Up-regulation of pathogenesis-related proteins in the apoplast of Malus domestica after application of a non-pathogenic bacterium

The intercellular washing fluid (IWF) of Malus domestica cv. Holsteiner Cox before and after application of the non-pathogenic bacterium Pseudomonas fluorescens Bk3 to the leaves was investigated in a comparative manner. SDS-PAGE in combination with ESI Q-ToF mass spectrometry, and homology search in relevant data bases revealed the highly up-regulated expression of several pathogenesis-related plant proteins in the apoplast of the leaves treated with P. fluorescens. These proteins were beta3-1,3-glucanase, chitinase, thaumatin-like protein, ribonuclease-like protein, and a hevein-like protein. Moreover, a 9 kDa non-specific lipid transfer protein was significantly reduced after the application of P. fluorescens. The possible relevance of a pre-treatment of apple cultivars with the non-pathogenic bacterium P. fluorescens Bk3, as an alternative method to the treatment with fungicides, for increasing the resistance of susceptible apple cultivars against an infection with the fungus Venturia inaequalis is discussed.     

Expression of the insecticidal crystal protein gene from a Gram-positive Bacillus thuringiensis in a Gram-negative Pseudomonas fluorescens mediated by protoplast fusion

Abstract Protoplast fusion between a Gram-negative strain Pseudomonas fluorescens having plant growth promoting activities and a Gram-positive Bacillus thuringiensis var. kurstaki HD 73 possessing insecticidal activity, was carried out to generate P. fluorescens hybrids possessing insecticidal activity. The antibiotic resistance markers of P. fluorescens (rif^r, nal^r) and the immunoreactivity to the antiserum raised against the crystal proteins of B. thuringiensis var. galleriae were used as selection markers for the hybrids. The hybrids exhibited lethal but differential activity in Heliothis armigera and in Spodoptera litura when compared to the parenthal B. thuringiensis strain. The anti-feedant activity which is characteristic of B. thuringiensis toxin was not observed in the hybrids. Although the presence of sequences homologous to the cloned insecticidal gene of B. thuringiensis was demonstrated, the Western blot analysis of cell extract of the hybrid (PK 105) showed that only low molecular mass crystal proteins (less than 40 kDa) could be detected under denaturing conditions. It indicates that the high molecular mass toxin peptide may be degraded by proteolysis. Besides this, a clear separation of lethal and anti-feedant activity of the B. thuringiensis toxin has been observed by this study.     

Cloning and characterization of the Pseudomonas fluorescens ATP-binding cassette exporter, HasDEF, for the heme acquisition protein HasA

Two ATP-binding cassette (ABC) exporters are present in Pseudomonas fluorescens no. 33; one is the recently reported AprDEF system and the other is HasDEF, which exports a heme acquisition protein, HasA. The hasDEF genes were cloned by DNA hybridization with a DNA probe coding for the LipB protein, one of the components of the Serratia marcescens ABC exporter Lip system. P. fluorescens HasA showed sequence identity of 40 to 49% with HasA proteins from Pseudomonas aeruginosa and Serratia marcescens. The P. fluorescens Has exporter secreted HasA proteins from P. fluorescens and P. aeruginosa but not S. marcescens HasA in Escherichia coli, whereas the Has exporter from S. marcescens allowed secretion of all three HasA proteins. The P. fluorescens HasDEF system also promoted the secretion of the lipase and alkaline protease of P. fluorescens. Hybrid exporter analysis demonstrated that the HasD proteins, which are ABC proteins, are involved in the discrimination of export substrates. Chimeric HasA proteins containing both P. fluorescens and S. marcescens sequences were produced and tested for secretion through the Has exporters. The C-terminal region of HasA was shown to be involved in the secretion specificity of the P. fluorescens Has exporter.     

