bacteroides pathogenicity, Bifidobacterium genetics, Bifidobacterium pathogenicity, Cattle, Environmental Monitoring, Feces chemistry, Humans, Polymerase Chain Reaction, Rhodococcus genetics, Rhodococcus pathogenicity, Risk Assessment, Sterols analysis, Water Supply, Bacteroides isolation & purification, Bifidobacterium isolation & purification, Feces microbiology, Rhodococcus isolation & purification, Water Microbiology

Abstract

Identifying the source of faecal pollution is important to enable appropriate management of faecal pollution of water. We are developing and evaluating a combination of these microbial and chemical indicators better able to identify the source of faecal pollution. These assays make use of a combination of direct PCR, culturing, and colony hybridisation to identify source specific species of Bifidobacterium, Rhodococcus and Bacteroides. In conjunction with assays for (a) fluorescent whitening agents and (b) faecal sterols and stanols, these indicators were able to identify human derived faecal pollution in river water containing inputs from septic tanks, municipal oxidation ponds, farmed animals and feral animals. Differentiating amongst the animal sources was more difficult and will require development of molecular assays for organisms specific to each animal group.

Published

2003

34. Virulence genes of the phytopathogen Rhodococcus fascians show specific spatial and temporal expression patterns during plant infection.

Author

Cornelis K, Maes T, Jaziri M, Holsters M, and Goethals K

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Colony Count, Microbial, Gene Expression Regulation, Bacterial, Glucuronidase genetics, Glucuronidase metabolism, Plant Leaves microbiology, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Rhodococcus metabolism, Rhodococcus pathogenicity, Nicotiana genetics, Virulence genetics, Plant Diseases microbiology, Rhodococcus genetics, Nicotiana microbiology

Abstract

The phytopathogenic bacterium Rhodococcus fascians provokes shoot meristem formation and malformations on aerial plant parts, mainly at the axils. The interaction is accompanied by bacterial colonization of the plant surface and tissues. Upon infection, the two bacterial loci required for full virulence, fas and att, were expressed only at the sites of symptom development, although their expression profiles differed both spatially and temporally. The att locus was expressed principally in bacteria located on the plant surface at early stages of infection. Expression of the fas locus occurred throughout infection, mainly in bacteria that were penetrating, or had penetrated, the plant tissues and coincided with sites of meristem initiation and proliferation. The implications for the regulation of virulence genes of R. fascians during plant infection are discussed.

Published

2002

35. The att locus of Rhodococcus fascians strain D188 is essential for full virulence on tobacco through the production of an autoregulatory compound.

Author

Maes T, Vereecke D, Ritsema T, Cornelis K, Thu HN, Van Montagu M, Holsters M, and Goethals K

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Histidine metabolism, Mutation, Plants metabolism, Rhodococcus metabolism, Nicotiana physiology, Genes, Bacterial, Plant Tumors microbiology, Rhodococcus genetics, Rhodococcus pathogenicity, Nicotiana microbiology

Abstract

The ability of Rhodococcus fascians strain D188 to provoke leafy gall formation on a variety of plant species is correlated with the linear plasmid pFiD188, on which different pathogenicity loci were identified. The att locus affects the severity of symptom development on tobacco, whereas the fas locus is essential for virulence. To gain insight into the function of the att locus, sequence and expression analyses were performed. The att locus contains nine open reading frames homologous to arginine and beta-lactam biosynthetic genes. att gene expression is transcriptionally induced by leafy gall extracts, but not by extracts of uninfected plants, and depends on the attR gene that encodes a LysR-type transcriptional regulator. The att locus proves to be essential for the formation of inducing factors (IFs) that are present in gall extracts. Because the induction of the fas locus also requires the presence of IFs in gall extracts, the att locus is proposed to play an important role in regulating the expression of the virulence loci of R. fascians.

