196952-70-2Relevant articles and documents
Allenone-Mediated Racemization/Epimerization-Free Peptide Bond Formation and Its Application in Peptide Synthesis
Wang, Penghui,Wang, Xuewei,Wang, Zhengning,Zhao, Junfeng
supporting information, p. 10374 - 10381 (2021/07/26)
Allenone has been identified as a highly effective peptide coupling reagent for the first time. The peptide bond was formed with an α-carbonyl vinyl ester as the key intermediate, the formation and subsequent aminolysis of which proceed spontaneously in a racemization-/epimerization-free manner. The allenone coupling reagent not only is effective for the synthesis of simple amides and dipeptides but is also amenable to peptide fragment condensation and solid-phase peptide synthesis (SPPS). The robustness of the allenone-mediated peptide bond formation was showcased incisively by the synthesis of carfilzomib, which involved a rare racemization-/epimerization-free N to C peptide elongation strategy. Furthermore, the successful synthesis of the model difficult peptide ACP (65-74) on a solid support suggested that this method was compatible with SPPS. This method combines the advantages of conventional active esters and coupling reagents, while overcoming the disadvantages of both strategies. Thus, this allenone-mediated peptide bond formation strategy represents a disruptive innovation in peptide synthesis.
Base-promoted direct synthesis of functionalized: N -arylindoles via the cascade reactions of allenic ketones with indoles
Li, Shengxiao,Wu, Xin-Xing,Chen, Shufeng
supporting information, p. 789 - 793 (2019/01/30)
A convenient Cs2CO3-promoted cascade benzannulation reaction of allenic ketones with indoles was achieved for the synthesis of functionalized N-arylindole derivatives under transition-metal-free conditions. A series of readily available starting materials can undergo the process successfully. It represents a practical method for the construction of N-arylindole scaffolds with high atom economy.
Diverging Pathways in the Activation of Allenes with Lewis Acids and Bases: Addition, 1,2-Carboboration, and Cyclization
Melen, Rebecca L.,Wilkins, Lewis C.,Kariuki, Benson M.,Wadepohl, Hubert,Gade, Lutz H.,Hashmi, A. Stephen K.,Stephan, Douglas W.,Hansmann, Max M.
supporting information, p. 4127 - 4137 (2015/09/01)
The reactions of allenes with frustrated (or cooperative) Lewis acid/base pairs result in the 1,4-addition of the base pair to the allene. The reactions of allenyl ketones and esters just in the presence of the strong Lewis acid B(C6F5/su