Asymmetric Synthesis and Properties of Sulfinimines (Thiooxime <i>S</i>-Oxides)

Davis, Franklin A.; Reddy, Rajarathnam E.; Szewczyk, Jerzy; Reddy, G. Venkat; Portonovo, Padma; Zhang, Huiming; Fanelli, Dean L.; Reddy, R. T.; Zhou, Ping; Carroll, Patrick J.

doi:10.1021/jo970077e

Cited by 206 publications

(147 citation statements)

References 50 publications

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“…30) The obtained structures were in good agreement with an X-ray structure of 1a 31) and those calculated for simpler N-sulfinyl imines. [32][33][34] Thus, in all of these N-sulfinyl imines, the azomethine substituents are trans to the N-S bond while the S-O bond and the CϭN bond are eclipsed.…”

Section: Resultssupporting

confidence: 74%

Stereoselective Radical Addition of an Acetal to Sterically Tuned Enantiomerically Pure N-Sulfinyl Imines

Akindele

Yamada

Sejima

et al. 2010

CHEMICAL & PHARMACEUTICAL BULLETIN

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NotesGiven the ubiquitous nature of the C-N stereogenic center, efficient synthetic methods continue to be developed for its installation in both simple and complex chemical structures.1-3) These methods could be broadly classified into reactions mediated by ionic or radical species. Majority of these methods are mediated by ionic species, requiring highly basic reagents which limit the substrate scope of these approaches, albeit the products are obtained in high yield and enantioselectivity. On the other hand, methods involving radical species 4,5) are relatively under explored despite the potential of this approach to deliver much more structurally varied products using milder reagents.To date, the lack of a catalytic asymmetric radical addition method to N-sulfonyl imines 6,7) has made the use of chiral Nsulfinyl imines as radical acceptors, for creating predictable stereodefined C-N stereogenic centers in sulfonamides, an appealing alternative synthetic strategy. Indeed, the pioneering works of Davis and Ellman on the synthesis and reactivity of N-sulfinyl imines have given the synthetic community a readily available and robust precursor of optically active amine compounds. [8][9][10][11][12][13][14][15][16] Due to this rarity of radical species-mediated methods as well as our ongoing interest in radical reactions, [17][18][19] we sought to improve the efficiency and substrate scope of our initial report on radical addition of ethers and acetals to enantiopure N-p-toluenesulfinyl aldimines. 20) In this previous report, an in-house dimethylzinc-air radical initiator was used to generate carbon-centered a-alkoxyalkyl radicals from ethers and acetals. Subsequent nucleophilic addition of the radicals to the enantiopure N-sulfinyl imines followed by oxidation afforded the sulfonamide adducts in enantiomerically enriched forms. It is noteworthy that boron trifluoride diethyl etherate was essential for faster reaction rate while a sterically hindered acetal was crucial to good stereocontrol (Chart 1).Subsequent investigations have led to improved levels of stereocontrol. Herein, we detail our new findings along with a computational rationale for the improved levels of stereocontrol. Results and DiscussionAs we previously reported, 20) the reaction of (S)-Nbenzylidene-4-toluenesulfinamide (1a) with acetal 2 21) proceeded smoothly in the presence of trifluoroborane diethyl etherate using dimethylzinc-air to give a crude mixture including sulfinamide products 6a with a 9 : 1 diastereomeric ratio along with a trace amount of sulfonamide product 3a (ca. 1%). Subsequent oxidation of the crude products with m-chloroperbenzoic acid (m-CPBA) provided 3a with 80% ee in 92% yield (Table 1, entry 1). The enantiomeric ratio of 3a was the same as the diastereomeric ratio of 6a in the crude mixture, showing that no racemization took place during the m-CPBA oxidation.We reasoned that by substituting a bulkier group for the ptolyl group on the sulfur stereogenic center would presumably lead to higher levels of stereocontrol. In fac...