Published

2001

36. Bacterial symbiosis and paratransgenic control of vector-borne Chagas disease.

Author

Beard CB, Dotson EM, Pennington PM, Eichler S, Cordon-Rosales C, and Durvasula RV

Subjects

Animals, Antimicrobial Cationic Peptides chemistry, Antimicrobial Cationic Peptides genetics, Chagas Disease parasitology, Chagas Disease transmission, Humans, Mice, Mice, Nude, Organisms, Genetically Modified, Rhodococcus pathogenicity, Symbiosis physiology, Trypanosoma cruzi growth & development, Chagas Disease prevention & control, Insect Vectors microbiology, Rhodnius microbiology, Rhodococcus genetics

Abstract

The triatomine vectors of Chagas disease are obligate haematophagous insects, feeding on vertebrate blood throughout their entire developmental cycle. As a result of obtaining their nutrition from a single food source, their diet is devoid of certain vitamins and nutrients. Consequently, these insects harbour populations of bacterial symbionts within their intestinal tract, which provide the required nutrients that are lacking from their diet. We have isolated and characterised symbiont cultures from various triatomine species and developed a method for genetically transforming them. We can then reintroduce them into their original host species, thereby producing stable paratransgenic insects in which we are able to express heterologous gene products. Using this methodology, we have generated paratransgenic Rhodnius prolixus that are refractory for infection with Trypanosoma cruzi. Two examples of potentially refractory genes are currently being expressed in paratransgenic insects. These include the insect immune peptide cecropin A and active single chain antibody fragments. We have also developed an approach that would allow introduction of genetically modified bacterial symbionts into natural populations of Chagas disease vectors. This approach utilises the coprophagic behaviour of these insects, which is the way in which the symbionts are transmitted among bug populations in nature. The production and ultimate release of transgenic or paratransgenic insects for public health applications is potentially very promising but also worthy of much careful consideration with respect to environmental, political, and human safety concerns.

Published

2001

37. The plant pathogen Rhodococcus fascians colonizes the exterior and interior of the aerial parts of plants.

Author

Cornelis K, Ritsema T, Nijsse J, Holsters M, Goethals K, and Jaziri M

Subjects

Arabidopsis cytology, Cryoelectron Microscopy, DNA, Bacterial analysis, Microscopy, Confocal, Microscopy, Electron, Scanning, Microscopy, Fluorescence, Nucleic Acid Hybridization, Plant Diseases microbiology, Plant Leaves ultrastructure, Rhodococcus ultrastructure, Nicotiana cytology, Arabidopsis microbiology, Plant Leaves microbiology, Plants, Toxic, Rhodococcus pathogenicity, Rhodococcus physiology, Nicotiana microbiology

Abstract

Rhodococcus fascians is a plant-pathogenic bacterium that causes malformations on aerial plant parts, whereby leafy galls occur at axillary meristems. The colonization behavior on Nicotiana tabacum and Arabidopsis thaliana plants was examined. Independent of the infection methods, R. fascians extensively colonized the plant surface where the bacteria were surrounded by a slime layer. R. fascians caused the collapse of epidermal cells and penetrated intercellularly into the plant tissues. The onset of symptom development preceded the extensive colonization of the interior. The meristematic regions induced by pathogenic strain D188 were surrounded by bacteria. The nonpathogenic strain, D188-5, colonized the exterior of the plant equally well, but the linear plasmid (pFiD188) seemed to be involved in the penetration efficiency and colonization of tobacco tissues.

Published

2001

38. Rhodococcus equi and cytomegalovirus pneumonia in a renal transplant patient: diagnosis by fine-needle aspiration biopsy.

Author

Simsir A, Oldach D, Forest G, and Henry M

Subjects

Actinomycetales Infections complications, Actinomycetales Infections drug therapy, Adult, Anti-Bacterial Agents, Anti-Infective Agents therapeutic use, Antigens, Viral analysis, Antiviral Agents therapeutic use, Azithromycin therapeutic use, Biopsy, Needle, Cytomegalovirus immunology, Cytomegalovirus isolation & purification, Cytomegalovirus pathogenicity, Cytomegalovirus Infections complications, Cytomegalovirus Infections drug therapy, Ganciclovir therapeutic use, Humans, Immunocompromised Host, Male, Ofloxacin therapeutic use, Pneumonia, Bacterial drug therapy, Pneumonia, Bacterial etiology, Pneumonia, Viral drug therapy, Pneumonia, Viral etiology, Rhodococcus metabolism, Rhodococcus pathogenicity, Tomography, X-Ray Computed, Vancomycin therapeutic use, Actinomycetales Infections diagnosis, Cytomegalovirus Infections diagnosis, Kidney Transplantation, Pneumonia, Bacterial diagnosis, Pneumonia, Viral diagnosis, Postoperative Complications, Rhodococcus isolation & purification

