Enantioselective amination of silylketene acetals with (N-arylsulfonylimino)phenyliodinanes catalyzed by chiral dirhodium(II) carboxylates: asymmetric synthesis of phenylglycine derivatives

Abstract: Abstract-The first catalytic enantioselective amination of silylketene acetals with (N-arylsulfonylimino)phenyliodinanes is described. The reaction of silylketene acetals derived from methyl phenylacetates with [N-(2-nitrophenylsulfonyl)imino]phenyliodinane (NsN=IPh) under the catalysis of dirhodium(II) tetrakis[N-tetrachlorophthaloyl-(S)-tert-leucinate], Rh 2 (S-TCPTTL) 4 , proceeds in benzene at room temperature to give N-(2-nitrophenylsulfonyl)phenylglycine derivatives in high yields and with enantioselecti… Show more

“…Direct oxidative α‐amination of carbonyl compounds in the carboxylic acid oxidation state is one of the most straightforward methods for preparing unnatural α‐amino acid derivatives, which are promising structural motifs for the preparation of biologically active molecules. In addition to direct methods, oxidative amination of silyl ketene acetals is also a practical and reliable strategy, and several transition‐metal‐catalyzed approaches have been reported to date, in which iminoiodanes, hydroxyamines, and chloramines were used as a nitrogen source. However, a remaining issue is the need for transition‐metal catalysts and difficulties associated with the further elaboration of the amino group in the products.…”

Synthesis of Hypervalent Iodine(III) Reagents Containing a Transferable (Diarylmethylene)amino Group and Their Use in the Oxidative Amination of Silyl Ketene Acetals

“…Direct oxidative α‐amination of carbonyl compounds in the carboxylic acid oxidation state is one of the most straightforward methods for preparing unnatural α‐amino acid derivatives, which are promising structural motifs for the preparation of biologically active molecules. In addition to direct methods, oxidative amination of silyl ketene acetals is also a practical and reliable strategy, and several transition‐metal‐catalyzed approaches have been reported to date, in which iminoiodanes, hydroxyamines, and chloramines were used as a nitrogen source. However, a remaining issue is the need for transition‐metal catalysts and difficulties associated with the further elaboration of the amino group in the products.…”

Synthesis of Hypervalent Iodine(III) Reagents Containing a Transferable (Diarylmethylene)amino Group and Their Use in the Oxidative Amination of Silyl Ketene Acetals

“…123 The enantioselective amination of silyl enol ethers using a chiral rhodium(II) catalyst has 52 been developed 357 and applied in the formal total synthesis of (─)-metazocine 358 and in the synthesis of (─)-ritodrine 359 by Hashimoto and co-workers.…”

Hypervalent iodine reagents in the total synthesis of natural products

“…, [25][26][27] the chlorinated analogue of 1 a, is an exceptionally effective catalyst for enantioselective tandem carbonyl ylide formation-1,3-dipolar cycloaddition reactions of 2-diazo-3,6-diketoesters with arylacetylene, alkoxyacetylene, and styrene dipolarophiles, in which high levels of asymmetric induction (up to 99 % ee) as well as perfect exo diastereoselectivity for styrenes were achieved.…”

“…[24] Given that the com- plex 6 was a remarkably effective catalyst for intramolecular C À H insertion reactions, we were intrigued by the applicability of a polymer-supported dirhodium(II) complex to intermolecular metal-carbene transformations. We previously reported that [Rh 2 A C H T U N G T R E N N U N G (S-TCPTTL) 4 ] (1 b), [25][26][27] the chlorinated analogue of 1 a, is an exceptionally effective catalyst for enantioselective tandem carbonyl ylide formation-1,3-dipolar cycloaddition reactions of 2-diazo-3,6-diketoesters with arylacetylene, alkoxyacetylene, and styrene dipolarophiles, in which high levels of asymmetric induction (up to 99 % ee) as well as perfect exo diastereoselectivity for styrenes were achieved. [26a, 28, 29] Herein, we report the immobilization of a chiral chlorinated dirhodium(II) complex and its use for enantioselective carbonyl ylide cycloaddition reactions under continuous flow conditions.…”

Continuous Flow System with a Polymer‐Supported Dirhodium(II) Catalyst: Application to Enantioselective Carbonyl Ylide Cycloaddition Reactions