Enolate iminium

There have been extensive investigations on the reaction mechanism. In most cases the reaction proceeds via initial nucleophilic addition of ammonia 2 to formaldehyde 1 to give adduct 5, which is converted into an iminium ion species 6 (note that a resonance structure—an aminocarbenium ion can be formulated) through protonation and subsequent loss of water. The iminium ion species 6 then reacts with the enol 7 of the CH-acidic substrate by overall loss of a proton ... 

The oxidation of /(-amino-substituted iron acyl complexes which are prepared via condensation reactions of iron-acyl enolates and imines or iminium ions26,5 -47-54 generates /(-lactams 32,33,61. Brief treatment with bromine in dichloromethane at low temperature is the usual procedure. 

Enolates react with jV./V-dimethyl(mcthylene)iminium salts under mild conditions. Typically nonstabilized enolates are brought to reaction by adding the iminium salt to an enolate at — 78 °C, with subsequent slow warming to room temperature. There are several possibilities to generate the enolate, some of which are ... 

Table 9. Enolate-Mediated Mannich Reactions Using Preformed A. A -Dimcthyl(methylene)iminium Iodide...

Auxiliary-Induced Diastereoselection I.4.3.3.I. Auxiliary Croup in the Enolate Addition to Imines or Iminium Salts... 

The chiral (V-camphanoyl iminium ion 7, prepared by hydride abstraction from 2-camphanoyl-l,2,3,4-tetrahydro-6,7-dimethoxyisoquinoline 6 (see Appendix) with triphenylcarbenium te-trafluoroborate, reacts with silyl enol ethers to give 1-substituted tetrahydroisoquinoline derivatives with reasonable diastereoselectivity, 0°. On addition of titanium(IV) chloride, prior to the addition of the silyl enol ether, the diastereoselectivity gradually rises to an optimum at 2.5 equivalents of the Lewis acid, but the yield drops by 20%. 

According to this mechanism, it is the free amine, not the salt that reacts, even in acid solution and the active-hydrogen compound (in the acid-catalyzed process) reacts as the enol when that is possible. This latter step is similar to what happens in 12-4. There is kinetic evidence for the intermediacy of the iminium ion (13). 

Scheme 27 Addition of nitronates, enolates and silyl ketene acetals to chiral a-amino imines and iminium ions...

This method fails, however, with bicyclic ketones such as 1-tetralones even in the presence of TsOH, affording only enol trimethylsilyl ethers such as 107 a [114, 115]. A subsequent investigation revealed that cyclohexanone reacts with equivalent amounts of N-trimethylsilyldimefhylamine 463 in the presence of TMSOTf 20 at -30 °C to give the enol silyl ether 107 a, whereas reaction of cyclohexanone, benzaldehyde, and chlorodimethyl ether with 463 and TMSOTf 20 or TCS 14 at 1-20 °C afforded the iminium salts 547, 548, and 549 in high yield [116-118]. Analogously, N-trimethylsilylpyrrolidine 550 and N-trimethylsilylmorphoHne 294 convert aldehydes such as benzaldehyde, at ambient temperature in the presence... 

With trimethylsilyl iodide 17 the 0,N-acetal 457 gives the iminium iodide as reactive intermediate this converts the enol silyl ether 107 a in situ into the Man-nich-base 669, in 81% yield, and hexamethyldisiloxane 7 [195]. On treatment of the 0,N-acetal 473 (or the N-silylated Schiff base 489) with TMSOTf 20 (or Zny, the intermediate iminium triflate adds to the ketene acetal 663 to give mefhoxytri-methylsilane 13 a and silylated / -amino esters such as 670, which are readily transsilylated by methanol to give the free / -aminoester [70, 196] (Scheme 5.61). 

Addition of enols, enolates, or enolate equivalents to imines or iminium ions provides an important route to (3-amino ketones. 