Abstract

Rhodococcus equi is a common cause of pneumonia in animals. Human infection is rare. Increasing number of cases are being reported in immunosuppressed individuals mostly associated with HIV infection, but also in solid organ transplant recipients and leukemia/lymphoma patients. We report on an adult male who developed pneumonia and gastroenteritis 4 mo after receiving a renal transplant. CT scan of the lungs showed a dominant 2.5-cm upper lobe lung mass and smaller bilateral nodules. He underwent a diagnostic bronchoscopy with fine-needle aspiration biopsy of the largest lung nodule. Smears showed histiocytic granulomatous inflammation, foamy macrophages, and acute inflammatory exudate. Scattered foamy macrophages displayed intracellular coccobacilli identifiable on Diff-Quik stain. A few cells with changes suggestive of viral inclusions were identified. Cytomegalovirus (CMV) immunostain was positive in the cell block sections. Lung cultures grew R. equi. To the best of our knowledge, this is the first report of coinfection with R. equi and CMV., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

39. Structure-activity relationship of mycoloyl glycolipids derived from Rhodococcus sp. 4306.

Author

Ueda S, Fujiwara N, Naka T, Sakaguchi I, Ozeki Y, Yano I, Kasama T, and Kobayashi K

Subjects

Animals, Chromatography, Thin Layer, Cord Factors administration & dosage, Granuloma physiopathology, Male, Mice, Mice, Inbred ICR, Mycobacterium tuberculosis metabolism, Rhodococcus metabolism, Structure-Activity Relationship, Trehalose administration & dosage, Trehalose chemistry, Trehalose metabolism, Actinomycetales Infections microbiology, Actinomycetales Infections physiopathology, Cord Factors chemistry, Cord Factors metabolism, Rhodococcus pathogenicity, Trehalose analogs & derivatives

Abstract

Novel mycoloyl glycolipids with short carbon chains were isolated and purified from Rhodococcus sp. 4306, a soil origin of Actinomycetales. Their chemical structures were identified as trehalose 6,6'-dimycolate (TDM), trehalose 6-monomycolate, glucose 6-monomycolate, mannose 6-monomycolate and fructose 6-monomycolate. The length of carbon chains and number of double bonds of mycolic acids were C(34), C(36)and C(38)saturated, monoenoic and dienoic molecular species, which were much shorter than those of Mycobacterium tuberculosis (C(78-88)monoenoic and dienoic). Among them, only TDM could induce prominent granulomatous inflammation of the lung and spleen in mice. By contrast, other mycoloyl glycolipids induced mild lesions. The small-sized TDM of Rhodococcus possessed granulomatogenic activity, however, the toxicity was much lower than that of M. tuberculosis. Rhodococcal TDM was composed of mycolic acid with the shortest carbon chains, when compared to granulomatogenic TDM of Mycobacterium, Nocardia and Rhodococcus reported previously. Our results imply that rhodococcal TDM is a pathogenetic factor similar to that of M. tuberculosis, although rhodococcal TDM exhibits low toxicity., (Copyright 2001 Crown Copyright.)

Published

2001

40. Leafy gall formation by Rhodococcus fascians.

Author

Goethals K, Vereecke D, Jaziri M, Van Montagu M, and Holsters M

Subjects

Magnoliopsida metabolism, Plant Diseases genetics, Plant Diseases microbiology, Plant Growth Regulators metabolism, Plant Leaves metabolism, Plant Leaves microbiology, Plant Tumors genetics, Rhodococcus metabolism, Rhodococcus pathogenicity, Virulence genetics, Magnoliopsida microbiology, Plant Tumors microbiology, Rhodococcus genetics

Abstract

Rhodococcus fascians infects a wide range of plants, initiating the formation of leafy galls that consist of centers of shoot amplification and shoot growth inhibition. R. fascians is an epiphyte but it also can establish endophytic populations. Bacterial signals involved in symptom development initiate de novo cell division and shoot meristem formation in differentiated tissues. The R. fascians signals exert activities that are distinct from mere cytokinin effects, and the evidence points to a process that adopted cytokinin biosynthetic enzymes to form derivatives with unique activity. Genes implicated in leafy gall formation are located on a linear plasmid and are subject to a highly controlling, complex regulatory network, integrating autoregulatory compounds and environmental signals. Leafy galls are considered as centers with specific metabolic features, a niche where populations of R. fascians experience a selective advantage. Such "metabolic habitat modification" might be universal for gall-inducing bacteria.

