14759-45-6Relevant articles and documents
Direct 3-Acylation of Indolizines by Carboxylic Acids for the Practical Synthesis of Red Light-Releasable Caged Carboxylic Acids
Watanabe, Kenji,Terao, Nodoka,Niwa, Takashi,Hosoya, Takamitsu
, p. 11822 - 11834 (2021/07/31)
To enhance the practicality of photouncaging system using 3-acyl-2-methoxyindolizines, direct acylation of indolizines with carboxylic acids was developed using condensation reagents, generally used for peptide coupling. This method allowed for caging a broad range of carboxylic acids with indolizines. The method enabled a facile synthesis of water-soluble caged bioactive carboxylic acids having an intramolecular photosensitizer. The efficient release of carboxylic acids from the synthesized caged compounds upon red light irradiation was confirmed in neutral buffered solutions.
New route synthesis of indolizines via 1,3-dipolar cycloaddition of pyridiniums and alkynes
Shang, Yongjia,Zhang, Min,Yu, Shuyan,Ju, Kai,Wang, Cuie,He, Xinwei
experimental part, p. 6981 - 6984 (2010/02/27)
A convenient synthesis of 2,3-di and 1,2,3-trisubstituted indolizines has been achieved via a 1,3-dipolar cycloaddition of pyridiniums and alkynes. Various alkynes and diynes were used instead of dimethyl acetylenedicarboxylate (DMAD) and its analogues in
Indolizines 4. The synthesis of new 3-vinylindolizines.
Bue, G. De,Nasielski, J.
, p. 97 - 108 (2007/10/03)
New 3-vinylindolizines have been synthesized by two methods.The first strategy calls for the Wittig olefination of 3-acylindolizines with methylenetriphenylphosphorane or methoxymethylenetriphenylphosphorane.The best yields are obtained when the ylid is formed at room temperature and the condensation in refluxing THF.The required 3-acylindolizines were obtained by direct acylation of indolizines or by 1,3-dipolar cyclo-additions to acylmethylpyridinium ylids.The following 3-isopropenylindolizines were made with good yields: unsubstituted (18, 85percent), 2-methyl (10, 98percent), 2-C6H5 (17, 95percent), 1-COOMe (20, 98percent), 1-COOMe-2-C6H5 (22, 91 percent), 1,2-di-COOMe (24, 58percent).Also synthesized are the following 3-α-styrylindolizines: 2-C6H5 (19, 99percent), 1-COOMe (21, 93percent), 1-COOMe-2-C6H5 (23, 87percent), 1,2-diCOOMe (25, 66percent). 3-(α-Methyl-β-methoxyvinyl)indolizines E (26, 40percent) and Z (27, 40percent) were also obtained.The second strategy involves the 1,3-dipolar cyclo-addition of dipolarophiles to allylpyridinium ylids.The following new 3-vinylindolizines have been synthesized: 1-carbomethoxy-3-vinylindolizine (30, 21percent), 1,2-dicarbomethoxy-3-vinylindolizine (31, 16percent), 1-carbomethoxy-3-β-styrylindolizine (33, 43percent), 3-β-styrylindolizine (34, 17percent), 1-carbomethoxy-3-(β-carbomethoxy)vinylindolizine 38 (31percent).
