Abstract
1. Polarography of DNA. Retrospective. 2. Electrochemical properties of nucleic acid components. 3. Electrochemistry of nucleic acids. 4. Electrochemical DNA biosensors. 5. Amplified electrochemical and photoelectrochemical analysis of DNA. 6. Fully electrical microarrays. 7. Carbon electrodes in DNA hybridization research. 8. Conducting polymers for DNA sensors and DNA chips from fabrication to molecular detection. 9. Control of chloride ion exchange by DNA hybridization at polypyrrole electrode. 10. Threading intercalators as redox indicators. 11. Nanoparticle-based Electrochemical DNA Detection. 12. Detecting DNA damage with electrodes. 13. Sensors for genotoxicity and oxidized DNA. 14. Electrochemical immunoassays on the route to proteomic chips. 15. Self-Assembly of Biomolecules on Electrode Surfaces Oligonucleotides, Amino Acids, and Proteins towards the Single-Molecule Level. 16. Direct electrochemistry of proteins and enzymes. 17. Amperometric enzyme sensors based on direct and mediated electron transfer. 18. Catalytic hydrogen evolution on mercury electrodes from solutions of peptides and proteins. 19. Electroactivity of proteins and its possibilities in biomedicine and proteomics. Appendix: Methods in proteomics. 20. Polarography of proteins. A history.
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