Published

2001

41. Leafy gall formation is controlled by fasR, an AraC-type regulatory gene in Rhodococcus fascians.

Author

Temmerman W, Vereecke D, Dreesen R, Van Montagu M, Holsters M, and Goethals K

Subjects

Amino Acid Sequence, Escherichia coli genetics, Gene Deletion, Genes, Regulator, Molecular Sequence Data, Mutagenesis, Open Reading Frames, Plant Diseases microbiology, Plant Leaves microbiology, Plasmids, Restriction Mapping, Sequence Alignment, Sequence Homology, Amino Acid, Transcription Factors chemistry, Transcription Factors metabolism, Bacterial Proteins, Plants microbiology, Rhodococcus genetics, Rhodococcus pathogenicity, Transcription Factors genetics, Virulence genetics

Abstract

Rhodococcus fascians can interact with many plant species and induce the formation of either leafy galls or fasciations. To provoke symptoms, R. fascians strain D188 requires pathogenicity genes that are located on a linear plasmid, pFiD188. The fas genes are essential for virulence and constitute an operon that encodes, among other functions, a cytokinin synthase gene. Expression of the fas genes is induced by extracts of infected plant tissue only. We have isolated an AraC-type regulatory gene, fasR, located on pFiD188, which is indispensable for pathogenesis and for fas gene expression. The combined results of our experiments show that in vitro expression of the fas genes in a defined medium is strictly regulated and that several environmental factors (pH, carbon and nitrogen sources, phosphate and oxygen content, and cell density) and regulatory proteins are involved. We further show that expression of the fas genes is controlled at both the transcriptional and the translational levels. The complex expression pattern probably reflects the necessity of integrating a multitude of signals and underlines the importance of the fas operon in the pathogenicity of R. fascians.

Published

2000

42. Pulsed-field gel electrophoresis analysis of the genome of Rhodococcus fascians: genome size and linear and circular replicon composition in virulent and avirulent strains.

Author

Pisabarro A, Correia A, and Martín JF

Subjects

DNA, Circular, Deoxyribonucleases, Type II Site-Specific, Electrophoresis, Gel, Pulsed-Field, Genetic Code, Markov Chains, Nucleic Acid Conformation, Restriction Mapping, Rhodococcus classification, Rhodococcus pathogenicity, Species Specificity, Genome, Bacterial, Replicon, Rhodococcus genetics

Abstract

Total DNA of virulent and avirulent strains of Rhodococcus fascians was resolved by pulsed-field gel electrophoresis (PFGE) into a discrete number of fragments by digestion with the endonucleases AseI and DraI. Restriction endonucleases PacI, PmeI, and SwaI yielded no fragments upon digestion of R. fascians genome, and all the other tested endonucleases recognizing 6 bp released too many fragments. The genome size was 5.6 megabases for the type strain R. fascians DSM 20669, and 5.8 megabases for the virulent R. fascians D188 strain. However the genome size of R. fascians CECT 3001 (NRRL B15096) was 8.0 megabases. No linear chromosome in the megabase range was observed under pulse conditions in which Saccharomyces cerevisiae and Schizosaccharomyces pombe chromosomes were perfectly resolved, suggesting that the R. fascians chromosome is circular. A new linear plasmid pIRN640 of 640 kb was found in the avirulent R. fascians CECT 3001 that did not hybridize with a probe internal to the fas region of pFiD188 known to be involved in plant pathogenicity in the virulent strain R. fascians D188. Virulence was correlated in all strains tested with the presence of the fas region. The AseI and DraI bands corresponding to the extrachromosomal elements were identified providing the basis for a physical map of this organism.

Published

1998

43. Characterization of the rrnB operon of the plant pathogen Rhodococcus fascians and targeted integrations of exogenous genes at rrn loci.