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Section: Resultssupporting

confidence: 74%

Stereoselective Radical Addition of an Acetal to Sterically Tuned Enantiomerically Pure N-Sulfinyl Imines

Akindele

Yamada

Sejima

et al. 2010

CHEMICAL & PHARMACEUTICAL BULLETIN

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“…Sulfinates [22,23] and sulfinamides [24][25][26] play pivotal roles in modern asymmetric synthesis as key precursors of chiral molecules. As part of our program devoted to new reactions involving sulfur-based moieties, [27][28][29][30] we became interested in the synthesis of cyclic sulfinates and sulfinamides because they are versatile synthetic intermediates, [31,32] and have elicited interest in medicinal chemistry.…”

mentioning

confidence: 99%

Formation of Cyclic Sulfinates and Sulfinamides through Homolytic Substitution at the Sulfur Atom

et al. 2006

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Ring road: Cyclic sulfinates and sulfinamides can be synthesized by homolytic substitution to give alkyl and benzofused families of compounds. The presence of an additional heteroatom in the ring allows the preparation of sulfur‐based heterocycles that are useful synthetic intermediates (see scheme). The stereogenic sulfur atom transfers its chirality to prochiral radicals. TTMSS=tris(trimethylsilyl)silane, AIBN=azobisisobutyronitrile.

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“…[15] The breakthrough in the field is probably represented by the work of Davis, [16] who disclosed a very convenient onepot method for the preparation of enantiopure sulfinimines. Thus, this methodology initially formed the basis for our attempted synthesis of the desired sulfinimine of trifluoropyruvate 1, but all our efforts met with failure.…”

Section: Scheme 2 Retrosynthetic Analysismentioning

confidence: 99%

“…Key: i) (Me 3 Si) 2 NLi, THF; ii) CF 3 COCOOEt However, it proved possible to prepare the key sulfinimines (S)-1a and (S)-1b efficiently by a different pathway; namely by Staudinger (aza-Wittig) reaction, [18] which is known to be an extremely useful tool for preparing imines with a strongly electrophilic character (Scheme 4). Thus, the p-tolylsulfinamide (S)-7, easily obtained as described by Davis, [16] was treated with PPh 3 /DEAD in dry THF at room temp., [19] affording in good yield (92%) the chiral Staudinger reagent (S)-8, formerly obtained only in racemic form and with low yields from Ph 3 PϭNH, p-Tol-SOCl, and triethylamine. [20] Enantiomeric (R)-8 was obtained from (R)-7 in identical fashion.…”

Section: Scheme 2 Retrosynthetic Analysismentioning

confidence: 99%

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Synthesis of Nonracemic α-Trifluoromethyl α-Amino Acids from Sulfinimines of Trifluoropyruvate

et al. 2001

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We describe a novel and useful method for the synthesis of nonracemic α-trifluoromethyl α-amino acids (α-Tfm-AAs). Key building blocks are the sulfinimines (S)-1a and (S)-1b, prepared by Staudinger reaction from trifluoropyruvate esters and the chiral N-sulfinyl iminophosphorane (S)-8, which were treated with benzyl, allyl, and alkylmagnesium halides. The resulting diastereomeric N-sulfinyl α-Tfm α-amino esters, 12 and 13, were produced with moderate to good stereoselectivity and yields. When alkyl Grignard reagents were used, stereocontrol became progressively higher with in-

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Asymmetric Synthesis and Properties of Sulfinimines (Thiooxime S-Oxides)

Cited by 206 publications

References 50 publications

Stereoselective Radical Addition of an Acetal to Sterically Tuned Enantiomerically Pure N-Sulfinyl Imines

Stereoselective Radical Addition of an Acetal to Sterically Tuned Enantiomerically Pure N-Sulfinyl Imines

Formation of Cyclic Sulfinates and Sulfinamides through Homolytic Substitution at the Sulfur Atom

Synthesis of Nonracemic α-Trifluoromethyl α-Amino Acids from Sulfinimines of Trifluoropyruvate

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