Role of proteins in resistance mechanism of Pseudomonas fluorescens against heavy metal induced stress with proteomics approach

The genus Pseudomonas is a group of gram-negative, motile, rod-shaped bacteria known for their metabolic versatility. One of the species is Pseudomonas fluorescens, which has an efficient system for detoxification of industrial waste. Other aspects include, catabolic versatility, excellent root colonizing abilities and capacity to produce a wide range of antifungal metabolites. They are also known for their resistance and survival in the presence of several organic and inorganic pollutants. P. fluorescens has also been isolated from metal polluted water and soils but the elucidation of proteins responsible for its survival is still not clear. The aim of the study was to elucidate the differential protein expression of this bacterium when exposed to heavy metal stress, using two-dimensional electrophoresis. The proteins spo VG and enolase showed upregulation during the bacterial exposure to lead and copper. Hypothetical protein showed downregulation when bacterium was exposed to cobalt. Some proteins like xylosyltransferase, ORF 18 phage phi KZ, OMP H1 and translational elongation factor EF-Tu appeared only during their exposure to cobalt. These were absent in the control condition. Analysis of the differentially expressed proteins as well as the newly synthesized proteins along with the results obtained growth and enzyme activity indicate the involvement of all these factors in the survival of this organism in the presence of heavy metals.     

A study of the incidence of different fluorescent Pseudomonas species and biovars in the microflora of fresh and spoiled meat and fish, raw milk, cheese, soil and water

M. GENNARI AND F. DRAGOTTO. 1992. Of 182 various foodstuffs and environmental samples examined, 86% had microflora containing fluorescent Pseudomonas in differing proportions. A computer-aided technique was used to identify most of the 445 fluorescent strains. Pseudomonas fluorescens biovar V-1 was most frequently isolated (24%); it either predominated or was present in all types of samples. Other strains, belonging to the other subgroups of biovar V (V-2, V-4, V-5, V-6 and V-7), together represented 14.3%. We also identified Ps. fluorescens biovars I-1 and I-2 (13.9%), II-1 and II-3 (3.6%), III-1 and III-2 (8.7%), IV-2 (0.7%); Ps. putida A and B (11%); Ps. lundensis (10.3%); group B3 (2%) and Ps. aeruginosa (0.7%). Unidentified strains accounted for 10.6% of the flora, many resembling Ps. fluorescens biovar V. Although the presence of Ps. fluorescens V-1 was often marked, other taxa predominated or were present in large quantities in some particular samples, such as Ps. fluorescens I-1 in raw milk and cheese, Ps. lundensis in spoiled meat and Ps. fluorescens III-1 in spoiled fish. Pseudomonas putida A and B were evident in environmental rather than in food samples.     

A study of the incidence of different fluorescent Pseudomonas species and biovars in the microflora of fresh and spoiled meat and fish, raw milk, cheese, soil and water.

Of 182 various foodstuffs and environmental samples examined, 86% had microflora containing fluorescent Pseudomonas in differing proportions. A computer-aided technique was used to identify most of the 445 fluorescent strains. Pseudomonas fluorescens biovar V-1 was most frequently isolated (24%); it either predominated or was present in all types of samples. Other strains, belonging to the other subgroups of biovar V (V-2, V-4, V-5, V-6 and V-7), together represented 14.3%. We also identified Ps. fluorescens biovars I-1 and I-2 (13.9%), II-1 and II-3 (3.6%), III-1 and III-2 (8.7%), IV-2 (0.7%); Ps. putida A and B (11%); Ps. lundensis (10.3%); group B3 (2%) and Ps. aeruginosa (0.7%). Unidentified strains accounted for 10.6% of the flora, many resembling Ps. fluorescens biovar V. Although the presence of Ps. fluorescens V-1 was often marked, other taxa predominated or were present in large quantities in some particular samples, such as Ps. fluorescens I-1 in raw milk and cheese, Ps. lundensis in spoiled meat and Ps. fluorescens III-1 in spoiled fish. Pseudomonas putida A and B were evident in environmental rather than in food samples.     

Cross-reactivity of antibodies raised to Pseudomonas fluorescens protease with extracellular proteins produced by meat-spoiling pseudomonads

The cross-reactivity patterns of antibodies to Pseudomonas fluorescens protease with the extracellular proteins produced by a number of meat-spoiling pseudomonads were studied. Immunoblotting studies showed that purified IgG to Ps. fluorescens protease cross-reacted with extracellular proteins in the cell culture supernatant fluids of Pseudomonas spp., including Ps. fragi and Ps. lundensis. In the case of Ps. lundensis and Pseudomonas spp. 11390, the cross-reactive moieties were of similar molecular weight to the Ps. fluorescens protease (46 kDa). However, in Ps. fragi the cross-reactive moiety was a lower molecular weight protein (8 kDa). This may represent a fragment of the active enzyme. These results indicate the presence of common antigenic determinants among the proteases of meat spoiling pseudomonads.     