Author

Pisabarro A, Correia A, and Martín JF

Subjects

Base Sequence, Cloning, Molecular, DNA, Bacterial genetics, DNA, Ribosomal genetics, Gene Targeting, Genetic Vectors, Molecular Sequence Data, Operon, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 23S genetics, RNA, Ribosomal, 5S genetics, Restriction Mapping, Sequence Homology, Nucleic Acid, Virulence genetics, Genes, Bacterial, Plants microbiology, Rhodococcus genetics, Rhodococcus pathogenicity

Abstract

A 6.0-kb SalI DNA fragment containing an entire rRNA operon (rrnB) was cloned from a cosmid gene bank of the phytopathogenic strain Rhodococcus fascians D188. The nucleotide sequence of the 6-kb fragment was determined and had the organization 16S rRNA-spacer-23S rRNA-spacer-5S rRNA without tRNA-encoding genes in the spacer regions. The 5' and 3' ends of the mature 16S, 23S, and 5S rRNAs were determined by alignment with the rrn operons of Bacillus subtilis and other gram-positive bacteria. Four copies of the rrn operons were identified by hybridization with an rrnB probe in R. fascians type strain ATCC 12974 and in the virulent strain R. fascians D188. However, another isolate, CECT 3001 (= NRRL B15096), also classified as R. fascians, produced five rrn-hybridizing bands. An integrative vector containing a 2.5-kb DNA fragment internal to rrnB was constructed for targeted integration of exogenous genes at the rrn loci. Transformants carrying the exogenous chloramphenicol resistance gene (cmr) integrated in different rrn operons were obtained. These transformants had normal growth rates in complex medium and minimal medium and were fully stable for the integrated marker.

Published

1998

44. Rhodococcus meningitis in an immunocompetent host.

Author

DeMarais PL and Kocka FE

Subjects

Actinomycetales Infections immunology, Actinomycetales Infections microbiology, Adult, Cerebrospinal Fluid microbiology, Female, Humans, Immunocompetence, Meningitis, Bacterial immunology, Meningitis, Bacterial microbiology, Actinomycetales Infections etiology, Meningitis, Bacterial etiology, Rhodococcus isolation & purification, Rhodococcus pathogenicity

Abstract

Rhodococcus species are increasingly being recognized as pathogens, especially in patients infected with the human immunodeficiency virus. Most cases of rhodococcus infection in these patients are due to Rhodococcus equi and involve the lungs. CNS infections due to Rhodococcus species are rare, and meningitis due to non-equi Rhodococcus has never been reported in a healthy host. We report a case of meningitis due to non-equi Rhodococcus in a previously healthy 24-year-old woman. We also review and summarize the reported cases of CNS infections caused by Rhodococcus species.

Published

1995

45. The fas operon of Rhodococcus fascians encodes new genes required for efficient fasciation of host plants.

Author

Crespi M, Vereecke D, Temmerman W, Van Montagu M, and Desomer J

Subjects

Amino Acid Sequence, Base Sequence, Cytochrome P-450 Enzyme System genetics, DNA Mutational Analysis, Ferredoxins genetics, Genetic Complementation Test, Molecular Sequence Data, Mutagenesis, Insertional, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Transferases genetics, Virulence genetics, Alkyl and Aryl Transferases, Genes, Bacterial genetics, Operon genetics, Plants, Toxic, Rhodococcus genetics, Rhodococcus pathogenicity, Nicotiana microbiology

Abstract

Three virulence loci (fas, att, and hyp) of Rhodococcus fascians D188 have been identified on a 200-kb conjugative linear plasmid (pFiD188). The fas locus was delimited to a 6.5-kb DNA fragment by insertion mutagenesis, single homologous disruptive recombination, and in trans complementation of different avirulent insertion mutants. The locus is arranged as a large operon containing six open reading frames whose expression is specifically induced during the interaction with host plants. One predicted protein is homologous to P-450 cytochromes from actinomycetes. The putative ferredoxin component is of a novel type containing additional domains homologous to transketolases from chemoautotrophic, photosynthetic, and methylotrophic microorganisms. Genetic analysis revealed that fas encodes, in addition to the previously identified ipt, at least two new genes that are involved in fasciation development, one of which is only required on older tobacco plants.

