1259080-38-0Relevant academic research and scientific papers
Crystallization-Based Synthetic Route to Antimalarial Agent BRD5018: Diazocene Ring Formation via a Staudinger-aza-Wittig Reaction on an Azetidine-Ribose Template
Balla, Venkata Sasidhar,Bathula, Srikanth,Fang, Francis G.,Girish, Dixit,Gotoda, Masaharu,Gusovsky, Fabian,Kalla, Vijay,Khile, Anil Shahaji,Melillo, Bruno,Mitasev, Branko,Rayaprolu, Pavan Kumar,Schreiber, Stuart L.,Sugandham, Srinivasa Rao,Talabhakthula, Ravi Kumar,Terli, Chiranjeevi,Vaddi, Anand,Vikram, Venugopalarao,Yang, Jiong
, (2021/10/01)
The development of an entirely crystallization-based synthetic route to the antimalarial BRD5018 is described, which assembles a structurally complex bicyclic azetidine scaffold adorned with five stereogenic centers without the need for any chromatographic separations. A diastereoselective glycine ester Claisen rearrangement, diastereomeric salt resolution, and diastereoselective iodo-lactonization are utilized to provide an efficient access to three contiguous stereogenic centers on an acyclic template with the desired relative and absolute configurations. A tandem aziridine ring-opening/azetidine ring-closure on the derived 2-amino-1,4-diol template was developed to efficiently establish the all-cis trisubstituted azetidine scaffold with the proper ancillary functionality for end-game maneuvers. d-Ribose-2,3-acetonide provided a conveniently differentiated vicinal syn-diol suitable for the planned reductive amination/periodate cleavage/Staudinger-aza-Wittig sequence to form the eight-membered diazocene ring. An early quantitative installation of the diaryl acetylene moiety via a Sonogashira coupling on an electronically matched methyl 4-bromocinnamate circumvented a low-yielding, late-stage reaction in the first-generation synthesis. Multiple crystalline intermediates enabled the complete removal of chromatography from the synthesis resulting in a substantially reduced cost and waste generation with enhanced throughput and quality control.
METHOD FOR SYNTHESIS OF DIAZABICYCLO[6.2.0]DECANE RELATED COMPOUNDS
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, (2020/07/25)
A method for the synthesis of diazabicyclo[6.2.0]decane compounds is provided. The synthesis proceeds by stereoselective synthesis of a chiral lactone followed by azetidine formation via a series of chemoselective reactions. Bicyclization results with the
Dramatic lithium chloride effect on the reaction stereocontrol in Zn-mediated asymmetric cinnamylation: Highly practical synthesis of β-aryl homoallylic amines
Liu, Min,Shen, An,Sun, Xing-Wen,Deng, Fei,Xu, Ming-Hua,Lin, Guo-Qiang
supporting information; experimental part, p. 8460 - 8462 (2010/12/25)
An extremely mild and practical approach for the preparation of enantiomerically enriched β-aryl substituted homoallylic amines bearing two adjacent stereogenic centers was realized by room temperature zinc-mediated highly stereoselective cinnamylation of