Outer Membrane Protein Heterogeneity within Pseudomonas fluorescens and P. putida and Use of an OprF Antibody as a Probe for rRNA Homology Group I Pseudomonads

The electrophoretic patterns of outer membrane proteins of strains representing the biovars of Pseudomonas fluorescens and Pseudomonas putida were analyzed by gel electrophoresis. The outer membrane protein profiles were variable, and they were not useful for assigning strains to a specific biovar. However, three or four predominant outer membrane proteins migrating at 42 to 46 kDa, 33 to 38 kDa, and 20 to 22 kDa were conserved among the strains. They could be tentatively identified as OprE (44 kDa), OprF (38 kDa), OprH (21 kDa), and OprL (20.5 kDa), which are known proteins from Pseudomonas aeruginosa. A 37-kDa OprF-like protein was purified from P. fluorescens DF57 and used to raise a polyclonal antibody. In Western blot (immunoblot) analysis, this antibody reacted with OprF proteins from members of Pseudomonas rRNA homology group I but not with proteins from nonpseudomonads. The heterogeneity in M(infr) of OprF was greater among P. fluorescens strains than among P. putida strains. Immunofluorescence microscopy of intact cells demonstrated that the antibody recognized epitopes that were accessible only after unmasking by EDTA treatment. The antibody was used in a colony blotting assay to determine the percentage of rRNA homology group I pseudomonads among bacteria from the rhizosphere of barley. The bacteria were isolated on 10% tryptic soy agar, King's B agar, and the pseudomonad-specific medium Gould S1 agar. The estimate of OprF-containing CFU in rhizosphere soil obtained by colony blotting on 10% tryptic soy agar was about 2 and 14 times higher than the values obtained from King's agar and Gould S1 agar, respectively, indicating that not all fluorescent pseudomonads are scored on more specific media. The colonies reacting with the OprF antibody were verified as being rRNA homology group I pseudomonads by using the API 20NE system.     

Structural rearrangements of a broad host range plasmid encoding mercury resistance from an epilithic isolate of Pseudomonas cepacia

Abstract A broad host range plasmid encoding mercury resistance (pQM3) underwent structural rearrangement when transferred into Pseudomonas aeruginosa . The rearrangement involved deletions and additions of DNA to the plasmid and resulted in the formation of smaller derivative plasmids. A 13 kb insert acquired in an epilithic Pseudomonas fluorescens isolate stabilised pQM3 and prevented rearrangements in P. aeruginosa . Integration of pQM3 into the chromosome of its natural host Pseudomonas cepacia PAR 161, and the P. aeruginosa chromosome reduced its transfer efficiency.     

Basal resistance against bacteria in Nicotiana benthamiana leaves is accompanied by reduced vascular staining and suppressed by multiple Pseudomonas syringae type III secretion system effector proteins

Basal resistance in plants is induced by flagellin and several other common bacterial molecules and is implicated in the immunity of plants to most bacteria and other microbes. However, basal resistance can be suppressed by effector proteins that are injected by the type III secretion system (TTSS) of pathogens such as Pseudomonas syringae. This study demonstrates that basal resistance in the leaves of Nicotiana benthamiana is accompanied by reduced vascular flow into minor veins. Reduced vascular flow was assayed by feeding leaves, via freshly excised petioles, with 1% (weight in volume, w/v) neutral red (NR) and then observing differential staining of minor veins or altered levels of extractable dye in excised leaf samples. The reduced vascular staining was localized to tissues expressing basal resistance and was observable when resistance was induced by either the non-pathogen Pseudomonas fluorescens, a TTSS-deficient mutant of P. syringae pv. tabaci, or flg22 (a flagellin-derived peptide elicitor of basal resistance). Nicotiana benthamiana leaf areas expressing basal resistance no longer elicited the hypersensitive response when challenge inoculated with P. syringae pv. tomato DC3000. The reduced vascular staining effect was suppressed by wild-type P. syringae pv. tabaci and P. fluorescens heterologously expressing a P. syringae TTSS and AvrPto1(PtoJL1065). TTSS-proficient P. fluorescens was used to test the ability of several P. syringae pv. tomato DC3000 effectors for their ability to suppress the basal resistance-associated reduced vascular staining effect. AvrE(PtoDC3000), HopM1(PtoDC3000) (formerly known as HopPtoM), HopF2(PtoDC3000) (HopPtoF) and HopG1(PtoDC3000) (HopPtoG) suppressed basal resistance by this test, whereas HopC1(PtoDC3000) (HopPtoC) did not. In summary, basal resistance locally alters vascular function and the vascular dye uptake assay should be a useful tool for characterizing effectors that suppress basal resistance.     