Published

1994

46. Fasciation induction by the phytopathogen Rhodococcus fascians depends upon a linear plasmid encoding a cytokinin synthase gene.

Author

Crespi M, Messens E, Caplan AB, van Montagu M, and Desomer J

Subjects

Amino Acid Sequence, Base Sequence, Blotting, Southern, Cloning, Molecular, Cytokinins biosynthesis, DNA, Bacterial genetics, Genes, Bacterial, Genetic Complementation Test, Molecular Sequence Data, Nucleic Acid Hybridization, Phenotype, Plasmids, Restriction Mapping, Rhodococcus genetics, Rhodococcus metabolism, Sequence Homology, Nucleic Acid, Transferases genetics, Virulence genetics, Alkyl and Aryl Transferases, Plant Diseases microbiology, Rhodococcus pathogenicity

Abstract

Rhodococcus fascians is a nocardiform bacteria that induces leafy galls (fasciation) on dicotyledonous and several monocotyledonous plants. The wild-type strain D188 contained a conjugative, 200 kb linear extrachromosomal element, pFiD188. Linear plasmid-cured strains were avirulent and reintroduction of this linear element restored virulence. Pulsed field electrophoresis indicated that the chromosome might also be a linear molecule of 4 megabases. Three loci involved in phytopathogenicity have been identified by insertion mutagenesis of this Fi plasmid. Inactivation of the fas locus resulted in avirulent strains, whereas insertions in the two other loci affected the degree of virulence, yielding attenuated (att) and hypervirulent (hyp) bacteria. One of the genes within the fas locus encoded an isopentenyltranferase (IPT) with low homology to analogous proteins from Gram-negative phytopathogenic bacteria. IPT activity was detected after expression of this protein in Escherichia coli cells. In R.fascians, ipt expression could only be detected in bacteria induced with extracts from fasciated tissue. R.fascians strains without the linear plasmid but containing this fas locus alone could not provoke any phenotype on plants, indicating additional genes from the linear plasmid were also essential for virulence. These studies, the first genetic analysis of the interaction of a Gram-positive bacterium with plants, suggest that a novel mechanism for plant tumour induction has evolved in R.fascians independently from the other branches of the eubacteria.

Published

1992

47. Identification of 15- to 17-kilodalton antigens associated with virulent Rhodococcus equi.

Author

Takai S, Koike K, Ohbushi S, Izumi C, and Tsubaki S

Subjects

Actinomycetales Infections immunology, Animals, Antigens, Bacterial chemistry, Biomarkers, Horses, Immunoblotting, Lung immunology, Lymph Nodes immunology, Mice, Molecular Weight, Rhodococcus isolation & purification, Rhodococcus pathogenicity, Serotyping, Soil Microbiology, Virulence immunology, Actinomycetales Infections veterinary, Antigens, Bacterial isolation & purification, Horse Diseases immunology, Rhodococcus immunology

Abstract

Antigens of Rhodococcus equi were analyzed by immunoblotting with naturally infected foal sera. Immunoblots of whole-cell antigen preparations of clinical isolates of R. equi revealed that major protein bands with molecular masses of 15 to 17 kDa were present in all clinical isolates tested and all isolates virulent for mice. In contrast, the 15- to 17-kDa antigens were not identified by immunoblotting in ATCC 6939, a type strain of R. equi that was avirulent for mice. Whole-cell antigens of 102 environmental isolates were investigated by immunoblotting and the mouse pathogenicity test. Twenty-five of these isolates were demonstrated to contain the 15- to 17-kDa antigens by immunoblotting and were virulent for mice. The remaining 77 environmental isolates lacked the 15- to 17-kDa antigens and were avirulent for mice. These data suggest that the diffuse 15- to 17-kDa proteins are virulence-associated antigens with immunogenicity in foals and that they may be useful in marking virulent R. equi contamination in the environment of a horse-breeding farm.

