Efficiency of the transfer of a pSAM2-derivative plasmid between two strains of Streptomyces lividans in conditions ranging from agar slants to non-sterile soil microcosms

The goal of this paper was to demonstrate whether natural transformation could occur in the environment to promote horizontal gene transfer between bacteria. Microcosms consisting of clay, clay and humic acids, or sterile soil were compared with respect to the natural transformation of Pseudomonas stutzeri by mineral-adsorbed DNA. Genes conferring resistance to tetracycline and ampicillin were first inserted in P. stutzeri pp100 chromosome via the pSUP202 suicide plasmid. Then, DNA extracted from the engineered P. stutzeri strain was used for transformation experiments, allowing the new transformed cells to be detected by hybridization with a tet probe. It turned out that DNA adsorbed on clay or soil particles and in presence of humic acids still transformed competent cells with frequencies up to 10−8transformants/viable cell. Finally, natural transformation assays involving two different DNAs were carried out in sterile soil microcosms. The use of nonisogenic DNA extracted from a rifampicin-resistant Pseudomonas fluorescens strain resulted in production of transformants, while isogenic DNA from our engineered strain failed to produce any. These observations confirmed that extracellular DNA adsorbed on a soil matrix composed of minerals and organic matter could still transform competent bacteria under environmental conditions.Key words: transformation, Pseudomonas stutzeri, soil microcosm, DNA, suicide plasmid.

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Detection of Oxytetracycline Production by Streptomyces rimosus in Soil Microcosms by Combining Whole-Cell Biosensors and Flow Cytometry

Applied and Environmental Microbiology ◽

10.1128/aem.67.1.239-244.2001 ◽

2001 ◽

Vol 67 (1) ◽

pp. 239-244 ◽

Cited By ~ 55

Author(s):

Lars Hestbjerg Hansen ◽

Belinda Ferrari ◽

Anders Hay Sørensen ◽

Duncan Veal ◽

Søren Johannes Sørensen

Keyword(s):

Cell Sorting ◽

Fluorescent Protein ◽

High Specificity ◽

Streptomyces Rimosus ◽

Facs Analysis ◽

Sterile Soil ◽

Transcriptional Fusion ◽

Soil Microcosms ◽

Qualitative Detection ◽

Green Fluorescent

ABSTRACT Combining the high specificity of bacterial biosensors and the resolution power of fluorescence-activated cell sorting (FACS) provided qualitative detection of oxytetracycline production byStreptomyces rimosus in soil microcosms. A plasmid containing a transcriptional fusion between thetetR-regulated P tet promoter from Tn10 and a FACS-optimized gfp gene was constructed. When harbored by Escherichia coli, this plasmid produces large amounts of green fluorescent protein (GFP) in the presence of tetracycline. This tetracycline biosensor was used to detect the production of oxytetracycline by S. rimosusintroduced into sterile soil. The tetracycline-induced GFP-producing biosensors were detected by FACS analysis, enabling the detection of oxytetracycline encounters by single biosensor cells. This approach can be used to study interactions between antibiotic producers and their target organisms in soil.

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Production and processing of a 59-kilodalton exochitinase during growth of Streptomyces lividans carrying pCHIO12 in soil microcosms amended with crab or fungal chitin.

Applied and Environmental Microbiology ◽

10.1128/aem.62.5.1774-1780.1996 ◽

1996 ◽

Vol 62 (5) ◽

pp. 1774-1780 ◽

Cited By ~ 20

Author(s):

A P Vionis ◽

F Niemeyer ◽

A D Karagouni ◽

H Schrempf

Keyword(s):

Streptomyces Lividans ◽

Soil Microcosms

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Interspecific Transfer of StreptomycesGiant Linear Plasmids in Sterile Amended Soil Microcosms

Applied and Environmental Microbiology ◽

10.1128/aem.66.2.529-534.2000 ◽

2000 ◽

Vol 66 (2) ◽

pp. 529-534 ◽

Cited By ~ 34

Author(s):

Jacques Ravel ◽

Elizabeth M. H. Wellington ◽

Russell T. Hill

Keyword(s):

Resistance Genes ◽

Mercury Resistance ◽

Boston Harbor ◽

Sterile Soil ◽

Linear Plasmids ◽

Donor Genome ◽

Soil Microcosms ◽

Soil Transfer ◽

Interspecific Transfer ◽

Amended Soil

ABSTRACT The interspecific transfer of two giant linear plasmids was investigated in sterile soil microcosms. Plasmids pRJ3L (322 kb) and pRJ28 (330 kb), both encoding mercury resistance, were successfully transferred in amended soil microcosms from their streptomycete hosts, the isolates CHR3 and CHR28, respectively, to a plasmidless and mercury-sensitive strain, Streptomyces lividans TK24. Transconjugants of S. lividans TK24 were first observed after 2 to 3 days of incubation at 30°C, which corresponded to the time taken for the formation of mycelia in soil. Transfer frequencies were 4.8 × 10−4 and 3.6 × 10−5CFU/donor genome for pRJ3L and pRJ28, respectively. Transconjugants were analyzed by pulsed-field gel electrophoresis for the presence of plasmids, and plasmid identity was confirmed by restriction digests. Total genomic DNA digests confirmed that transconjugants were S. lividans TK24. The mercury resistance genes were shown to be on the plasmid in the transconjugants by hybridization analysis and were still functional. This is the first demonstration of transfer of giant linear plasmids in sterile soil microcosms. Giant linear plasmids were detected in many Streptomyces spp. isolated from mercury-contaminated sediments from Boston Harbor (United States), Townsville Harbor (Australia), and the Sali River (Tucuman, Argentina). Mercury resistance genes were shown to be present on some of these plasmids. Our findings that giant linear plasmids can be transferred between Streptomyces spp. and are common in environmentalStreptomyces isolates suggest that these plasmids are important in gene transfer between streptomycetes in the environment.

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