Lewis acid-mediated chelation and non-chelation control is one of the most fundamental and practical concepts in modern organic chemistry. Extension of these concepts to the reduction of different N-protected α -substituted β -amino ke-tones indicated that diastereoselectivity in the hydride addition step is strongly dependent on the nature of the metal atom and on the type of protecting group. Strongly chelating TiCl4 and an electron-rich nitrogen protecting group pro-Introduction moted the syn diastereoselectivity in noncoordinating solv-ents (CH2 Cl2 )at - 78 °C with BH3 ·py as reducing agent. On the other hand, a Lewis acid as such as CeCl3 and a bulky N-protecting group gave an excess of the anti-diastereomer in coordinating solvents (THF) at the same temperature with lithium borohydride (LiBH4 ) as reducing agent.
G. Bartoli, M. Bartolacci, M. Cortese, E. Marcantoni, M. Massaccesi, R. Pela, et al. (2004). Lewis Acid-Mediated Diastereoselective Reduction of N-Protected β -AminoKetones: Influence of the Nature of the Metal Atom and of the Nitrogen Protecting Group. EUROPEAN JOURNAL OF ORGANIC CHEMISTRY, 0, 2359-2366 [10.1002/ejoc.200400016].
Lewis Acid-Mediated Diastereoselective Reduction of N-Protected β -AminoKetones: Influence of the Nature of the Metal Atom and of the Nitrogen Protecting Group
BARTOLI, GIUSEPPE;MASSACCESI, MASSIMO;SAMBRI, LETIZIA
2004
Abstract
Lewis acid-mediated chelation and non-chelation control is one of the most fundamental and practical concepts in modern organic chemistry. Extension of these concepts to the reduction of different N-protected α -substituted β -amino ke-tones indicated that diastereoselectivity in the hydride addition step is strongly dependent on the nature of the metal atom and on the type of protecting group. Strongly chelating TiCl4 and an electron-rich nitrogen protecting group pro-Introduction moted the syn diastereoselectivity in noncoordinating solv-ents (CH2 Cl2 )at - 78 °C with BH3 ·py as reducing agent. On the other hand, a Lewis acid as such as CeCl3 and a bulky N-protecting group gave an excess of the anti-diastereomer in coordinating solvents (THF) at the same temperature with lithium borohydride (LiBH4 ) as reducing agent.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
