Imines, reaction with enol silyl ethers

The properties of the /7-benzyloxybenzylamine (BOBA) resin 7e have been reported. Support 7e forms imines that undergo aldol reactions with silyl enol ethers and the resulting y-ketoamines can be cleaved oxidatively using 2,3-dichloro-5,6-dicyano-l,4-benzoquinone (DDQ). In contrast, treatment of the support with triflic acid (TfOH) or trimethylsilyltriflate (TMSOTf) resulted in cleavage at the benzylic ether group of 7e affording... 

Allylation and Mannich-type Reactions. The catalytic ally-lation of imines with allyltributylstannane and catalytic Mannich-t)q)e reactions with silyl enol ethers were successfully carried out in the presence of Hf(OTf)4 to afford the corresponding adducts in high yields (eqs 30 and 31). A one-pot procedure was also developed and furnished the corresponding adducts in high yields. 

Hagiwara et al.107 reported the chiral Pd(II) complex-catalyzed asymmetric addition of enol silyl ethers to imines, based on the belief that Pd(II) enolate was involved in the reaction. They found that with compound 171a as the catalyst, very low enantioselectivity was obtained in the asymmetric reactions between silyl enol ether and imine compounds (Scheme 3-58). However, in the... 

Fluoral hydrate and hemiacetals are industrial products. They are stable liquids that are easy to handle, and they react as fluoral itself in many reactions. Thus, in the presence of Lewis acids, they react in Friedel-Crafts reactions. They also react very well with organometallics (indium and zinc derivatives) and with silyl enol ethers.Proline-catalyzed direct asymmetric aldol reaction of fluoral ethyl hemiac-etal with ketones produced jS-hydroxy-jS-trifluoromethylated ketones with good to excellent diastereo- (up to 96% de) and enantioselectivities. With imine reagents, the reaction proceeds without Lewis acid activation. The use of chiral imines affords the corresponding 8-hydroxy ketones with a 60-80% de (Figure 2.49). ° ... 

Aldol reactions.2 This combination of catalysts is effective for promoting reaction of acetals with silyl enol ethers and ketene silyl acetals. It can also promote reaction of aldehydes or imines with ketene silyl acetals. The reactions occur in high yield at 25° either CH3CN or THF can be used as the solvent. 

An approach based on samarium diiodide-promoted reactions of the iminoketone 279 with aldehydes provides access to a series of substituted or fused pyrroles bearing at least two phenyl groups, for instance, the system 280 (Equation 86) <2001T4881>. In an alternative lanthanide-catalyzed route, a series of pyrroles were constructed from imines and nitroalkenes in the presence of Sm(fPrO)3 <1999T13957>. A set of 1-dimethylaminopyrroles have also been obtained by TiCU-induced reactions between 2-acetoxypropanal hydrazones with silyl enol ethers <1995TL8007>. 

Kobayashi et al. found that lanthanide triflates were excellent catalysts for activation of C-N double bonds —activation by other Lewis acids required more than stoichiometric amounts of the acids. Examples were aza Diels-Alder reactions, the Man-nich-type reaction of A-(a-aminoalkyl)benzotriazoles with silyl enol ethers, the 1,3-dipolar cycloaddition of nitrones to alkenes, the 1,2-cycloaddition of diazoesters to imines, and the nucleophilic addition reactions to imines [24], These reactions are efficiently catalyzed by Yb(OTf)3. The arylimines reacted with Danishefsky s diene to give the dihydropyridones (Eq. 14) [25,26], The arylimines acted as the azadienes when reacted with cyclopentadiene, vinyl ethers or vinyl thioethers, providing the tet-rahydroquinolines (Eq. 15). Silyl enol ethers derived from esters, ketones, and thio-esters reacted with N-(a-aminoalkyl)benzotriazoles to give the /5-amino carbonyl compounds (Eq. 16) [27]. The diastereoselectivity was independent of the geometry of the silyl enol ethers, and favored the anti products. Nitrones, prepared in situ from aldehydes and N-substituted hydroxylamines, added to alkenes to afford isoxazoli-dines (Eq. 17) [28]. Addition of diazoesters to imines afforded CK-aziridines as the major products (Eq. 18) [29]. In all the reactions the imines could be generated in situ and the three-component coupling reactions proceeded smoothly in one pot. 

