Nathan S. Josephsohn scite author profile

An efficient Ag-catalyzed method for asymmetric addition of the Danishefsky diene to various aryl imines to afford cycloadducts in > or =89% ee and > or =85% isolated yield is reported. Reactions are effected with 0.1-1 mol % catalyst (4 degrees C), and the chiral ligand is readily prepared from commercially available materials, including the inexpensive i-Leu. These catalytic asymmetric cycloadditions can be carried out without the use of solvent or with undistilled THF in air. A first generation supported chiral catalyst that effectively promotes the cycloaddition reaction and can be recycled (five cycles) is described.

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Ag-Catalyzed Asymmetric Mannich Reactions of Enol Ethers with Aryl, Alkyl, Alkenyl, and Alkynyl Imines

Josephsohn

2004

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An efficient catalytic and enantioselective method (up to >98% ee) for Mannich reactions between trimethylsilyl enol ethers derived from acetone and acetophenone and aryl, alkenyl, alkynyl, and alkyl imines is disclosed. A large variety of beta-amino ketones can be synthesized in the presence of 1-5 mol % AgOAc and an inexpensive and readily available amino acid-derived phosphine. All Ag-catalyzed asymmetric Mannich reactions can be run in undistilled THF and air. The o-anisyl activating groups of product amines can be removed in >70% isolated yield through a single vessel operation. The synthetic utility of the catalytic asymmetric method is illustrated by a four-pot synthesis of optically pure alkaloid (-)-sedamine.

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Mechanism of Enantioselective Ti-Catalyzed Strecker Reaction: Peptide-Based Metal Complexes as Bifunctional Catalysts

et al. 2001

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Kinetic, structural, and stereochemical data regarding the mechanism of Ti-catalyzed addition of cyanide to imines in the presence of Schiff base peptide ligands are disclosed. The reaction is first order in the Ti-ligand complex; kinetic studies reveal DeltaS(dagger) = -45.6 +/- 4.1 cal K(-1) mol(-1), indicating a highly organized transition structure for the turnover-limiting step of the catalytic cycle. A mechanistic model consistent with the kinetic and stereochemical data is presented, where the Ti center is coordinated to the Schiff base unit of the ligand and the AA2 moiety of the peptidic segment of the chiral ligand associates and delivers HNC to the activated bound substrate. Thus, these studies illustrate that these non-C2-symmetric catalysts likely operate in a bifunctional fashion.

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Practical and Highly Enantioselective Synthesis of β-Alkynyl-β-amino Esters through Ag-Catalyzed Asymmetric Mannich Reactions of Silylketene Acetals and Alkynyl Imines

et al. 2005

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[reaction: see text] A readily available iso-leucine-based phosphine ligand is used to promote Ag-catalyzed Mannich reactions between silylketene acetals and various alkynyl imines. Reactions can be effected in the presence of 5 mol % catalyst, without the need for rigorous exclusion of air, and with commercially available solvents (without purification) to afford the desired beta-alkynyl-beta-amino esters in 84-94% ee and 61-91% isolated yield.

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Practical and Highly Enantioselective Synthesis of β‐Alkynyl‐β‐amino Esters Through Ag‐Catalyzed Asymmetric Mannich Reactions of Silylketene Acetals and Alkynyl Imines.

et al. 2005

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Practical and Highly Enantioselective Synthesis of β-Alkynyl-β-amino Esters Through Ag-Catalyzed Asymmetric Mannich Reactions of Silylketene Acetals and Alkynyl Imines. -A highly efficient Ag-catalyzed enantioselective method for the addition of silylketene acetals to a variety of alkynyl imines is developed. The enantioselective processes can be carried out in air without the need for purified solvent. The catalytic asymmetric protocol delivers the desired β-alkynyl-β-amino esters in up to 94% e.e. Optically enriched products are readily converted to a number of synthetically useful derivatives. Ag-catalyzed reactions involving silylketene acetals of alkyl esters proceed with lower enantioselectivity. -(JOSEPHSOHN, N. S.; CARSWELL, E. L.; SNAPPER, M. L.; HOVEYDA*, A. H.; Org. Lett. 7 (2005) 13, 2711-2713;

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