Rapid detection of Pseudomonas aeruginosa by phage-capture system coupled with micro-Raman spectroscopy

•Early and accurate identification of medically relevant microorganisms like Pseudomonas aeruginosa.•Phage display is a high-throughput biotechnique for selection of specific molecular.•Raman and FTIR spectroscopic techniques allow to identify molecules vibrating modes in bacteria. The early and acc...

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Bibliographic Details
Published in:Vibrational spectroscopy 2016-09, Vol.86, p.1-7
Main Authors: Lentini, G., Franco, D., Fazio, E., De Plano, L.M., Trusso, S., Carnazza, S., Neri, F., Guglielmino, S.P.P.
Format: Article
Language:English
Subjects:
Latex beads
M13 filamentous phage
Phage display
Pseudomonas aeruginosa
Raman spectroscopy
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Summary:•Early and accurate identification of medically relevant microorganisms like Pseudomonas aeruginosa.•Phage display is a high-throughput biotechnique for selection of specific molecular.•Raman and FTIR spectroscopic techniques allow to identify molecules vibrating modes in bacteria. The early and accurate identification of medically relevant microorganisms like Pseudomonas aeruginosa is of great importance for human health. Current pathogen identification is routinely performed using conventional microbiological methods which are unable to detect fastidious organism that are difficult to culture and occur at low concentrations without time consuming multiple cultivation steps. This study reports the development of a novel rapid and cultivation-free method for highly sensitive and rapid detection of Pseudomonas aeruginosa based on the coupling of phage-capture system with optical techniques, namely FTIR and visible micro-Raman spectroscopies. Commercial latex beads were functionalized with the entire structure of engineered phage clones and used as bacterial capture and concentrating system. The rapid concentration of bacteria enhanced the detection of the Raman scattering signal by increasing the location concentration that is being processed. This method can be used to detect a low level of P. aeruginosa (103 cells/ml) from clinical samples without the use of selective media or additional biochemical tests. The sample testing process, including data acquisition, required a time less than one hour. The proposed system represents a proof of concept study for development of sensitive phage-based biosensors for rapid and specific one-step detection of pathogenic bacteria.
ISSN:0924-2031
1873-3697
DOI:10.1016/j.vibspec.2016.05.003