Published

1991

48. Mycolic acid-containing glycolipid as a possible virulence factor of Rhodococcus equi for mice.

Author

Gotoh K, Mitsuyama M, Imaizumi S, Kawamura I, and Yano I

Subjects

Actinomycetales Infections pathology, Animals, Body Weight, Colony Count, Microbial, Granuloma pathology, Liver pathology, Male, Mice, Rhodococcus pathogenicity, Spleen microbiology, Virulence, Actinomycetales Infections microbiology, Mycolic Acids metabolism, Polysaccharides, Bacterial metabolism, Rhodococcus metabolism

Abstract

By the use of various Rhodococcus equi strains differing in the length of carbon chains of glycolipid, we examined whether the glycolipid, glucose monomycolate, was contributing to the virulence of R. equi for mice. R. equi strains with longer carbon chain mycolic acid showed a higher virulence as determined by lethality and granuloma formation in mice than those with shorter ones. When purified glycolipid was injected into mice, granuloma formation and liver damage were most prominent with the glycolipid having longer carbon chain mycolic acid. Only a representative strain with longer carbon chain mycolic acid persisted in the spleen of mice after intravenous injection, while a strain with shorter carbon chain mycolic acid was readily eliminated. These results suggested that glycolipid was at least one of the virulence factors of R. equi and that the carbon chain length of mycolic acid might be critical in the expression of virulence.

Published

1991

49. Rhodococcus equi: an animal and human pathogen.

Author

Prescott JF

Subjects

Actinomycetales Infections complications, Actinomycetales Infections veterinary, Animals, Horses, Humans, Immune Tolerance, Pneumonia complications, Pneumonia veterinary, Acquired Immunodeficiency Syndrome complications, Actinomycetales Infections microbiology, Horse Diseases microbiology, Pneumonia microbiology, Rhodococcus pathogenicity

Abstract

Recent isolations of Rhodococcus equi from cavitatory pulmonary disease in patients with AIDS have aroused interest among medical microbiologists in this unusual organism. Earlier isolations from humans had also been in immunosuppressed patients following hemolymphatic tumors or renal transplantation. This organism has been recognized for many years as a cause of a serious pyogranulomatous pneumonia of young foals and is occasionally isolated from granulomatous lesions in several other species, in some cases following immunosuppression. The last decade has seen many advances in understanding of the epidemiology, pathogenesis, diagnosis, treatment, and immunity to infection in foals. The particular susceptibility of the foal is not understood but can be explained in part by a combination of heavy challenge through the respiratory route coinciding with declining maternally derived antibody in the absence of fully competent foal cellular immune mechanisms. R. equi is largely a soil organism but is widespread in the feces of herbivores. Its growth in soil is considerably improved by simple nutrients it obtains from herbivore manure. About one-third of human patients who have developed R. equi infections had contact in some way with herbivores or their manure. Others may have acquired infection from contact with soil or wild bird manure. R. equi is an intracellular parasite, which explains the typical pyogranulomatous nature of R. equi infections, the predisposition to infection in human patients with defective cell-mediated immune mechanisms, and the efficacy of antimicrobial drugs that penetrate phagocytic cells.

Published

1991

50. Experimental infection of mice with Rhodococcus equi: differences in virulence between strains.

Author

Bowles PM, Woolcock JB, and Mutimer MD

Subjects

Animals, Female, Liver microbiology, Liver pathology, Lung microbiology, Lung pathology, Mice, Species Specificity, Spleen microbiology, Spleen pathology, Virulence, Actinomycetales Infections pathology, Rhodococcus pathogenicity

Abstract

The growth kinetics in outbred mice of clinical and environmental isolates of Rhodococcus equi were followed by serial bacterial enumeration of organ homogenates. Clinical isolates multiplied until Day 4 before being progressively cleared, but could still be recovered from the liver at 3-4 weeks post-infection. Intravenous inoculation of clinical strains was associated with histopathological responses very similar to those elicited by intravenous infection with various facultative intracellular parasites. Whereas lesions in mice and foals at 7-9 days following respiratory infection are those of severe bronchopneumonia with massive consolidation, a week later the patterns of host response have diverged as the murine lesions resolve. The type strain, NCTC 1621 and 4-6 environmental isolates were eliminated without prior multiplication and these strains caused negligible lesions. The two environmental strains which behaved as the clinical strains were recovered from a stud with an R. equi problem. No association of colonial morphology of R. equi with virulence was apparent.

Published

1987