Nucleotide sequence of the Pseudomonas fluorescens signal peptidase II gene (lsp) and flanking genes.

The lsp gene encoding prolipoprotein signal peptidase (signal peptidase II) is organized into an operon consisting of ileS and three open reading frames, designated genes x, orf149, and orf316 in both Escherichia coli and Enterobacter aerogenes. A plasmid, pBROC128, containing a 5.8-kb fragment of Pseudomonas fluorescens DNA was found to confer pseudomonic acid resistance on E. coli host cells and to contain the structural gene of ileS from P. fluorescens. In addition, E. coli strains carrying pBROC128 exhibited increased globomycin resistance. This indicated that the P. fluorescens lsp gene was present on the plasmid. The nucleotide sequences of the P. fluorescens lsp gene and of its flanking regions were determined. Comparison of the nucleotide sequences of the lsp genes in E. coli and P. fluorescens revealed two highly conserved domains in this enzyme. Furthermore, the five genes which constitute an operon in E. coli and Enterobacter aerogenes were found in P. fluorescens in the same order as in the first two species.     

Role of the cyclic lipopeptide massetolide A in biological control of Phytophthora infestans and in colonization of tomato plants by Pseudomonas fluorescens

Pseudomonas strains have shown promising results in biological control of late blight caused by Phytophthora infestans. However, the mechanism(s) and metabolites involved are in many cases poorly understood. Here, the role of the cyclic lipopeptide massetolide A of Pseudomonas fluorescens SS101 in biocontrol of tomato late blight was examined. Pseudomonas fluorescens SS101 was effective in preventing infection of tomato (Lycopersicon esculentum) leaves by P. infestans and significantly reduced the expansion of existing late blight lesions. Massetolide A was an important component of the activity of P. fluorescens SS101, since the massA-mutant was significantly less effective in biocontrol, and purified massetolide A provided significant control of P. infestans, both locally and systemically via induced resistance. Assays with nahG transgenic plants indicated that the systemic resistance response induced by SS101 or massetolide A was independent of salicylic acid signalling. Strain SS101 colonized the roots of tomato seedlings significantly better than its massA-mutant, indicating that massetolide A was an important trait in plant colonization. This study shows that the cyclic lipopeptide surfactant massetolide A is a metabolite with versatile functions in the ecology of P. fluorescens SS101 and in interactions with tomato plants and the late blight pathogen P. infestans.     

Translocatable resistance to mercuric and phenylmercuric ions in soil bacteria.

Of a sample of 42 gram-negative Hg-resistant bacteria, three (a Pseudomonas fluorescens, a Klebsiella sp. and a Citrobacter sp.) contained translocatable elements conferring resistance to Hg2+ (all three) and to Hg2+ and phenylmercuric acetate (P. fluorescens). The discovery of transposable phenylmercuric acetate resistance extends the range of known resistance "transposons" from heavy metals and antibiotics to organometallic compounds.     

Induced systemic resistance in Arabidopsis thaliana in response to root inoculation with Pseudomonas fluorescens CHA0

