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@inproceedings{209491, author = {Cukrowska, Ewa and Trnková, Libuše and Kizek, René and Havel, Josef}, address = {Pardubice}, booktitle = {Modern Electroanalytical Methods}, edition = {I.}, keywords = {adenine;cytosine;reduction process of Ade and Cyt;Artificial Neural Network; Experimental Design}, language = {eng}, location = {Pardubice}, isbn = {80-7194-212-X}, pages = {16-16}, publisher = {Univerzita Pardubice}, title = {Artificial Neural Network for Quantitative Analysis of Adenine-Cytosine Mixtures by Linear Scan Voltammetry and Differential Pulse Polarography}, year = {1999} }
TY - JOUR ID - 209491 AU - Cukrowska, Ewa - Trnková, Libuše - Kizek, René - Havel, Josef PY - 1999 TI - Artificial Neural Network for Quantitative Analysis of Adenine-Cytosine Mixtures by Linear Scan Voltammetry and Differential Pulse Polarography VL - Modern Electroanalytical Methods PB - Univerzita Pardubice CY - Pardubice SN - 807194212X KW - adenine;cytosine;reduction process of Ade and Cyt;Artificial Neural Network KW - Experimental Design N2 - A new method for the simultaneous determination of adenine and cytosine is described. Multivariate calibration based on a suitable experimental design (ED) and soft modeling with artificial neural networks (ANN) is used for quantitative analysis of highly overlapped linear scan voltammetric (LSV) and differential pulse polarographic (DPP) peaks of two nucleic acid bases, adenine and cytosine, which occur in the region of hydrogen evolution. The method is quite general and it can be used for analysis of biologically important substances without their separation. ER -
CUKROWSKA, Ewa, Libuše TRNKOVÁ, René KIZEK and Josef HAVEL. Artificial Neural Network for Quantitative Analysis of Adenine-Cytosine Mixtures by Linear Scan Voltammetry and Differential Pulse Polarography. In \textit{Modern Electroanalytical Methods}. I. Pardubice: Univerzita Pardubice, 1999, p.~16. Modern Electroanalytical Methods. ISBN~80-7194-212-X.
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