1407487-30-2Relevant academic research and scientific papers
Synthesis of Colchicinoids and Allocolchicinoids through Rh(I)-Catalyzed [2+2+2+1] and [2+2+2] Cycloadditions of o-Phenylenetriynes with and without CO
Chien, Chih-Wei,Teng, Yu-Han Gary,Honda, Tadashi,Ojima, Iwao
, p. 11623 - 11644 (2018)
The nonbenzenoid aromatics, tropones and tropolones, are found in various natural products such as colchicine and hinokitol, which possess significant biological activities. The traditional methods to construct the tropone skeletons include oxidation of cycloheptatriene and [4+3] cycloadditions. In addition, the total synthesis of colchicine and its analogues requires laborious organic transformations in the formations of 6-7-7 fused-ring systems. Transition metal-catalyzed carbocyclization and cycloaddition reactions have proven to be among the most efficient methods for constructing complex polycyclic systems. On the basis of our recent discovery of the Rh-catalyzed carbonylative [2+2+2+1] cycloaddition of triynes to the formation of a fused tropone system, we report here the application of this methodology to the one-step formation of the 6-7-7-5 fused tetracyclic scaffold of colchicinoids based on the [2+2+2+1] cycloaddition of o-phenylenetriynes with CO. In addition, the one-step formation of allocolchicinoids bearing the 6-7-6-5 fused tetracyclic system through the Rh-catalyzed [2+2+2] cycloaddition of o-phenylenetriynes is also described.
Synthesis of a novel chemotype via sequential metal-catalyzed cycloisomerizations
Leng, Bo,Chichetti, Stephanie,Su, Shun,Beeler, Aaron B.,Porco Jr., John A.
supporting information, p. 1338 - 1343,6 (2020/08/31)
Sequential cycloisomerizations of diynyl o-benzaldehyde substrates to access novel polycyclic cyclopropanes are reported. The reaction sequence involves initial Cu(I)-mediated cycloisomerization/nucleophilic addition to an isochromene followed by diastereoselective Pt(II)-catalyzed enyne cycloisomerization.
