2003
DOI: 10.3390/s30600128
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DNA Electrochemical Behaviors, Recognition and Sensing by Combining with PCR Technique

Abstract: Abstract:The electrochemical studies on the behaviors and recognition of DNA have attracted considerable attention. DNA biosensors based on nucleic acid hybridization process are rapidly being developed towards the goal of rapid and inexpensive diagnosis of genetic and infectious diseases. This brief review focuses on the current state of the DNA electrochemical sensors with emphasis on recent advances, challenges and trends. The works on DNA electrochemical behaviors, recognition and detection in our group in… Show more

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Cited by 17 publications
(4 citation statements)
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“…The potential in which this peak appears is 0.35 V versus Ag/AgCl RE. These results confirm the combination of DNA electrochemical biosensors with PCR techniques provide a platform for the development of electrochemical sequence detection of low content of DNA (Marrazza et al, 2000;Ye and Ju, 2003).…”
Section: Measurement System Characterizationsupporting
confidence: 73%
“…The potential in which this peak appears is 0.35 V versus Ag/AgCl RE. These results confirm the combination of DNA electrochemical biosensors with PCR techniques provide a platform for the development of electrochemical sequence detection of low content of DNA (Marrazza et al, 2000;Ye and Ju, 2003).…”
Section: Measurement System Characterizationsupporting
confidence: 73%
“…We also note that control experiments performed by addition of FTMA to solutions of DNA pre-exposed to oxidizing potentials of 400 mV for 1−1.5 h were indistinguishable from experiments performed using DNA not exposed to oxidizing potentials (see Supporting Information). These results and others suggest that the oxidizing potential used in the in situ transformation of the FTMA in preformed complexes does not damage the DNA (see below for additional comment).
6 Autocorrelation functions of 5 μM DNA and 30 μM FTMA (in 1 mM Li 2 SO 4 ) at a scattering angle of 90° and temperature of 25 °C.
…”
Section: Resultssupporting
confidence: 60%
“…This could be important in electrochemical sensor and biosensor applications as well as the catalysis of biochemical reactions. For example, under certain conditions, covalent bonding can occur between the carboxyl group and deoxyguanosine (dG) residue of DNA [44] . Thus, DNA could be immobilized on a graphite surface with the assistance of EAK16-II assembled nanostructures.…”
Section: Resultsmentioning
confidence: 99%