2007
Brázdilová P., Vrábel M., Pohl R., Pivoňková H., Havran L., Hocek M., Fojta M.:
Ferrocenylethynyl Derivatives of Nucleoside Triphosphates: Synthesis, Incorporation, Electrochemistry and Bioanalytical Applications.
Chemistry - A European Journal 13: 9527-9533, 2007.
Čerňa I., Pohl R., Hocek M.:
The first direct C-H arylation of purine nucleosides.
Chemical Communications 4729-4730, 2007.
Joubert N., Pohl R., Klepetářová B., Hocek M.:
Modular and Practical Synthesis of 6-Substituted Pyridin-3-yl C-Nucleosides.
Journal of Organic Chemistry 72: 6797-6805, 2007.
Vrábel M., Pohl R., Klepetářová B., Votruba I., Hocek M.:
Synthesis of 2'-deoxyadenosine nucleosides bearing bipyridine-type ligands and their Ru-complexes in position 8 through cross-coupling reactions.
Organic and Biomolecular Chemistry 5: 2849-2857, 2007.
Hasník Z., Šilhár P., Hocek M.:
Synthesis of (purin-6-yl)acetates and 6-(2-hydroxyethyl)purines via cross-couplings of 6-chloropurines with the Reformatsky reagent.
Tetrahedron Letters 48: 5589-5592, 2007.
Čapek P., Cahová H., Pohl R., Hocek M., Gloeckner C., Marx A.:
An Efficient Method for the Construction of Functionalized DNA Bearing Amino Acid Groups through Cross-Coupling Reactions of Nucleoside Triphosphates Followed by Primer Extension or PCR.
Chemistry - A European Journal 13: 6196-6203, 2007.
Šilhár P., Hocek M.:
Palladium-Catalyzed Cross-Coupling Reactions in C6 Modifications of Purine Nucleosides
Current Protocols in Nucleic Acid Chemistry 1.16., 2007.
Vrábel M., Hocek M., Havran L., Fojta M., Votruba I., Klepetářová B., Pohl R., Rulíšek L., Zendlová L., Hobza P., Shih I., Mabery E., Mackman R.:
Purines Bearing Phenanthroline or Bipyridine Ligands and Their RuII Complexes in Position 8 as Model Compounds for Electrochemical DNA Labeling – Synthesis,
Crystal Structure, Electrochemistry, Quantum Chemical Calculations, Cytostatic and Antiviral Activity.
European Journal of Inorganic Chemistry 1752-1769, 2007.
Beckman J., Kincaid K., Hocek M., Spratt T., Engels J., Cosstick R., Kuchta R. D.:
Human DNA Polymerase α Uses a Combination of Positive and Negative Selectivity To Polymerize Purine dNTPs with High Fidelity.
Biochemistry 46: 448-460, 2007.