Root inoculation of Arabidopsis thaliana ecotype Columbia with Pseudomonas fluorescens CHA0r partially protected leaves from the oomycete Peronospora parasitica. The molecular determinants of Pseudomonas fluorescens CHA0r for this induced systemic resistance (ISR) were investigated, using mutants derived from strain CHA0: CHA400 (pyoverdine deficient), CHA805 (exoprotease deficient), CHA77 (HCN deficient), CHA660 (pyoluteorin deficient), CHA631 (2,4-diacetylphloroglucinol [DAPG] deficient), and CHA89 (HCN, DAPG- and pyoluteorin deficient). Only mutations interfering with DAPG production led to a significant decrease in ISR to Peronospora parasitica. Thus, DAPG production in Pseudomonas fluorescens is required for the induction of ISR to Peronospora parasitica. DAPG is known for its antibiotic activity; however, our data indicate that one action of DAPG could be due to an effect on the physiology of the plant. DAPG at 10 to 100 microM applied to roots of Arabidopsis mimicked the ISR effect. CHA0r-mediated ISR was also tested in various Arabidopsis mutants and transgenic plants: NahG (transgenic line degrading salicylic acid [SA]), sid2-1 (nonproducing SA), npr1-1 (non-expressing NPR1 protein), jar1-1 (insensitive to jasmonic acid and methyl jasmonic acid), ein2-1 (insensitive to ethylene), etr1-1 (insensitive to ethylene), eir1-1 (insensitive to ethylene in roots), and pad2-1 (phytoalexin deficient). Only jar1-1, eir1-1, and npr1-1 mutants were unable to undergo ISR. Sensitivity to jasmonic acid and functional NPR1 and EIR1 proteins were required for full expression of CHA0r-mediated ISR. The requirements for ISR observed in this study in Peronospora parasitica induced by Pseudomonas fluorescens CHA0r only partially overlap with those published so far for Peronospora parasitica, indicating a great degree of flexibility in the molecular processes leading to ISR.     

The effects of glutaraldehyde on the control of single and dual biofilms of Bacillus cereus and Pseudomonas fluorescens

Glutaraldehyde (GLUT) was evaluated for control of single and dual species biofilms of Bacillus cereus and Pseudomonas fluorescens on stainless steel surfaces using a chemostat system. The biofilms were characterized in terms of mass, cell density, total and matrix proteins and polysaccharides. The control action of GLUT was assessed in terms of inactivation and removal of biofilm. Post-biocide action was characterized 3, 7, 12, 24, 48 and 72 h after treatment. Tests with planktonic cells were also performed for comparison. The results demonstrated that in dual species biofilms the metabolic activity, cell density and the content of matrix proteins were higher than those of either single species. Planktonic B. cereus was more susceptible to GLUT than P. fluorescens. The biocide susceptibility of dual species planktonic cultures was an average of each single species. Planktonic cells were more susceptible to GLUT than their biofilm counterparts. Biofilm inactivation was similar for both of the single biofilms while dual biofilms were more resistant than single species biofilms. GLUT at 200 mg l(-1) caused low biofilm removal (<10%). Analysis of the post-biocide treatment data revealed the ability of biofilms to recover their activity over time. However, 12 h after biocide application, sloughing events were detected for both single and dual species biofilms, but were more marked for those formed by P. fluorescens (removal >40% of the total biofilm). The overall results suggest that GLUT exerts significant antimicrobial activity against planktonic bacteria and a partial and reversible activity against B. cereus and P. fluorescens single and dual species biofilms. The biocide had low antifouling effects when analysed immediately after treatment. However, GLUT had significant long-term effects on biofilm removal, inducing significant sloughing events (recovery in terms of mass 72 h after treatment for single biofilms and 42 h later for dual biofilms). In general, dual species biofilms demonstrated higher resistance and resilience to GLUT exposure than either of the single species biofilms. P. fluorescens biofilms were more susceptible to the biocide than B. cereus biofilms.     

Transport of heterologous proteins to the periplasmic space of <Emphasis Type="Italic">Pseudomonas fluorescens</Emphasis> using a variety of native signal sequences

Bacterial expression of recombinant proteins containing disulfide bonds is facilitated by transport of the proteins to the periplasmic space. Several Pseudomonas fluorescens signal sequences have been identified that efficiently direct proteins to the periplasm and provide solubility and yield advantages over the production of proteins fused to the PelB signal sequence in E. coli. For a single chain antibody fragment, the final yield varied from about 1 g/l to 10 g/l when expression in P. fluorescens involved fusion to various P. fluorescens signal sequences.     

荧光假单胞菌抗生性代谢产物合成相关基因的研究现状

荧光假单胞菌(Pseudomonas fluorescens)是一种重要的植物根际促生菌,它能够产生藤黄绿脓菌素、2,4-二乙酰基藤黄酚、硝吡咯菌素、吩嗪-1-羧酸等抗生性次级代谢产物,可抑制多种病原物,在农作物土传病害的生物防治研究中具有重要意义.总结了荧光假单胞菌中已确立的抗生性次级代谢产物的合成机制,重点阐述了相关基因的结构、功能,以及利用生物工程技术对荧光假单胞菌进行遗传操作的最新进展,同时对荧光假单胞菌在生物防治中的应用和其作为生防菌剂的前景进行了展望.     

