Use of the Soft-agar Overlay Technique to Screen for Bacterially Produced Inhibitory Compounds

Hockett, Kevin L.; Baltrus, David A.

doi:10.3791/55064

Cited by 87 publications

(98 citation statements)

References 12 publications

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“…Bacteriocin samples were isolated as described 43,77 . Briefly, overnight KB broth cultures of Psy B728a and derived mutants were diluted 1/100 into fresh KB medium and allowed to incubate for 2-4 hrs with shaking, after which mitomycin C was amended to the culture (0.5 μg/ml final concentration).…”

Section: Methodsmentioning

confidence: 99%

Conditionally Redundant Bacteriocin Targeting byPseudomonas syringae

Clark

Scott

et al. 2017

Preprint

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Section: Methodsmentioning

confidence: 99%

Conditionally Redundant Bacteriocin Targeting byPseudomonas syringae

Clark

Scott

et al. 2017

Preprint

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“…Killing activity of UV lysates was gauged using a soft-agar overlay assay similar to one previously reported (37). Overnight cultures of P. putida KT2440 (and the strains listed in Table 1) were diluted to an OD 620 of 0.05 and grown at 28°C with shaking (200 rpm) until the culture reached an OD 620 of 0.4 to 0.5.…”

Section: Temmentioning

confidence: 99%

Pseudomonas chlororaphis Produces Two Distinct R-Tailocins That Contribute to Bacterial Competition in Biofilms and on Roots

Dorosky

Pierson

et al. 2017

Appl Environ Microbiol

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R-type tailocins are high-molecular-weight bacteriocins that resemble bacteriophage tails and are encoded within the genomes of many Pseudomonas species. In this study, analysis of the P. chlororaphis 30-84 R-tailocin gene cluster revealed that it contains the structural components to produce two R-tailocins of different ancestral origins. Two distinct R-tailocin populations differing in length were observed in UV-induced lysates of P. chlororaphis 30-84 via transmission electron microscopy. Mutants defective in the production of one or both R-tailocins demonstrated that the killing spectrum of each tailocin is limited to Pseudomonas species. The spectra of pseudomonads killed by the two R-tailocins differed, although a few Pseudomonas species were either killed by or insusceptible to both tailocins. Tailocin release was disrupted by deletion of the holin gene within the tailocin gene cluster, demonstrating that the lysis cassette is required for the release of both R-tailocins. The loss of functional tailocin production reduced the ability of P. chlororaphis 30-84 to compete with an R-tailocin-sensitive strain within biofilms and rhizosphere communities. Our study demonstrates that Pseudomonas species can produce more than one functional R-tailocin particle sharing the same lysis cassette but differing in their killing spectra. This study provides evidence for the role of R-tailocins as determinants of bacterial competition among plant-associated Pseudomonas in biofilms and the rhizosphere.IMPORTANCE Recent studies have identified R-tailocin gene clusters potentially encoding more than one R-tailocin within the genomes of plant-associated Pseudomonas but have not demonstrated that more than one particle is produced or the ecological significance of the production of multiple R-tailocins. This study demonstrates for the first time that Pseudomonas strains can produce two distinct R-tailocins with different killing spectra, both of which contribute to bacterial competition between rhizosphere-associated bacteria. These results provide new insight into the previously uncharacterized role of R-tailocin production by plant-associated Pseudomonas species in bacterial population dynamics within surface-attached biofilms and on roots.KEYWORDS R-tailocin, bacterial competition, rhizosphere, Pseudomonas, bacteriocins, microbial ecology, rhizosphere-inhabiting microbes B acteria produce a diversity of bacteriocins to kill closely related competitors (1). Tailocins are high-molecular-weight (HMW) bacteriocins produced by a variety of bacteria that resemble bacteriophage tails (2-5). Tailocin particles are protease resistant, thermolabile, and sedimentable by ultracentrifugation (2). These particles have been studied extensively for the opportunistic human pathogen Pseudomonas aeruginosa, strains of which are capable of producing either or both R-type and F-type

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“…Antagonistic activity of the LlpBs was evaluated via spot assay against a panel of pseudomonads, including several Pseudomonas reference strains. Ten‐μl drops of recombinant protein (concentration 1 mg ml −1 ) were applied onto bacterial cell lawns, incubated overnight, and scored for the presence of zones of growth inhibition the following day (Hockett and Baltrus, ). For both LlpBs, eight out of 49 strains in the Pseudomonas test panel proved susceptible (Table ), confirming the bactericidal function of these proteins.…”

Section: Resultsmentioning

confidence: 99%

LlpB represents a second subclass of lectin‐like bacteriocins

Ghequire

Mot

2019

Microbial Biotechnology

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Summary Bacteriocins are secreted bacterial proteins that selectively kill related strains. Lectin‐like bacteriocins are atypical bacteriocins not requiring a cognate immunity factor and have been primarily studied in Pseudomonas . These so‐called LlpAs are composed of a tandem of B‐lectin domains. One domain interacts with d ‐rhamnose residues in the common polysaccharide antigen of Pseudomonas lipopolysaccharide ( LPS ). The other lectin domain is crucial for interference with the outer membrane protein assembly machinery by interacting with surface‐exposed loops of its central component BamA. Via genome mining, we identified a second subclass of Pseudomonas lectin‐like proteins, termed LlpB, consisting of a single B‐lectin domain. We show that these proteins also display bactericidal activity. Among LlpB‐resistant transposon mutants of an LlpB‐susceptible Pseudomona s strain, a major subset was hit in an acyltransferase gene, predicted to be involved in LPS core modification, hereby suggesting that LlpBs equally attach to LPS for surface anchoring. This indicates that LPS binding and target strain specificity are condensed in a single B‐lectin domain. The identification of this second subclass of lectin‐like bacteriocins further expands the toolbox of antibacterial warfare deployed by bacteria and holds potential for their integration in biotechnological applications.

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Use of the Soft-agar Overlay Technique to Screen for Bacterially Produced Inhibitory Compounds

Cited by 87 publications

References 12 publications

Conditionally Redundant Bacteriocin Targeting byPseudomonas syringae

Conditionally Redundant Bacteriocin Targeting byPseudomonas syringae

Pseudomonas chlororaphis Produces Two Distinct R-Tailocins That Contribute to Bacterial Competition in Biofilms and on Roots

LlpB represents a second subclass of lectin‐like bacteriocins

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