Bruno Elsholz scite author profile

Low-density electrical 16S rRNA specific oligonucleotide microarrays and an automated analysis system have been developed for the identification and quantitation of pathogens. The pathogens are Escherichia coli, Pseudomonas aeruginosa, Enterococcus faecalis, Staphylococcus aureus, and Staphylococcus epidermidis, which are typically involved in urinary tract infections. Interdigitated gold array electrodes (IDA-electrodes), which have structures in the nanometer range, have been used for very sensitive analysis. Thiol-modified oligonucleotides are immobilized on the gold IDA as capture probes. They mediate the specific recognition of the target 16S rRNA by hybridization. Additionally three unlabeled oligonucleotides are hybridized in close proximity to the capturing site. They are supporting molecules, because they improve the RNA hybridization at the capturing site. A biotin labeled detector oligonucleotide is also allowed to hybridize to the captured RNA sequence. The biotin labels enable the binding of avidin alkaline phophatase conjugates. The phosphatase liberates the electrochemical mediator p-aminophenol from its electrically inactive phosphate derivative. The electrical signals were generated by amperometric redox cycling and detected by a unique multipotentiostat. The read out signals of the microarray are position specific current and change over time in proportion to the analyte concentration. If two additional biotins are introduced into the affinity binding complex via the supporting oligonucleotides, the sensitivity of the assays increase more than 60%. The limit of detection of Escherichia coli total RNA has been determined to be 0.5 ng/microL. The control of fluidics for variable assay formats as well as the multichannel electrical read out and data handling have all been fully automated. The fast and easy procedure does not require any amplification of the targeted nucleic acids by PCR.

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Electrical microarrays for highly sensitive detection of multiplex PCR products from biological agents

Elsholz

Nitsche

Achenbach

et al. 2009

Biosensors and Bioelectronics

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Confirmative electric DNA array-based test for food poisoning Bacillus cereus

Liu¹,

Elsholz²,

Enfors³

et al. 2007

Journal of Microbiological Methods

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Detection of the full set of toxin encoding genes involved in gastrointestinal diseases caused by B. cereus was performed. Eight genes determining the B. cereus pathogenicity, which results in diarrhea or emesis, were simultaneously evaluated on a 16-position electrical chip microarray. The DNA analyte preparation procedure comprising first 5 min of ultrasonic treatment, DNA extraction, and afterwards an additional 10 min sonication, was established as the most effective way of sample processing. No DNA amplification step prior to the analysis was included. The programmed assay was carried out within 30 min, once the DNA analyte from 10(8) bacterial cells, corresponding to one agar colony, was subjected to the assay. In general, this work represents a mature analytical way for DNA review. It can be used under conditions that require almost immediate results

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DNA hybridization detection on electrical microarrays using coulostatic pulse technique

Dharuman

Nebling

Grünwald³

et al. 2006

Biosensors and Bioelectronics

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Critical factors for the performance of chip array-based electrical detection of DNA for analysis of pathogenic bacteria

Liu¹,

Elsholz²,

Enfors³

et al. 2008

Analytical Biochemistry

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Bruno Elsholz

Automated Detection and Quantitation of Bacterial RNA by Using Electrical Microarrays

Electrical microarrays for highly sensitive detection of multiplex PCR products from biological agents

Confirmative electric DNA array-based test for food poisoning Bacillus cereus

DNA hybridization detection on electrical microarrays using coulostatic pulse technique

Critical factors for the performance of chip array-based electrical detection of DNA for analysis of pathogenic bacteria

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