Scheme 2.12 shows some representative Mannich reactions. Entries 1 and 2 show the preparation of typical Mannich bases from a ketone, formaldehyde, and a dialkylamine following the classical procedure. Alternatively, formaldehyde equivalents may be used, such as l>is-(di methyl ami no)methane in Entry 3. On treatment with trifluoroacetic acid, this aminal generates the iminium trifluoroacetate as a reactive electrophile. lV,A-(Dimethyl)methylene ammonium iodide is commercially available and is known as Eschenmoser s salt.192 This compound is sufficiently electrophilic to react directly with silyl enol ethers in neutral solution.183 The reagent can be added to a solution of an enolate or enolate precursor, which permits the reaction to be carried out under nonacidic conditions. Entries 4 and 5 illustrate the preparation of Mannich bases using Eschenmoser s salt in reactions with preformed enolates. 

The 2-azonia analog of the Cope rearrangement is estimated to be accelerated by 106, relative to the unsubstituted system.270 The product of the rearrangement is an isomeric iminium ion, which is a mild electrophile. In synthetic applications, the reaction is often designed to generate this electrophilic site in a position that can lead to a cyclization by reaction with a nucleophilic site. For example, the presence of a 4-hydroxy substituent generates an enol that can react with the iminiun ion intermediate to form a five-membered ring.271... 

Acylation of the nitronate 9-71 leads to the iminium ion 9-72 which, by the addition of an isocyanide, forms the cation 9-73. Following two acyl group migrations, the compound 9-75 is obtained via 9-74. The best results were obtained when allylic nitro derivatives were used, as these can form the corresponding enolate in the presence of NEt3. Aliphatic nitro compounds could also be employed, but in these cases it was necessary to use the more basic DBU. 

The iminium ion then reacts with an enol (vinyl alcohol) compound (such as the side chain of tyrosine) to form a cross-link (reaction 15.6). 

The stereoselective addition of the titanium enolate of A-acetyl-4-phenyl-l,3-thiazolidine-2-thione 153 to the cyclic A-acyl iminium ion 154 is utilized in the synthesis of (-)-stemoamide, a tricyclic alkaloid <06JOC3287>. The iminium ion addition product 155 undergoes magnesium bromide-catalyzed awtz-aldol reaction with cinnamaldehyde 156 to give adduct 157, which possesses the required stereochemistry of all chiral centers for the synthesis of (-)-stemoamide. 

Besides the allylation reactions, imines can also undergo enol silyl ether addition as with carbonyl compounds. Carbon-carbon bond formation involving the addition of resonance-stabilized nucleophiles such as enols and enolates or enol ethers to iminium salt or imine can be referred to as a Mannich reaction, and this is one of the most important classes of reactions in organic synthesis.104... 

Hsung and co-workers described the first epoxidation of 1-amidoallenes leading to highly reactive intermediate 292 (Scheme 8.76) [159]. Formation of bicyclic products 291 occurs via iminium enolate 293, which was trapped by cyclopentadiene 290 (X = CH2) or furan 290 (X = 0). [4+3] Cycloaddition of the intermediate 293furnished 291 in good yield as a mixture of mdo-diastereoisomers (-75 25). The best dia-stereoselectivity was found when the reaction was performed in the presence of 2 equiv. of zinc chloride (>96 4). 

A similar mechanism can be drawn if 08 is protonated first (not shown). Cleavage of the 08-C6 bond gives a C6 carbocation to which Oil adds. After cleavage of the N1-C6 bond, H+ transfer from C7 to C3 occurs to give an enol and an iminium ion. C7 then attacks C2, and elimination of the amine follows to give the products. 

The Nl-Cl 1 bond is easily made first. Cleavage of the Cl 1-012 bond gives an iminium ion that is also a l,5-(hetero)diene. The Cope rearrangement occurs to give a new iminium ion and an enol. Attack of the enol on the iminium ion (the Mannich reaction) affords the product. 

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