Deoxyuridine triphosphates modified with tyrosine aromatic groups for direct electrochemical detection of double-stranded DNA products of isothermal recombinase polymerase amplification

“…The growing demand for rapid, precise, and cost-effective targeted DNA sequence analysis has resulted in the development of a plethora of platforms for the detection of nucleic acids. , Electrochemical detection is a particularly attractive alternative to optical-based detection methods, due to its high sensitivity, comparatively simple instrumentation, and relatively low cost. , As the reduction and oxidation reactions of nucleobases or their residues require either high negative or high positive potentials, a wide range of diverse labels have been employed for the electrochemical detection of nucleic acids . Several redox labels, including reducible nitroaryl, azidoaryl, or benzofurazane, as well as oxidizable ferrocene derivatives, , methylene blue, − Nile blue, , or tyrosine, , tethered to the nucleobase part of nucleotides have been studied, and some of them have been successfully exploited as labels enzymatically incorporated into DNA for applications in electrochemical (EC) detection and sensing. This gave a rise to an idea of using electrochemical redox labels for multipotential coding of all four nucleobases as an alternative to multicolor-based fluorescence methods, , where an immobilized DNA primer hybridizes to the sequence under interrogation, and the primer is then extended via enzyme-mediated primer extension.…”

Normalized Multipotential Redox Coding of DNA Bases for Determination of Total Nucleotide Composition

“…The growing demand for rapid, precise, and cost-effective targeted DNA sequence analysis has resulted in the development of a plethora of platforms for the detection of nucleic acids. , Electrochemical detection is a particularly attractive alternative to optical-based detection methods, due to its high sensitivity, comparatively simple instrumentation, and relatively low cost. , As the reduction and oxidation reactions of nucleobases or their residues require either high negative or high positive potentials, a wide range of diverse labels have been employed for the electrochemical detection of nucleic acids . Several redox labels, including reducible nitroaryl, azidoaryl, or benzofurazane, as well as oxidizable ferrocene derivatives, , methylene blue, − Nile blue, , or tyrosine, , tethered to the nucleobase part of nucleotides have been studied, and some of them have been successfully exploited as labels enzymatically incorporated into DNA for applications in electrochemical (EC) detection and sensing. This gave a rise to an idea of using electrochemical redox labels for multipotential coding of all four nucleobases as an alternative to multicolor-based fluorescence methods, , where an immobilized DNA primer hybridizes to the sequence under interrogation, and the primer is then extended via enzyme-mediated primer extension.…”

Normalized Multipotential Redox Coding of DNA Bases for Determination of Total Nucleotide Composition

Solid-phase recombinase polymerase amplification using ferrocene-labelled dNTPs for electrochemical detection of single nucleotide polymorphisms

Polymerase incorporation of Cy5 modified 2′-deoxyuridine-5′-triphosphate into double- and single-stranded DNA for direct electrochemical detection