Ketones, from iminium salts

Asymmetric epoxidation of olefins is an effective approach for the synthesis of enan-tiomerically enriched epoxides. A variety of efficient methods have been developed [1, 2], including Sharpless epoxidation of allylic alcohols [3, 4], metal-catalyzed epoxidation of unfunctionalized olefins [5-10], and nucleophilic epoxidation of electron-deficient olefins [11-14], Dioxiranes and oxazirdinium salts have been proven to be effective oxidation reagents [15-21], Chiral dioxiranes [22-28] and oxaziridinium salts [19] generated in situ with Oxone from ketones and iminium salts, respectively, have been extensively investigated in numerous laboratories and have been shown to be useful toward the asymmetric epoxidation of alkenes. In these epoxidation reactions, only a catalytic amount of ketone or iminium salt is required since they are regenerated upon epoxidation of alkenes (Scheme 1). 

The reaction of ketone derivatives (89) with chloromethyleneiminium salt (1) gives iminium salts (90) which yield, after hydrolysis, P-chloroacrolein derivatives (91 Scheme 7)." Numerous P-chloroacrolein derivatives have been prepared by this method and yields are generally moderate to good. p-Chloroacryl-onitrile derivatives (92) are also available in good yield from iminium salts (90 = H) by treatment... 

The E-isomer is generally more stable than the Z-isomer due to diminished steric hindrance, so it is assumed that the E-isomer is the major product (shown for 83). Water, a reaction by-product, may be removed to give a better yield of product and azeotropic distillation is used as well as molecular sieves (see Section 18.6.3). Enamines are structurally related to an end (HO—C=C) in that the heteroatom is directly attached to the alkene unit. Enamines are often isolable compounds, whereas enols tautomerize spontaneously to the carbonyl form. Note that when imine 76 is formed from iminium salt 80, there is no enamine product. In fact, the C-H in 80 is much less acidic that the N-H unit, so the product is the imine rather than the enamine. It is noted that there is an equilibrium between an imine and an enamine, known as imine-enamine tautomerism, but it will be ignored in this book. Many different secondary amines can be used in this reaction, including cyclic amines (see Chapter 26, Section 26.4.1) such as pyrrolidine (90), piperidine (91), and morpholine (92). It is important to note that it is generally easier to form an enamine from a ketone than from an aldehyde. 

Enamines are also prepared from azirines by thermolysis/ and from iminium salts by dehydrobromination/" Enaminones are prepared from ketones by reaction with hexamethydisilazane " and from vinamidinium salts by reaction with enolates/ and thioenaminones are now conveniently prepared directly from enaminones/" ... 

With strong acids, enamines give iminium salts, from which the parent enamine is regenerated by treatment with piperidine or triethylamine. Enamines are usually cleaved by warming in acetic acid-sodium acetate solution. The more labile enamines of saturated 3-ketones are hydrolyzed simply by heating in 95% ethanol. ... 

For purposes of characterization of enamines the perchlorate salts are preferred, as they crystallize well, and the perchlorate anion has no tendency to add to the iminium cation. Other salts, including hexachlorostannates (13), hexachloroantimonates (13), chlorides, bromides, tetraphenylborates, and nitrates, have also been used. Recently a method for the preparation of iminium salts directly from aldehydes or ketones and the amine perchlorate has been reported (16). 

The alkylation of dienamines has not been studied extensively. Thus the dienamine (44) is reported (43,44) to alkylate at Cj with methyl iodide to give the iminium salt (45), which on hydrolysis gives the alkylated a,)3-unsatur-ated ketone (46). Similar dienamines prepared from A -2-oko steroids. On the other hand, are reported to undergo only N alkylation (45). 

A methylenciminium salts derived from formaldehyde B ternary iminium salts derived from aldehydes C quaternary iminium salts derived from ketones... 

As a result, one might expect that there is only a slight difference between the iminium salts and the parent ketone (4-rm-butylcyclohcxanone) concerning the stereochemical course of the addition reaction and. actually, this assumption proves to be true. In each case the diastereomer resulting from the less hindered equatorial attack of the nucleophile clearly predominates10. 

This is the most common method for the preparation of enamines and usually takes place when an aldehyde or ketone containing an a hydrogen is treated with a secondary amine. The water is usually removed azeotropically or with a drying agent, but molecular sieves can also be used. Stable primary enamines have also been prepared.Enamino-ketones have been prepared from diketones and secondary amines using microwave irradiation on silica gel. ° Secondary amine perchlorates react with aldehydes and ketones to give iminium salts (2, p. 1178). Tertiary amines can only give salts (12). 

From the foregoing discussion, it is clear that DPM rearrangements are very general for a variety of 1,4-unsaturated systems, such as, 1,4-dienes, (3,7-unsaturated aldehydes and ketones, and different 1-aza-1,4-diene derivatives. Surprisingly, the literature was devoid of studies describing the photoreactivity of the closely related 2-aza-1,4-diene derivatives. For many years, the only studies in this area were carried out by Mariano and his co-workers [60] on the photochemistry of iminium salts derived from 2-aza-1,4-dienes. The results obtained demonstrated the synthetic utility of the photocyclizations of iminium salts to different heterocycles, in reactions that are initiated by intramolecular single electron transfer [60]. 

