| Scanning Electrochemical Microscopy (SECM), employing electrocatalytic reduction of ferricyanide mediated by the redox intercalators, Methylene Blue or Nile Blue, affixed at specific locations within DNA films self-assembled on gold electrodes, is used for detection of abasic sites within ds-DNA and for sequence-specific detection of TATA-binding protein.;The inherent differences in catalytic tip currents involving ferricyanide and Methylene Blue are used to distinguish monolayer domains containing native ds-DNA versus ds-DNA containing abasic sites within the micron-level lateral spatial resolution of SECM.;The catalytic cycle involving ferricyanide and Nile Blue covalently affixed at discrete sites within DNA films allows sequence-specific and localized detection of TATA-binding protein, a eukaryotic transcription factor which severely distorts DNA upon binding. These experimental results underline the utility of DNA-modified electrodes as convenient platforms for SECM detection schemes that take advantage of efficient, intercalator-mediated, charge transfer through DNA. |
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