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Proceedings Paper

A luminescent nisin biosensor
Author(s): Nina Immonen; Matti Karp
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Paper Abstract

Nisin is a lantibiotic, an antibacterial peptide produced by certain Lactococcus lactis strains that kills or inhibits the growth of other bacteria. Nisin is widely used as a food preservative, and its long-time use suggests that it can be generally regarded as safe. We have developed a method for determining the amount of nisin in food samples that is based on luminescent biosensor bacteria. Bacterial luciferase operon luxABCDE was inserted into plasmid pNZ8048, and the construct was transformed by electroporation into Lc. lactis strain NZ9800, whose ability to produce nisin has been erased by deletion of the gene nisA. The operon luxABCDE has been modified to be functional in gram-positive bacteria to confer a bioluminescent phenotype without the requirement of adding an exogenous substrate. In the plasmid pNZ8048, the operon was placed under control of the nisin-inducible nisA promoter. The chromosomal nisRK genes of Lc. lactis NZ9800 allow it to sense nisin in the environment and relay this signal via signal transduction proteins NisK and NisR to initiate transcription from nisA promoter. In the case of our sensor bacteria, this leads to production of luciferase and, thus, luminescence that can be directly measured from living bacteria. Luminescence can be detected as early as within minutes of induction. The nisin assay described here provides a detection limit in the sub-picogram level per ml, and a linear area between 1 - 1000 pg/ml. The sensitivity of this assay exceeds the performance of all previously published methods.

Paper Details

Date Published: 23 February 2006
PDF: 9 pages
Proc. SPIE 6098, Genetically Engineered Probes for Biomedical Applications, 60980K (23 February 2006); doi: 10.1117/12.644911
Show Author Affiliations
Nina Immonen, Tampere Univ. of Technology (Finland)
Matti Karp, Tampere Univ. of Technology (Finland)

Published in SPIE Proceedings Vol. 6098:
Genetically Engineered Probes for Biomedical Applications
Alexander P. Savitsky; Rebekka M. Wachter, Editor(s)

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