The reaction from an enamine is initiated by the addition of a trace of a strong acid, e.g. /7-toluenesulfonic acid (TsOH, 4-methylbenzene-sulfonic acid), to the ketone and pyrrolidine in a solvent such as toluene. When the mixture is at reflux in a Dean-Stark apparatus, water is liberated and is removed through azeotropic distillation, leaving the enamine in the reaction vessel. After a follow-up reaction between the enamine and a suitable electrophile, an iminium salt is produced that liberates both the a-substituted ketone and pyrrolidine when it is treated with aqueous acid (Scheme 6.20). 

The regiochemistry of ketene iminium salt cycloadditions can also differ from ketene cycloadditions. Whereas reaction of styrene with a series of ketene iminium salts gave 3-phenyI-cyclobutanones7 (60-70% yield) similar to the regiochemistry of ketene cycloadditions, reaction with a series of acrylates and a,/J-unsaturated ketones gave cyclobutanones 5 with regiochemistry opposite to what would be expected from electrostatic considerations of ketene cycloadditions.s... 

Other alkylation reactions are observed in the condensation of cyclo-propanium ions (generated in situ) with ketones 89.92)> enamines6, nitroalkanes 93>, dimethylmalonate 92>, and phenol. 92> Thus, 7-hydroxy-7-pyrrolidinobicyclo[4.1.0]heptane (56) as well as the 7,7-dipyrrolidino derivative (54) react with acetone to give the amino ketone 113. 89> This reaction may be pictured as an addition of the enol form of the ketone to the reactive iminium salt formed from the carbinol amine. In like manner, phenol undergoes ortho substitution with the carbinol amine 114 formed from cyclopropanone and dimethyl amine. 

With the procedure for constructing the quaternary carbon stereocenter in hand, the conversion of the ris-form to the trans form was explored in accordance with the synthetic plan shown in Scheme 9. The ketone moiety of the 1,4-conjugated adduct 61 was protected by an acetal group, followed by decarboxylation of compound 65 using sodium ethylthiolate to yield lactam trans-62 and cis-62 as an 8 1 diastereomixture [31]. The reason why the lactam trans-62 was obtained as a major product is that the subsequent protonation after decarboxylation proceeded kinetically. This assertion is supported by experimental results in which the trans- and cis-lactam diastereomixture (8 1) in ethanol was refluxed in the presence of potassium hydroxide to afford a 1 5 mixture [15,32,33]. The mixture of the lactam trans-62 and cis-62 was reduced with DIBALH, followed by treatment with sodium hydroxide to give bicyclic enamine 63. The kinetic iminium salt prepared from bicyclic enamine 63 with hydrochloric acid was reduced with sodium cyanoborohydride, leading to the frans-decahydroisoquinoline structure [22], The acetal moiety of the resultant 67 was removed to provide the objective ketones 68a and 2c. This method enabled the construction of the tra s-decahydroisoquinoline structure without an intermediate resembling the neurotoxic MPTP, and in fewer steps. 

Enamines are made from secondary amines and aldehydes or ketones via the iminium salt you met them in Chapter 14 and have seen them in action in Chapters 21,26, and 27. 

Reaction of halides with silver nitrate to give nitrate esters has been known for years, but its synthetic application is more recent. Komblum showed that the nitrate esters derived from a-bromo ketones and esters decompose smoothly with catalytic sodium acetate in DMSO to give the a-dicarbonyl compounds in high yield. It was found unnecessary to isolate the nitrate ester after reaction of the halide with silver nitrate the solution was filtered to remove AgBr, concentrated, and added to DMSO containing catalytic sodium acetate. The method complements the others for the synthesis of a-dicarbonyl compounds since it employs nonacidic, nonbasic conditions. Unfortunately, the method gave variable results with benzyl halides. The application of the method to bromo esters other than bromoacetates was not reported. Some related oxidations are shown in equations (41) and (42), and Schemes 9 and 10. The oxidation of an iminium salt is notable. 

Preparation of imines and enamines from carbonyl compounds and amines can be achieved with a dehydrating agent under acid/base catalysis [563]. Basically, primary amines afford imines unless isomerization to an enamine is favored as a result of conjugation, etc (see Eq. 252), and secondary amines afford iminium salts or enamines. These transformations can be conducted efficiently with a catalytic or stoichiometric amount of a titanium salt such as TiCU or Ti(0-/-Pr)4. Equation (247) illustrates an advantageous feature of this method in the imination of a hindered ketone. f-Butyl propyl ketone resisted the formation of the imine even by some methods reported useful for sterically hindered ketones [564,565]. The TiCU-based method works well, however, for this compound, giving the desired imine in high yield within a relatively short reaction period [566]. Imine derivatives such as iV-sulfonylimines could be... 

In a similar manner, iminium salts derived from a, -unsaturated aldehydes and ketones are reduced by Hantzsch ester (Scheme 79). The ratio between the 1,4- and 1,2-reduction products depends upon the p/(a of the amine component. a-Keto-P,y-unsaturated esters are reduced by NAD(P)H models in the presence of Mg(Cl04)2- At room temperature 1 equiv. of the reducing agent effects 1,4-reduction of the... 

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