Substrate specificities of bacterial polyhydroxyalkanoate depolymerases and lipases: bacterial lipases hydrolyze poly(omega-hydroxyalkanoates).

The substrate specificities of extracellular lipases purified from Bacillus subtilis, Pseudomonas aeruginosa, Pseudomonas alcaligenes, Pseudomonas fluorescens, and Burkholderia cepacia (former Pseudomonas cepacia) and of extracellular polyhydroxyalkanoate (PHA) depolymerases purified from Comamonas sp., Pseudomonas lemoignei, and P. fluorescens GK13, as well as that of an esterase purified from P. fluorescens GK 13, to various polyesters and to lipase substrates were analyzed. All lipases and the esterase of P. fluorescens GK13 but none of the PHA depolymerases tested hydrolyzed triolein, thereby confirming a functional difference between lipases and PHA depolymerases. However, most lipases were able to hydrolyze polyesters consisting of an omega-hydroxyalkanoic acid such as poly(6-hydroxyhedxanoate) or poly(4-hydroxybutyrate). The dimeric ester of hydroxyhexanoate was the main product of enzymatic hydrolysis of polycaprolactone by P. aeruginosa lipase. Polyesters containing side chains in the polymer backbone such as poly (3-hydroxybutyrate) and other poly(3-hydroxyalkanoates) were not or were only slightly hydrolyzed by the lipases tested.     

A numerical taxonomic study of the Pseudomonas flora isolated from poultry meat

Pseudomonas strains were isolated from both fresh and cold-stored broiler skin. Phenotypically-based numerical taxonomic techniques were used to characterize the isolates and 36 reference strains. For this purpose, Biolog GN Microplates, API 20NE and a number of other biochemical tests were used. Jaccard clustering revealed the predominance of four major Pseudomonas groups: Ps. fragi, Ps. lundensis, strains belonging to Ps. fluorescens biovars and an unidentified group of strains displaying a high degree of similarity to Ps. fluorescens biovars. Within Ps. fluorescens, biovar A was best represented. The marked proteolytic character of members of Ps. fluorescens biovars A, B and C, as well as of members of the unidentified cluster, supports their possible role in the origin of organoleptic defects. In the Ps. lundensis cluster, a distinct group of Ps. lundensis-like species was found. Further genotypic studies should be carried out to clarify the taxonomic status of the Ps. lundensis-like strains and that of the unidentified group resembling Ps. fluorescens biovars A and B.     

Identification and characterization of the emhABC efflux system for polycyclic aromatic hydrocarbons in Pseudomonas fluorescens cLP6a

The hydrocarbon-degrading environmental isolate Pseudomonas fluorescens LP6a possesses an active efflux mechanism for the polycyclic aromatic hydrocarbons phenanthrene, anthracene, and fluoranthene but not for naphthalene or toluene. PCR was used to detect efflux pump genes belonging to the resistance-nodulation-cell division (RND) superfamily in a plasmid-cured derivative, P. fluorescens cLP6a, which is unable to metabolize hydrocarbons. One RND pump, whose gene was identified in P. fluorescens cLP6a and was designated emhB, showed homology to the multidrug and solvent efflux pumps in Pseudomonas aeruginosa and Pseudomonas putida. The emhB gene is located in a gene cluster with the emhA and emhC genes, which encode the membrane fusion protein and outer membrane protein components of the efflux system, respectively. Disruption of emhB by insertion of an antibiotic resistance cassette demonstrated that the corresponding gene product was responsible for the efflux of polycyclic aromatic hydrocarbons. The emhB gene disruption did not affect the resistance of P. fluorescens cLP6a to tetracycline, erythromycin, trimethoprim, or streptomycin, but it did decrease resistance to chloramphenicol and nalidixic acid, indicating that the EmhABC system also functions in the efflux of these compounds and has an unusual selectivity. Phenanthrene efflux was observed in P. aeruginosa, P. putida, and Burkholderia cepacia but not in Azotobacter vinelandii. Polycyclic aromatic hydrocarbons represent a new class of nontoxic, highly hydrophobic compounds that are substrates of RND efflux systems, and the EmhABC system in P. fluorescens cLP6a has a narrow substrate range for these hydrocarbons and certain antibiotics.