26211-90-5Relevant articles and documents
Palladium-catalyzed cyclization reaction of N-(2-Haloaryl)alkynylimines: Synthesis of 3-acylindoles using water as the sole solvent and oxygen source
Zhang, An-An,Meng, Tuanjie,Wang, Wenli,Liu, Xueli,Zhu, Yupei,Liu, Lantao
, (2020/02/04)
A simple and efficient strategy for the preparation of 3-acylindoles via palladium-catalyzed cyclization reaction of N-(2-haloaryl)alkynylimines in water has been developed. The reaction tolerates a wide range of functional groups, and the corresponding 3-acylindoles were obtained in high yields using water as the sole solvent and oxygen sources. Additionally, this method could provide a short synthesis route for Pravadoline, a phase II analgesic drug.
Cyclooctatetraene: A Bioactive Cubane Paradigm Complement
Xing, Hui,Houston, Sevan D.,Chen, Xuejie,Ghassabian, Sussan,Fahrenhorst-Jones, Tyler,Kuo, Andy,Murray, Cody-Ellen P.,Conn, Kyna-Anne,Jaeschke, Kara N.,Jin, Da-Yun,Pasay, Cielo,Bernhardt, Paul V.,Burns, Jed M.,Tsanaktsidis, John,Savage, G. Paul,Boyle, Glen M.,De Voss, James J.,McCarthy, James,Walter, Gimme H.,Burne, Thomas H. J.,Smith, Maree T.,Tie, Jian-Ke,Williams, Craig M.
, p. 2729 - 2734 (2019/02/03)
Cubane was recently validated as a phenyl ring (bio)isostere, but highly strained caged carbocyclic systems lack π character, which is often critical for mediating key biological interactions. This electronic property restriction associated with cubane has been addressed herein with cyclooctatetraene (COT), using known pharmaceutical and agrochemical compounds as templates. COT either outperformed or matched cubane in multiple cases suggesting that versatile complementarity exists between the two systems for enhanced bioactive molecule discovery.
Collective Synthesis of 3-Acylindoles, Indole-3-carboxylic Esters, Indole-3-sulfinic Acids, and 3-(Methylsulfonyl)indoles from Free (N-H) Indoles via Common N-Indolyl Triethylborate
Zhang, Zhi-Wei,Xue, Hong,Li, Hailing,Kang, Huaiping,Feng, Juan,Lin, Aijun,Liu, Shouxin
supporting information, p. 3918 - 3921 (2016/08/16)
A general and direct C3 functionalization of free (N-H) indoles with readily available electrophiles such as acid chlorides, chloroformates, thionyl chloride, and methylsulfonyl chloride via a common N-indolyl triethylborate intermediate is reported. The reaction proceeds smoothly under mild conditions in up to 93% yield. Indoles with substituents at the C2, C4, C5, C6, and C7 positions are well tolerated. The easy accessibility of a variety of important 3-acylindoles, indole-3-carboxylic esters, indole-3-sulfinic acids, and 3-(methylsulfonyl)indoles demonstrates the high degree of compatibility and practicability of this method.