Factors affecting competence in a high frequency of transformation marine Vibrio

Frischer, Marc E.; Thurmond, Jennifer M.; Paul, John H.

doi:10.1099/00221287-139-4-753

Cited by 25 publications

(15 citation statements)

References 44 publications

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“…pQSR50 is a derivative of Rl162 [24] which contains transposon Tn5 and encodes resistance to the antibiotics kanamycin and streptomycin [25]. pQSR50 was used in earlier transformation studies [20][21][22][23]. Plasmid DNA was purified and multimerized as previously described [20].…”

Section: Transforming Dna and Gene Probesmentioning

confidence: 99%

“…Recently we have developed a marine model system for the investigation of natural plasmid transformation in the environment [20,21]. Using this system we have demonstrated the potential for natural transformation in the marine environment [22] and the potential for inter-and intraspecific plasmid transfer to occur between marine Vibrio strains or between E. coli and Vibrio strains [23].…”

Section: Introductionmentioning

confidence: 99%

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Plasmid transfer to indigenous marine bacterial populations by natural transformation

Frischer

Stewart

Paul

1994

FEMS Microbiology Ecology

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Horizontal gene transfer among microbial populations has been assumed to occur in the environment, yet direct observations of this phenomenon are rare or limited to observations where the mechanism(s) could not be explicitly determined. Here we demonstrate the transfer of exogenous plasmid DNA to members of indigenous marine bacterial populations by natural transformation, the first report of this process for any natural microbial community. Ten percent of marine bacterial isolates examined were transformed by plasmid DNA while 14% were transformed by chromosomal DNA. Transformation of mixed marine microbial assemblages was observed in 5 of 14 experiments. In every case, acquisition of the plasmid by members of the indigenous flora was accompanied by modification (probably from genetic rearrangement or methylation) that altered its restriction enzyme digestion pattern. Estimation of transformation rates in estuarine environments based upon the distribution of competency and transformation frequencies in isolates and mixed populations ranged from 5 × 10−4 to 1.5 transformants/1 day. Extrapolation of these rates to ecosystem scales suggests that natural transformation may be an important mechanism for plasmid transfer among marine bacterial communities.

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Section: Transforming Dna and Gene Probesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Plasmid transfer to indigenous marine bacterial populations by natural transformation

Frischer

Stewart

Paul

1994

FEMS Microbiology Ecology

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“…After incubation, cells were lysed by placing membranes, colony side up, on Whatman 3MM filter paper soaked with 2 x SSC, 5 YO (w/v) SDS for 2 min, followed by heating at maximum power in a 650 W microwave oven for 2.5 min, as described by Buluwela e t al. (1989) and Frischer et al (1990). The membranes were transferred to filter paper soaked with denaturing solution (0.5 M NaOH, 1-5 M NaCl) and incubated for a further 7 min.…”

Section: Methodsmentioning

confidence: 99%

Plasmids isolated from the sugar beet phyllosphere show little or no homology to molecular probes currently available for plasmid typing

Kobayashi

Bailey

1994

Microbiology

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From a representative sample of bacteria, isolated from mature sugar beet leaves (Beta vulgaris) grown a t three separate locations in the UK, 79 (18%) were shown to contain plasmids ranging in size from 10 kb to 200 kb. A sensitive colony blot method was developed to facilitate the screening of both Gram-negative and Gram-positive isolates to determine the distribution of known plasmid incompatibility groups among plasmids isolated from the natural environment using the collection of indrep probes derived from basic replicons [rep FIA, FHA, FIB, HI1, HI2, 11, B/O, UM, N, P, Q, U, W and X, as described by Couturier e t a/. (1988) Microbiol Rev 52, 375-3951, After hybridization with each of the radiolabelled replicon probes, 54 of these 79 plasmid-containing natural isolates, which included Ennrinia spp., Pseudomonas spp. and Gram-positive bacteria, failed to react. Reactivity was observed with 25 of the 29 Klebsiella and Ennrinia isolates investigated. Of the plasmidcontaining Enterobacteriaceae examined, 18 reacted with the repFlB probe, six with the repFllA probe and one isolate, Eminia s a k i s SBN169, hybridized to both. Southern hybridization demonstrated that the different isolates which shared homology with the repFlB probe contained a common 1 kb Pstl fragment. By comparing the Pstl restriction fragment patterns of total plasmid DNA, the Ennrinia and Klebsiella isolates were divided into 10 distinct groups and the other non-reactive isolates divided into a further 24 groups. Plasmid type appeared t o be restricted to the geographical location from which the host bacteria were isolated. This study illustrates that sugar beet phyllosphere bacteria support a diverse array of plasmids which cannot be readily classified at the molecular level into the recognized incompatibility groups commonly described for clinical isolates.

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“…Addition of low nutrient levels (100 mg l-1 of peptone plus 20 mg 1-1 of yeast extract) to any of the water column microcosms, resulted in increased transformation frequencies, whereas the addition of 10-times higher nutrient levels appeared to depress transformation frequencies. In a further study, it was found that non-growing WJT-1C cells were able to maintain competence for at least 10 days when held either in spent rich medium or artificial seawater with no added nutrients [19]. Also, WJT-1C showed no significant difference in transformation frequency by plasmid pQSR50 when the cells were grown in artificial seawater containing yeast extract and peptone concentrations ranging from 10 to 2000 and 50 to 10000 mg 1 -a, respectively, in contrast to results from earlier studies [18].…”

Section: Transformationmentioning

confidence: 93%

Gene transfer among bacteria under conditions of nutrient depletion in simulated and natural aquatic environments

Goodman

1994

FEMS Microbiology Ecology

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Gene transfer among microorganisms has been well demonstrated in laboratory microcosms and in situ, under non-limiting nutrient conditions. The literature contains conflicting opinions, however, as to whether such processes could occur in the absence of nutrients. This review summarises the evidence for the occurrence of gene transfer by conjugation, transformation and transduction among non-growing bacteria in nutrient depleted environments. Conjugation by selftransmissible, or by non-selftransmissible but mobilisable, plasmids has been shown to occur among environmental isolates of Escherichia coli, Enterobacter cloacae, Pseudomonas aeruginosa and marine Vibrio strains. Transduction and transformation have been demonstrated in isolates of P. aeruginosa and marine Vibrio strains, respectively. It is possible that the mechanisms of these processes may be different in non-growing cells in nutrient depleted conditions, compared to those occurring in cells growing in rich media.

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Factors affecting competence in a high frequency of transformation marine Vibrio

Cited by 25 publications

References 44 publications

Plasmid transfer to indigenous marine bacterial populations by natural transformation

Plasmid transfer to indigenous marine bacterial populations by natural transformation

Plasmids isolated from the sugar beet phyllosphere show little or no homology to molecular probes currently available for plasmid typing

Gene transfer among bacteria under conditions of nutrient depletion in simulated and natural aquatic environments

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