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C-H activations of deazapurine heterocycles
Klečka, Martin ; Hocek, Michal (advisor) ; Hlaváč, Jan (referee) ; Rádl, Stanislav (referee)
Direct C-H borylations of 7-deazapurines (7H-pyrrolo[2,3-d]pyrimidine) were developed at position 8 using B2pin2 and Ir catalysis. The obtained boronates were efficiently applied in the Suzuki cross-couplings with aryl halides and other functional group transformations to give diverse 6-substituted 8-aryl-7-deazapurine derivatives. Furthermore, I was also interested in the synthesis of biologically relevant 8-aryl-7- deazaadenines and -7-deazahypoxanthines. As the direct C-H borylation of 7- deazaadenines was unsuccessful and the borylation/Suzuki reaction of 6-chloro-7- deazapurine gave only low yield (20%) of the desired 8-aryl derivative, I focused on the one-pot borylation/arylation of SEM-protected 6-methylsulfanyl- or 6-methoxy-7- deazapurines. The one-pot borylation/Suzuki coupling reactions were followed either by demethylation and deprotection to yield deazahypoxanthine base, or by oxidation of sulfide to sulfone, amination and deprotection to give deazaadenines. In addition, the boronate intermediates were successfully converted to 8-halo- or 8-trifluoromethyl-7- deazapurine derivatives. While the 7-deazahypoxantine analogues were almost entirely inactive, most of the 8-subtituted 6-methoxy-7-deazapurine and 7-deazaadenines bases showed significant cytostatic activities. Also a general...
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C-H activations of deazapurine heterocycles
Klečka, Martin ; Hocek, Michal (advisor) ; Hlaváč, Jan (referee) ; Rádl, Stanislav (referee)
Direct C-H borylations of 7-deazapurines (7H-pyrrolo[2,3-d]pyrimidine) were developed at position 8 using B2pin2 and Ir catalysis. The obtained boronates were efficiently applied in the Suzuki cross-couplings with aryl halides and other functional group transformations to give diverse 6-substituted 8-aryl-7-deazapurine derivatives. Furthermore, I was also interested in the synthesis of biologically relevant 8-aryl-7- deazaadenines and -7-deazahypoxanthines. As the direct C-H borylation of 7- deazaadenines was unsuccessful and the borylation/Suzuki reaction of 6-chloro-7- deazapurine gave only low yield (20%) of the desired 8-aryl derivative, I focused on the one-pot borylation/arylation of SEM-protected 6-methylsulfanyl- or 6-methoxy-7- deazapurines. The one-pot borylation/Suzuki coupling reactions were followed either by demethylation and deprotection to yield deazahypoxanthine base, or by oxidation of sulfide to sulfone, amination and deprotection to give deazaadenines. In addition, the boronate intermediates were successfully converted to 8-halo- or 8-trifluoromethyl-7- deazapurine derivatives. While the 7-deazahypoxantine analogues were almost entirely inactive, most of the 8-subtituted 6-methoxy-7-deazapurine and 7-deazaadenines bases showed significant cytostatic activities. Also a general...
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