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Literature DB >> 15826127

Manipulation and real-time electrical detection of individual bacterial cells at electrode junctions: a model for assembly of nanoscale biosystems.

Joseph D Beck¹, Lu Shang, Matthew S Marcus, Robert J Hamers.

Abstract

Biological cells are complex objects that have the potential to act as templates for the subsequent construction of nanoscale structures. We demonstrate the ability to controllably and reversibly manipulate individual, live bacterial cells across micron-sized electrical gaps, and to detect bridging directly through changes in the electrical response. Our model system, Bacillus mycoides, is a rod-shaped bacterium approximately 800 nm wide and 5 microm long, similar in size and shape to many inorganic nanowires.

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Year: 2005 PMID： 15826127 DOI： 10.1021/nl047861g

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

4 in total

Manipulation and real-time electrical detection of individual bacterial cells at electrode junctions: a model for assembly of nanoscale biosystems.

1. Comparison of electrical properties of viruses studied by AC capacitance scanning probe microscopy.

2. Single-cell pathogen detection with a reverse-phase immunoassay on impedimetric transducers.

3. Label-free electrical quantification of the dielectrophoretic response of DNA.

4. Electrical Detection of Pneumococcus through the Nanoparticle Decoration Method.