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Study of cyclization of tetrazolopyrimidines for synthesis of tricyclic nucleobases
Grúlová, Kristýna ; Hocek, Michal (advisor) ; Smrček, Stanislav (referee)
This bachelor thesis describes a study of cyclization reaction of substituted tetrazolopyrimidines, which were obtained by a three-step synthesis starting from 4,6-dichloropyrimidine, which was first zincated and then submitted to Negishi coupling with corresponding heteroaryl iodide followed by nucleophilic substitution with sodium azide. The previously known unexpected fluorescent product produced by the cyclization of the 2-thiophenyl derivative was resynthesized. An analogous product was obtained by cyclization of the 3-thiophenyl derivative. In contrast, the cyclization of the phenyl, 1-naphthyl and 2-furyl derivatives gave the expected tricyclic product resulting from the cyclization of the azide. Key words: heterocycles, cyclizations, nucleobases
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New C-H activations and cross-coupling reactions for modification of deazapurine nucleobases
Sabat, Nazarii ; Hocek, Michal (advisor) ; Tobrman, Tomáš (referee) ; Hlaváč, Jan (referee)
This PhD thesis reports the development of novel C-H activation strategies and aqueous-phase Suzuki-Miyaura cross-coupling reactions for the synthesis of modified deazapurine nucleobases. The methodologies of chemo- and regioselective synthesis of highly functionalized deazapurines have been developed by using modern C-H activation chemistry. Various functional groups such as amino-, imido-, silyl- and phosphonyl- were introduced by C-H activation reactions. Amino deazapurine derivatives were synthesized by developed Pd/Cu-catalyzed direct C-H amination and C-H chloroamination of 6-substituted 7-deazapurines with N-chloro-N- alkyl-arylsulfonamides. C-H imidation reactions of pyrrolopirimidines were performed under ferrocene catalysis with N-succinimido- or N-phtalimidoperesters. In order to obtain silylated derivatives, Ir-catalyzed C-H silylations of phenyldeazapurines with alkyl silanes were designed. Highly interesting deazapurine phosphonates were prepared by using Mn-promoted C-H phosphonation method and were further transformed into the corresponding phosphonic acids. All of the developed direct C-H functionalization reactions proceeded regioselectively at position 8 in deazapurine core, except for C-H silylation where reaction undergoes mainly as directed ortho C-H silylation on phenyl ring,...
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