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Biofilm formation by Staphylococcus haemolyticus.

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Biofilm formation by Staphylococcus haemolyticus. / Fredheim, Elizabeth Gladys Aarag; Klingenberg, Claus; Rohde, Holger; Frankenberger, Stephanie; Gaustad, Peter; Flaegstad, Trond; Sollid, Johanna Ericson.

in: J CLIN MICROBIOL, Jahrgang 47, Nr. 4, 4, 2009, S. 1172-1180.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Fredheim, EGA, Klingenberg, C, Rohde, H, Frankenberger, S, Gaustad, P, Flaegstad, T & Sollid, JE 2009, 'Biofilm formation by Staphylococcus haemolyticus.', J CLIN MICROBIOL, Jg. 47, Nr. 4, 4, S. 1172-1180. <http://www.ncbi.nlm.nih.gov/pubmed/19144798?dopt=Citation>

APA

Fredheim, E. G. A., Klingenberg, C., Rohde, H., Frankenberger, S., Gaustad, P., Flaegstad, T., & Sollid, J. E. (2009). Biofilm formation by Staphylococcus haemolyticus. J CLIN MICROBIOL, 47(4), 1172-1180. [4]. http://www.ncbi.nlm.nih.gov/pubmed/19144798?dopt=Citation

Vancouver

Fredheim EGA, Klingenberg C, Rohde H, Frankenberger S, Gaustad P, Flaegstad T et al. Biofilm formation by Staphylococcus haemolyticus. J CLIN MICROBIOL. 2009;47(4):1172-1180. 4.

Bibtex

@article{5985afbe3caa4207b5e5240574ee2707,
title = "Biofilm formation by Staphylococcus haemolyticus.",
abstract = "Infections due to coagulase-negative staphylococci (CoNS) most frequently occur after the implantation of medical devices and are attributed to the biofilm-forming potential of CoNS. Staphylococcus haemolyticus is the second most frequently isolated CoNS from patients with hospital-acquired infections. There is only limited knowledge of the nature of S. haemolyticus biofilms. The aim of this study was to characterize S. haemolyticus biofilm formation. We analyzed the biofilm-forming capacities of 72 clinical S. haemolyticus isolates. A detachment assay with NaIO(4), proteinase K, or DNase was used to determine the main biofilm components. Biofilm-associated genes, including the ica operon, were analyzed by PCR, and the gene products were sequenced. Confocal laser scanning microscopy (CLSM) was used to elucidate the biofilm structure. Fifty-three isolates (74%) produced biofilms after growth in Trypticase soy broth (TSB) with glucose, but only 22 (31%) produced biofilms after growth in TSB with NaCl. It was necessary to dissolve the biofilm in ethanol-acetone to measure the optical density of the full biofilm mass. DNase, proteinase K, and NaIO(4) caused biofilm detachment for 100%, 98%, and 38% of the isolates, respectively. icaRADBC and polysaccharide intercellular adhesin (PIA) production were found in only two isolates. CLSM indicated that the biofilm structure of S. haemolyticus clearly differs from that of S. epidermidis. We conclude that biofilm formation is a common phenotype in clinical S. haemolyticus isolates. In contrast to S. epidermidis, proteins and extracellular DNA are of functional relevance for biofilm accumulation, whereas PIA plays only a minor role. The induction of biofilm formation and determination of the biofilm mass also needed to be optimized for S. haemolyticus.",
author = "Fredheim, {Elizabeth Gladys Aarag} and Claus Klingenberg and Holger Rohde and Stephanie Frankenberger and Peter Gaustad and Trond Flaegstad and Sollid, {Johanna Ericson}",
year = "2009",
language = "Deutsch",
volume = "47",
pages = "1172--1180",
journal = "J CLIN MICROBIOL",
issn = "0095-1137",
publisher = "American Society for Microbiology",
number = "4",

}

RIS

TY - JOUR

T1 - Biofilm formation by Staphylococcus haemolyticus.

