Abstract
The utility and performance of label-free, oligonucleotide probes for reagentless detection of dilute target analytes was examined using a voltammetric transduction principle in an array format. Multistep, solid-state fabrication yielded preproduction arrays of 16 individually addressable, 30 μm diameter microelectrodes in a 30 mm × 6.5 mm × 0.5 mm dipstick disposable device. The specificity of 16 nucleotide (nt) 2'-O-methylribonucleic acid and 22 nt DNA backbone probes bound through Mg(2+)-phosphonate bridges to polypyrrole films on the microelectrodes were studied using microbial target RNAs of various lengths. Probe-specific interactions with Escherichia coli O157 H7 23S rRNA (2907 nt) and Candida albicans 18S rRNA (1788 nt) were detected at 65 and 58 fmol/mL, respectively, in volumes as low as 0.5 mL. Specificity studies showed that, for a given probe, "nontarget" transcripts can contribute to changes in the voltammetric detection signal, though with responses that never exceed 70% of the detection signal acquired for specifically designed complementary targets. These results statistically validate the use of the voltammetric microelectrode array for obtaining a "yes-no" answer on complementary specific binding. The study also identifies challenges and pitfalls for the selection strategies of oligonucleotide probes.
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