Establishment of new genetic traits in a microbial biofilm community

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Standard

Establishment of new genetic traits in a microbial biofilm community. / Christensen, B B; Sternberg, Claus; Andersen, J B; Eberl, Leo; Moller, S; Givskov, M; Molin, Søren.

In: Applied and Environmental Microbiology, Vol. 64, No. 6, 1998, p. 2247-55.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Christensen, BB, Sternberg, C, Andersen, JB, Eberl, L, Moller, S, Givskov, M & Molin, S 1998, 'Establishment of new genetic traits in a microbial biofilm community', Applied and Environmental Microbiology, vol. 64, no. 6, pp. 2247-55.

APA

Christensen, B. B., Sternberg, C., Andersen, J. B., Eberl, L., Moller, S., Givskov, M., & Molin, S. (1998). Establishment of new genetic traits in a microbial biofilm community. Applied and Environmental Microbiology, 64(6), 2247-55.

Vancouver

Christensen BB, Sternberg C, Andersen JB, Eberl L, Moller S, Givskov M et al. Establishment of new genetic traits in a microbial biofilm community. Applied and Environmental Microbiology. 1998;64(6):2247-55.

Author

Christensen, B B ; Sternberg, Claus ; Andersen, J B ; Eberl, Leo ; Moller, S ; Givskov, M ; Molin, Søren. / Establishment of new genetic traits in a microbial biofilm community. In: Applied and Environmental Microbiology. 1998 ; Vol. 64, No. 6. pp. 2247-55.

Bibtex

@article{96bf78632ebe4e38b3ba0ff67cd90120,
title = "Establishment of new genetic traits in a microbial biofilm community",
abstract = "Conjugational transfer of the TOL plasmid (pWWO) was analyzed in a flow chamber biofilm community engaged in benzyl alcohol degradation. The community consisted of three species, Pseudomonas putida RI, Acinetobacter sp. strain C6, and an unidentified isolate, D8. Only P. putida RI could act as a recipient for the TOL plasmid. Cells carrying a chromosomally integrated lacIq gene and a lacp-gfp-tagged version of the TOL plasmid were introduced as donor strains in the biofilm community after its formation. The occurrence of plasmid-carrying cells was analyzed by viable-count-based enumeration of donors and transconjugants. Upon transfer of the plasmids to the recipient cells, expression of green fluorescence was activated as a result of zygotic induction of the gfp gene. This allowed a direct in situ identification of cells receiving the gfp-tagged version of the TOL plasmid. Our data suggest that the frequency of horizontal plasmid transfer was low, and growth (vertical transfer) of the recipient strain was the major cause of plasmid establishment in the biofilm community. Employment of scanning confocal laser microscopy on fixed biofilms, combined with simultaneous identification of P. putida cells and transconjugants by 16S rRNA hybridization and expression of green fluorescence, showed that transconjugants were always associated with noninfected P. putida RI recipient microcolonies. Pure colonies of transconjugants were never observed, indicating that proliferation of transconjugant cells preferentially took place on preexisting P. putida RI microcolonies in the biofilm.",
author = "Christensen, {B B} and Claus Sternberg and Andersen, {J B} and Leo Eberl and S Moller and M Givskov and S{\o}ren Molin",
year = "1998",
language = "English",
volume = "64",
pages = "2247--55",
journal = "Applied and Environmental Microbiology",
issn = "0099-2240",
publisher = "American Society for Microbiology",
number = "6",

}

RIS

TY - JOUR

T1 - Establishment of new genetic traits in a microbial biofilm community

AU - Christensen, B B

AU - Sternberg, Claus

AU - Andersen, J B

AU - Eberl, Leo

AU - Moller, S

AU - Givskov, M

AU - Molin, Søren

PY - 1998

Y1 - 1998

N2 - Conjugational transfer of the TOL plasmid (pWWO) was analyzed in a flow chamber biofilm community engaged in benzyl alcohol degradation. The community consisted of three species, Pseudomonas putida RI, Acinetobacter sp. strain C6, and an unidentified isolate, D8. Only P. putida RI could act as a recipient for the TOL plasmid. Cells carrying a chromosomally integrated lacIq gene and a lacp-gfp-tagged version of the TOL plasmid were introduced as donor strains in the biofilm community after its formation. The occurrence of plasmid-carrying cells was analyzed by viable-count-based enumeration of donors and transconjugants. Upon transfer of the plasmids to the recipient cells, expression of green fluorescence was activated as a result of zygotic induction of the gfp gene. This allowed a direct in situ identification of cells receiving the gfp-tagged version of the TOL plasmid. Our data suggest that the frequency of horizontal plasmid transfer was low, and growth (vertical transfer) of the recipient strain was the major cause of plasmid establishment in the biofilm community. Employment of scanning confocal laser microscopy on fixed biofilms, combined with simultaneous identification of P. putida cells and transconjugants by 16S rRNA hybridization and expression of green fluorescence, showed that transconjugants were always associated with noninfected P. putida RI recipient microcolonies. Pure colonies of transconjugants were never observed, indicating that proliferation of transconjugant cells preferentially took place on preexisting P. putida RI microcolonies in the biofilm.

AB - Conjugational transfer of the TOL plasmid (pWWO) was analyzed in a flow chamber biofilm community engaged in benzyl alcohol degradation. The community consisted of three species, Pseudomonas putida RI, Acinetobacter sp. strain C6, and an unidentified isolate, D8. Only P. putida RI could act as a recipient for the TOL plasmid. Cells carrying a chromosomally integrated lacIq gene and a lacp-gfp-tagged version of the TOL plasmid were introduced as donor strains in the biofilm community after its formation. The occurrence of plasmid-carrying cells was analyzed by viable-count-based enumeration of donors and transconjugants. Upon transfer of the plasmids to the recipient cells, expression of green fluorescence was activated as a result of zygotic induction of the gfp gene. This allowed a direct in situ identification of cells receiving the gfp-tagged version of the TOL plasmid. Our data suggest that the frequency of horizontal plasmid transfer was low, and growth (vertical transfer) of the recipient strain was the major cause of plasmid establishment in the biofilm community. Employment of scanning confocal laser microscopy on fixed biofilms, combined with simultaneous identification of P. putida cells and transconjugants by 16S rRNA hybridization and expression of green fluorescence, showed that transconjugants were always associated with noninfected P. putida RI recipient microcolonies. Pure colonies of transconjugants were never observed, indicating that proliferation of transconjugant cells preferentially took place on preexisting P. putida RI microcolonies in the biofilm.

M3 - Journal article

C2 - 9603843

VL - 64

SP - 2247

EP - 2255

JO - Applied and Environmental Microbiology

JF - Applied and Environmental Microbiology

SN - 0099-2240

IS - 6

ER -

ID: 44308592