203854-56-2Relevant articles and documents
Catalytic Asymmetric Synthesis of Unprotected β2-Amino Acids
Zhu, Chendan,Mandrelli, Francesca,Zhou, Hui,Maji, Rajat,List, Benjamin
, p. 3312 - 3317 (2021/04/07)
We report here a scalable, catalytic one-pot approach to enantiopure and unmodified β2-amino acids. A newly developed confined imidodiphosphorimidate (IDPi) catalyzes a broadly applicable reaction of diverse bis-silyl ketene acetals with a silylated aminomethyl ether, followed by hydrolytic workup, to give free β2-amino acids in high yields, purity, and enantioselectivity. Importantly, both aromatic and aliphatic β2-amino acids can be obtained using this method. Mechanistic studies are consistent with the aminomethylation to proceed via silylium-based asymmetric counteranion-directed catalysis (Si-ACDC) and a transition state to explain the enantioselectivity is suggested on the basis of density functional theory calculation.
Efficient synthesis of enantiomerically pure β2-amino acids via chiral isoxazolidinones
Lee, Hee-Seung,Park, Jin-Seong,Kim, Byeong Moon,Gellman, Samuel H.
, p. 1575 - 1578 (2007/10/03)
We report a practical and scalable synthetic route for the preparation of α-substituted β-amino acids (β2-amino acids). Michael addition of a chiral hydroxylamine, derived from α-methylbenzylamine, to an α-alkylacrylate followed by cyclization gives a diastereomeric mixture of α-substituted isoxazolidinones. These diastereomers are separable by column chromatography. Subsequent hydrogenation of the purified isoxazolidinones followed by Fmoc protection affords enantiomerically pure Fmoc-β2-amino acids, which are useful for β-peptide synthesis. This route provides access to both enantiomers of a protected β2-amino acid.