Ulrike Grosskinsky scite author profile

Ulrike Grosskinsky

2Publications

98Citation Statements Received

50Citation Statements Given

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Affiliations

University Children's Hospital Tübingen, Universitätsklinikum Tübingen

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A Conserved Glycine Residue of Trimeric Autotransporter Domains Plays a Key Role inYersiniaAdhesin A Autotransport

et al. 2007

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The Yersinia adhesin A (YadA) is a trimeric autotransporter adhesin of enteric yersiniae. It consists of three major domains: a head mediating adherence to host cells, a stalk involved in serum resistance, and an anchor that forms a membrane pore and is responsible for the autotransport function. The anchor contains a glycine residue, nearly invariant throughout trimeric autotransporter adhesins, that faces the pore lumen. To address the role of this glycine, we replaced it with polar amino acids of increasing side chain size and expressed wild-type and mutant YadA in Escherichia coli. The mutations did not impair the YadA-mediated adhesion to collagen and to host cells or the host cell cytokine production, but they decreased the expression levels and stability of YadA trimers with increasing side chain size. Likewise, autoagglutination and resistance to serum were decreased in these mutants. We found that the periplasmic protease DegP is involved in the degradation of YadA and that in an E. coli degP deletion strain, mutant versions of YadA were expressed almost to wild-type levels. We conclude that the conserved glycine residue affects both the export and the stability of YadA and consequently some of its putative functions in pathogenesis.

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299S1 DGHM Abstracts

Grosskinsky

Oberhettinger

Schuetz

et al. 2009

International Journal of Medical Microbiology

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To improve the clinical outcome of Staphylococcus aureus septicaemia, early selection of appropriate antibiotic treatment is crucial. Molecular diagnostics represent an attractive approach for rapid identification of S. aureus and determination of its methicillin resistance. In direct comparison with other molecular assays (sa442 and mecA real time PCRs) and standard laboratory procedures, we evaluated the BD GeneOhm TM StaphSR assay for its use in the detection of S. aureus and methicillin-resistant S. aureus (MRSA) staphylococci from spiked blood culture bottles (n=134). In case of detecting S. aureus (n=90; MSSA: n=45, MRSA: n=45), the BD GeneOhm TM StaphSR assay had a sensitivity and a specificity of 100% each [95%-confidence interval (CI): 96.0%-100% and 82.4%-100%, respectively]. For MRSA (n=45), the test was 95.6% (95%-CI: 84.9%-99.5%) sensitive and 95.3% (95%-CI: 86.9%-99.0%) specific. Overall, 5 discrepant results arose with this assay due to the presence of methicillin-susceptible, revertant MRSA strains (3/45) and MRSA strains undetected with the BD GeneOhm TM StaphSR assay (2/45). Compared to other real-time-PCR based molecular approaches and to conventional standard laboratory methods, the BD GeneOhm TM StaphSR turned out to be an appropriate diagnostic tool for a rapid (~1.5 hours), preliminary identification of S. aureus and MRSA from blood cultures.Bacterial contamination is currently the major infectious hazard of platelet transfusion. The detection of bacterial contamination in platelet concentrates (PCs) has been implemented in several blood services as a routine quality control testing, but to date transfusion-transmitted bacterial sepsis has not been completely prevented. In the present study, a novel flow cytometry-based method was developed for the rapid point-of-issue screening of PCs for bacterial contamination. The BactiFlow flow cytometer was used to detect and count bacteria based on esterase activity in viable cells. A protocol for bacterial screening of PCs was established by enzymatic digestion and centrifiltration for the elimination of viable platelets and selective labeling of bacteria with a fluorescent esterase substrate. Results from the BactiFlow (Counts/mL) showed an excellent correlation to plate count results (CFU/mL). The lower detection limit of the assay was determined to 150 CFU/mL, whereas the time-to result was less than 1 hour. We investigated this new application in comparison to incubation (BacT/Alert culture system) and rapid nucleic acid-based or immunoassay detection methods (RT-PCR, Pan Genera Detection Technology). Our study demonstrates that the BactiFlow assay is most suitable for rapid bacterial screening of PCs and fulfils the requirements for a point-of-issuetesting of PCs with acceptable time-to-result, specificity, sensitivity and costs.

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