Another type of pre-formed reagent (28) has been used to carry out diastereose-lective Mannich reactions. The lithium salts 27 are treated with TiCU to give 28, which is then treated with the enolate of a ketone." ° The palladium catalyzed Mannich reaction of enol ethers to imines is also known." ° The reaction of silyl enol ethers and imines is catalyzed by HBF4 in aqueous methanol." ° Similarly, silyl enol ethers react with aldehydes and aniline in the presence of InCla to give the p-amino ketone." ° Imines react on Montmorillonite KIO clay and microwave irra-... 

Further extension of the reaction pool of Schilf bases 138 was achieved by their reaction with tran -l-methoxy-3-(trimethylsilyloxy)-1,3-butadiene (Danishefsky s diene) to give 2-substituted 5,6-didehydro-piperidin-4-ones 164 [135,136] (Scheme 10.54). The reaction is considered to be a sequence of an initial Mannich reaction between the imine and the silyl enol ether, followed by an intramolecular Michael addition and subsequent elimination of methanol. If the reaction was terminated by dilute ammonium chloride solution, then the Mannich bases 163 could be isolated and further transformed to the dehydropiperidinones 164 by treatment with dilute hydrochloric acid. This result proved that the reaction pathway is not a concerted hetero Diels-Alder type process between the electron-rich diene and the activated imine. The use of hydrogen chloride as a terminating agent resulted in exclusive isolation of the piperidine derivatives 164 formed with... 

In recent years, catalytic asymmetric Mukaiyama aldol reactions have emerged as one of the most important C—C bond-forming reactions [35]. Among the various types of chiral Lewis acid catalysts used for the Mukaiyama aldol reactions, chirally modified boron derived from N-sulfonyl-fS)-tryptophan was effective for the reaction between aldehyde and silyl enol ether [36, 37]. By using polymer-supported N-sulfonyl-fS)-tryptophan synthesized by polymerization of the chiral monomer, the polymeric version of Yamamoto s oxazaborohdinone catalyst was prepared by treatment with 3,5-bis(trifluoromethyl)phenyl boron dichloride ]38]. The polymeric chiral Lewis acid catalyst 55 worked well in the asymmetric aldol reaction of benzaldehyde with silyl enol ether derived from acetophenone to give [i-hydroxyketone with up to 95% ee, as shown in Scheme 3.16. In addition to the Mukaiyama aldol reaction, a Mannich-type reaction and an allylation reaction of imine 58 were also asymmetrically catalyzed by the same polymeric catalyst ]38]. 

Catalyst for Reactions of Acetals with Silyl Enol Ethers and Allylsilanes. TMS-I catalyzes the condensation of silyl enol ethers with various acetals (eq 30) and imines, and of allylsilanes with acetals. ... 

Sodeoka found that Pd(II) hydroxide complexes of BINAP derivatives 18 are excellent catalysts for asymmetric synthesis. Pd enolates are generated from silyl enol ethers by transmetallation. The asymmetric Mannich-type reaction of silyl enol ether of acetophenone (15) with the imine 16 proceeded smoothly using Pd complex of Tol-BINAP, and the ester of amino acid 17 with 90 % ee was obtained in 95 % yield [3]. 

Lectka has shown that (l )-BlNAP-Pd(C104)2, is effective for enantioselective reaction of imines with silyl enol ethers such as 15. While Sodeoka used the aquo complexes, Lectka carried out the reaction under anhydrous conditions [5]. 

Conjugated imines such as 4.31 react with silyl enol ethers, in this case catalyzed by trimethylsilyl triflate, to give alkenyl amino acids. The reaction of 4.31 and 4.32... 

While hundreds of Lewis acid catalysts have been developed for organic reactions, Brousted acid catalysts have been paid less attention until recently. Conventional Lewis acids, such as titanium chloride and aluminium chloride, are known to be incompatible with aqueous media. On the other hand, Bronsted acids are stable toward water and oxygen. Thus, they are potential candidates as activators of electrophilic substrates in water. It was found that among various Bronsted acids, HBF4 efficiently catalyzed Mannich -type reactions of silyl enol ethers with aromatic aldehydes derived from activated imines to afford the corresponding p-amino ketones (Scheme 3.1). ... 

The successful use of the silver complex formed from an iso-leucine-derived phosphine (L2 in Scheme 11.4) as catalyst for the multicomponent Mannich reaction of silyl enol ethers 10 with in situ formed aliphatic imines allowed its application in the enantioselective synthesis of the alkaloid sedamine (56% yield, 98% ee) [17]. Also cyclic and acyclic alkenyl trichloroacetates (10, Z = EtOCO) can be used in the reaction with ethyl glyoxylate and diverse aniline derivatives 11 catalyzed by... 

