Journal ArticleDOI
Electronic Detection of Single-Base Mismatches in DNA with Ferrocene-Modified Probes
Changjun Yu,Yanjian Wan,Handy Yowanto,Jie Li,Chunlin Tao,Matthew D. James,Christine L. Tan,Gary Blackburn,Thomas J. Meade +8 more
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TLDR
A new ferrocene-containing phosphoramidite 9 that provides a range of detectable redox potentials is described and thermal stability analysis of these metal-containing DNA oligonucleotides indicates that incorporation of 9 resulted in no destabilization of the duplex.Abstract:
Genotyping and gene-expression monitoring is critical to the study of the association between genetics and drug response (pharmacogenomics) and the association of sequence variation with heritable phenotypes. Recently, we developed an entirely electronic method for the detection of DNA hybridization events by the site-specific incorporation of ferrocenyl derivatives into DNA oligonucleotides. To perform rapid and accurate point mutation detection employing this methodology, two types of metal-containing signaling probes with varying redox potentials are required. In this report we describe a new ferrocene-containing phosphoramidite 9 that provides a range of detectable redox potentials. Using automated DNA/RNA synthesis techniques the two ferrocenyl complexes were inserted at various positions along oligonucleotide probes. Thermal stability analysis of these metal-containing DNA oligonucleotides indicates that incorporation of 9 resulted in no destabilization of the duplex. A mixture of oligonucleotides containing compounds 9 and I was analyzed by alternating current voltammetry (ACV) monitored at the 1st harmonic. The data demonstrate that the two ferrocenyl oligonucleotide derivatives can be distinguished electrochemically. A CMS-DNA array was prepared on an array of gold electrodes on a printed circuit board substrate with a self-assembled mixed monolayer, coupled to an electronic detection system. Experiments for the detection of a single-base match utilizing two signaling probes were carried out. The results demonstrate that rapid and accurate detection of a single-base mismatch can be achieved by using these dual-signaling probes on CMS-DNA chips.read more
Citations
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Electrochemical DNA sensors
TL;DR: Electrochemistry-based sensors offer sensitivity, selectivity and low cost for the detection of selected DNA sequences or mutated genes associated with human disease.
Journal ArticleDOI
Array-based electrical detection of DNA with nanoparticle probes
TL;DR: Using this method, target DNA is detected at concentrations as low as 500 femtomolar with a point mutation selectivity factor of ∼ 100,000:1 and an unusual salt concentration–dependent hybridization behavior associated with these nanoparticle probes was exploited to achieve selectivity without a thermal-stringency wash.
Journal ArticleDOI
Bioorganometallic Chemistry of Ferrocene
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Electrochemical interrogation of conformational changes as a reagentless method for the sequence-specific detection of DNA.
TL;DR: An electrochemical DNA (E-DNA) sensor built on this strategy can detect femtomoles of target DNA without employing cumbersome and expensive optics, light sources, or photodetectors and offers the promise of convenient, reusable detection of picomolar DNA.
Journal ArticleDOI
Target-responsive structural switching for nucleic acid-based sensors
Di Li,Shiping Song,Chunhai Fan +2 more
TL;DR: A series of electrochemical and optical nucleic acid sensors that use target-responsive DNA structures that monitor target-induced structural switching of DNA or aptamer-specific small molecule probes by measuring electrochemical currents that are directly associated with the distance between the redox label and the electrode surface.
References
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Journal ArticleDOI
Two-color labeling of oligonucleotide arrays via size-selective scattering of nanoparticle probes.
Journal ArticleDOI
Electron Transfer at Electrodes through Conjugated “Molecular Wire” Bridges
Stephen E. Creager,Changjun Yu,Cindy Bamdad,Steve O'Connor,Tanya MacLean,Eric Lam,Yoochul Chong,Gary T. Olsen,Jiye Luo,Michael Gozin,Jon F. Kayyem +10 more
TL;DR: In this paper, the electron transfer rates and electronic coupling factors for ferrocene groups attached to gold electrodes via oligo(phenylethynyl) "molecular wire" bridges of variable length and structure are reported.
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Ferrocene-Oligonucleotide Conjugates for Electrochemical Probing of DNA
TL;DR: Results lead to the conclusion that the redox-active probes are very useful for the microanalysis of nucleic acids due to the stability of the complexes, high detection sensitivity and wide applicability to the target structures (DNA and RNA; single- and double strands and the sequences.
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The distribution of standard rate constants for electron transfer between thiol-modified gold electrodes and adsorbed cytochrome c
Tal M. Nahir,Edmond F. Bowden +1 more
TL;DR: In this article, the magnitude of the total rate constant of an electrochemical reaction at small overpotentials was shown to depend on the exponentials of the distance between the electron donor and acceptor, the reorganization energy, and the formal potential of the reaction.
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Electrochemically active DNA probes: detection of target DNA sequences at femtomole level by high-performance liquid chromatography with electrochemical detection.
TL;DR: Electrochemically active DNA probes prepared by linking a ferrocene unit with 5'-aminohexyl-terminated oligonucleotides were useful in analyzing traces of DNA and RNA carrying the complementary sequence and were capable of detecting femtomole levels of a restriction DNA fragment having oncogene v-myc.