221108-44-7Relevant academic research and scientific papers
New and efficient routes for the synthesis of murrayaquinone A and murrayanine
Bhosale, Shrikar M.,Momin, Aadil A.,Kusurkar, Radhika S.
, p. 6420 - 6426 (2012/08/28)
Three new routes were established for the synthesis of biologically active murrayaquinone A and a new method was developed for synthesis of murrayanine from the same starting material as 4-hydroxy carbazole. During the synthetic course a few novel observation were recorded, which include two one pot reaction sequences and C-N bond cleavage by sodium cyanoborohydride.
Bromoquinone-enaminone annulations: Syntheses of murrayaquinone-A and (±)-bismurrayaquinone-A
Murphy, William S.,Bertrand, Martial
, p. 4115 - 4119 (2007/10/03)
A total synthesis of the carbazolequinone alkaloid, murrayaquinone-A was achieved by an initial annulation of the N-benzyl enamine 8 with 2-methyl-5-bromobenzoquinone 6. Shapiro deoxygenation-olefination followed by heating with DDQ resulted in the exclusive formation of N-benzylmurrayaquinone-A 16. Debenzylation proved very difficult but was finally achieved by heating briefly in trifluoroacetic acid with a catalytic quantity of trifluoromethanesulfonic acid. A single dimeric annulation side product was also formed in the annulation reaction. By using the same synthetic sequence as was employed in the synthesis of 1, the N,N-bis-p-methoxybenzyl dimer 13 was successfully converted to (±)-bismurrayaquinone-A 5.