Kobayashi et al reported for the first time the catalytic, diastereo- and enan-tioselective Mannich-type reactions of a hydrazono ester with silyl enol ethers in aqueous media (Scheme 4.38) [34]. As for substrates, they focused on acylhydra-zones such as (113), which are imine surrogates that are stable even in aqueous inedia. Substoichiometric Znp2 (50mol%) with chiral diphenylethylenediamine... 

An interesting example from carbohydrate chemistry is the boron trifluoride-diethyl ether complex catalyzed nucleophilic addition of silyl enol ethers to chiral imines (from n-glyceralde-hyde or D-serinal)22. This reaction yields unsaturated y-butyrolactones with predominantly the D-arabino configuration (and almost complete Cram-type erythro selectivity). 

The reactions proceeded efficiently under mild conditions in short time. The silyl enol ethers reacted with the activated acetals or aldehydes at -78 °C to give predominant erythro- or threo-products [136, 137] respectively. In the same manner, the aldol reaction of thioacetals, catalyzed by an equimolar amount of catalyst, resulted in <-ketosulfides [139] with high diastereoselectivity. In the course of this investigation, the interaction of silyl enol ethers with a,]3-unsaturated ketones, promoted by the trityl perchlorate, was shown to proceed regioselec-tively through 1,2- [141] or 1,4-addition [138]. The application of the trityl salt as a Lewis acid catalyst was spread to the synthesis of ]3-aminoesters [142] from the ketene silyl acetals and imines resulting in high stereoselective outcome. 

Lithium Enolates. The control of mixed aldol additions between aldehydes and ketones that present several possible sites for enolization is a challenging problem. Such reactions are normally carried out by complete conversion of the carbonyl compound that is to serve as the nucleophile to an enolate, silyl enol ether, or imine anion. The reactive nucleophile is then allowed to react with the second reaction component. As long as the addition step is faster than proton transfer, or other mechanisms of interconversion of the nucleophilic and electrophilic components, the adduct will have the desired... 

Since then, efficient catalytic asymmetric methods have been developed for the addition of silyl enol ethers or silyl ketene acetals to imines with chiral metal catalysts [29-34], Recently, direct catalytic asymmetric Mannich reactions which do not require preformation of enolate equivalents have appeared. 

In 1998, a new type of Pd(II) binuclear complex was reported which was effective for Mannich reactions of an imine derived from glyoxylate and anisidine with silicon enolates [38,39]. In these reactions, use of solvents including a small amount of water was essential. It was shown that water played an important role in this system water not only activated the Pd(II) complex to generate a cation complex, but also cleaved the N-Pd bond of the intermediate to regenerate the chiral catalyst. This reaction reportedly proceeded via an optically active palladium enolate on the basis of NMR and ESIMS analyses. A unique binuclear palladium-sandwiched enolate was obtained in the reaction of the p-hydroxo palladium complex with the silyl enol ether [(Eq. (9)]. 

The DFT study of the 3 + 2-cycloaddition between ketene and TV-silyl-, IV-germyl-, and TV-stannyl-imines shows that the TV-germylimine reaction is a two-step process the TV-stannylimine reaction is a competition between two- and three-step processes whereas the TV-silyl process follows a three-step process44 A new and convenient synthesis of functionalized furans and benzofurans based on 3 + 2-cycloaddition/oxidation has been reported. The cyclization of cyclic 1,3-bis-silyl enol ethers (48) with l-chloro-2,2-dimethoxyethane (49), via a dianion, produced 5,6-bicyclic 2-alkylidenetetrahydrofurans (50), which are readily oxidized with DDQ to 2,3-unsubstituted benzofurans (51) (Scheme 13)45 The Evans bis(oxazoline)-Cu(II) complex catalyses the asymmetric 1,3-dipolar cycloaddition of a -hydroxyenones with nitrones to produce isoxazolidines.46 The... 

Aldol reactions of various silyl enol ethers or ketone silyl acetals with aldehydes and imines proceed smoothly in the presence of catalytic amount of 516 or 519 (Equations (242) and (243)).1034-1037 B(G6F5)3 516 catalyzed the... 

The peptidic phosphine ligands that had been introduced by Hoveyda and co-workers271 for enantioselective copper-catalyzed Michael additions (see Section 9.12.2.2.1) were also employed successfully in silver-catalyzed asymmetric Mannich reactions.3 Thus, the aryl-substituted imines 372 reacted with various silyl enol ethers in the presence of stoichiometric amounts of isopropanol, as well as catalytic amounts of silver acetate and ligand 373 to... 

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