AU - Fredheim, Elizabeth Gladys Aarag

AU - Klingenberg, Claus

AU - Rohde, Holger

AU - Frankenberger, Stephanie

AU - Gaustad, Peter

AU - Flaegstad, Trond

AU - Sollid, Johanna Ericson

PY - 2009

Y1 - 2009

N2 - Infections due to coagulase-negative staphylococci (CoNS) most frequently occur after the implantation of medical devices and are attributed to the biofilm-forming potential of CoNS. Staphylococcus haemolyticus is the second most frequently isolated CoNS from patients with hospital-acquired infections. There is only limited knowledge of the nature of S. haemolyticus biofilms. The aim of this study was to characterize S. haemolyticus biofilm formation. We analyzed the biofilm-forming capacities of 72 clinical S. haemolyticus isolates. A detachment assay with NaIO(4), proteinase K, or DNase was used to determine the main biofilm components. Biofilm-associated genes, including the ica operon, were analyzed by PCR, and the gene products were sequenced. Confocal laser scanning microscopy (CLSM) was used to elucidate the biofilm structure. Fifty-three isolates (74%) produced biofilms after growth in Trypticase soy broth (TSB) with glucose, but only 22 (31%) produced biofilms after growth in TSB with NaCl. It was necessary to dissolve the biofilm in ethanol-acetone to measure the optical density of the full biofilm mass. DNase, proteinase K, and NaIO(4) caused biofilm detachment for 100%, 98%, and 38% of the isolates, respectively. icaRADBC and polysaccharide intercellular adhesin (PIA) production were found in only two isolates. CLSM indicated that the biofilm structure of S. haemolyticus clearly differs from that of S. epidermidis. We conclude that biofilm formation is a common phenotype in clinical S. haemolyticus isolates. In contrast to S. epidermidis, proteins and extracellular DNA are of functional relevance for biofilm accumulation, whereas PIA plays only a minor role. The induction of biofilm formation and determination of the biofilm mass also needed to be optimized for S. haemolyticus.

AB - Infections due to coagulase-negative staphylococci (CoNS) most frequently occur after the implantation of medical devices and are attributed to the biofilm-forming potential of CoNS. Staphylococcus haemolyticus is the second most frequently isolated CoNS from patients with hospital-acquired infections. There is only limited knowledge of the nature of S. haemolyticus biofilms. The aim of this study was to characterize S. haemolyticus biofilm formation. We analyzed the biofilm-forming capacities of 72 clinical S. haemolyticus isolates. A detachment assay with NaIO(4), proteinase K, or DNase was used to determine the main biofilm components. Biofilm-associated genes, including the ica operon, were analyzed by PCR, and the gene products were sequenced. Confocal laser scanning microscopy (CLSM) was used to elucidate the biofilm structure. Fifty-three isolates (74%) produced biofilms after growth in Trypticase soy broth (TSB) with glucose, but only 22 (31%) produced biofilms after growth in TSB with NaCl. It was necessary to dissolve the biofilm in ethanol-acetone to measure the optical density of the full biofilm mass. DNase, proteinase K, and NaIO(4) caused biofilm detachment for 100%, 98%, and 38% of the isolates, respectively. icaRADBC and polysaccharide intercellular adhesin (PIA) production were found in only two isolates. CLSM indicated that the biofilm structure of S. haemolyticus clearly differs from that of S. epidermidis. We conclude that biofilm formation is a common phenotype in clinical S. haemolyticus isolates. In contrast to S. epidermidis, proteins and extracellular DNA are of functional relevance for biofilm accumulation, whereas PIA plays only a minor role. The induction of biofilm formation and determination of the biofilm mass also needed to be optimized for S. haemolyticus.

M3 - SCORING: Zeitschriftenaufsatz

VL - 47

SP - 1172

EP - 1180

JO - J CLIN MICROBIOL

JF - J CLIN MICROBIOL

SN - 0095-1137

IS - 4

M1 - 4

ER -