Abstract
The current global spread of multi-resistant Gram-negatives, particularly extended spectrum β-lactamases expressing bacteria, increases the likelihood of inappropriate empiric treatment of critically ill patients with subsequently increased mortality. From a clinical perspective, fast detection of resistant pathogens would allow a pre-emptive correction of an initially inappropriate treatment. Here we present diagnostic amplification-sequencing approach as proof of principal based on the fast molecular detection and correct discrimination of CTX-M-β-lactamases, the most frequent ESBL family. The workflow consists of the isolation of total mRNA and CTX-M-specific reverse transcription (RT), amplification and pyrosequencing. Due to the high variability of the CTX-M-β-lactamasegenes, degenerated primers for RT, qRT as well as for pyrosequencing, were used and the suitability and discriminatory performance of two conserved positions within the CTX-M genes were analyzed, using one protocol for all isolates and positions, respectively. Using this approach, no information regarding the expected CTX-M variant is needed since all sequences are covered by these degenerated primers. The presented workflow can be conducted within eight hours and has the potential to be expanded to other β-lactamase families. © 2013 Stein, Makarewicz.
Cite
CITATION STYLE
Stein, C., Makarewicz, O., Pfeifer, Y., Brandt, C., Ramos, J. C., Klinger, M., & Pletz, M. W. (2013). Direct RNA-based detection and differentiation of CTX-MType extended-spectrum β-lactamases (ESBL). PLoS ONE, 8(11). https://doi.org/10.1371/journal.pone.0080079
Register to see more suggestions
Mendeley helps you to discover research relevant for your work.