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@inproceedings{1391527, author = {Trnková, Libuše and Ravandeh, Mehdi and Hrbáč, Jan}, address = {Providence}, booktitle = {68th Annual Meeting of the International Society of Electrochemistry}, edition = {1}, keywords = {guanine; polymer pencil graphite electrode; cyclic volatmmetry; electron microscopy; Raman spectroscopy}, howpublished = {elektronická verze "online"}, language = {eng}, location = {Providence}, note = {Nepřenášet do RIV - není na WoS ani Scopus, neodpovídá definici druhů výsledků dle M17+}, title = {Polymer Pencil Graphite Electrode in the Study of Electrochemical Processes of Guanine Analogues}, year = {2017} }
TY - JOUR ID - 1391527 AU - Trnková, Libuše - Ravandeh, Mehdi - Hrbáč, Jan PY - 2017 TI - Polymer Pencil Graphite Electrode in the Study of Electrochemical Processes of Guanine Analogues CY - Providence N1 - Nepřenášet do RIV - není na WoS ani Scopus, neodpovídá definici druhů výsledků dle M17+ KW - guanine KW - polymer pencil graphite electrode KW - cyclic volatmmetry KW - electron microscopy KW - Raman spectroscopy N2 - Understanding the oxidation processes of purines and their derivatives is primary for the improvement of electrochemical methods of genetic and food materials analysis. However, it is generally known that guanine is one of the four main nucleobases found in the nucleic acids DNA and RNA, but it is less known that G, G-based purines, including the nucleoside and the nucleotide monophosphate play an important role in diet-related diuseases, helath of cardiovascular nad digestive systems and in neurodegenerative diseases. Electrochemical techniques in connection with carbon electrodes are powerful methods for analysis of G and its derivatives. Our previous research revelaed that a polymer pencil graphite electrode can serve as a sensitive and disposable sensor for purines, including G and its derivatives. In this work, the electrochemical oxidation processes of G, guanosine and guanosine monophosphate and their deoxy-derivatives were investigated. The dependence of oxidation signals on experimental conditions such as scan rate, electrode surface pretreatment, addition of Cu(II) ions, adsorption, pH and the presence of structural increments (ribofuranosyl-, deoxyribofuranosyl-, and phosphate group) alolowed us to evaluate:(i) kinetics and mechanism of G and GMP oxidation (electron and proton numbers, coefficients of electro-transfer, the role of electrode surface), (ii) the effect of adsorption and (iii) the effect of oxo, deoxy, and phosphate groups on oxidation responses. We can conclude that polymer pencil lead is a prospective electrode material with good stability and reproducibility not only for analysis of G and its analogues but also for whole purine group. ER -
TRNKOVÁ, Libuše, Mehdi RAVANDEH a Jan HRBÁČ. Polymer Pencil Graphite Electrode in the Study of Electrochemical Processes of Guanine Analogues. Online. In \textit{68th Annual Meeting of the International Society of Electrochemistry}. 1. vyd. Providence, 2017, 1 s.
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