Aldehydes, conjugated => ketones

R2CuLi /C=C lithium dialkyl cuprate (Gilman reagents) enamine O II H2C=CH —C —H O II H2C=CH—C—R conjugated aldehyde conjugated ketone... 

The condensation of aldehydes or ketones with secondary amines leads to "encunines via N-hemiacetals and immonium hydroxides, when the water is removed. In these conjugated systems electron density and nudeophilicity are largely transferred from the nitrogen to the a-carbon atom, and thus enamines are useful electroneutral d -reagents (G.A. Cook, 1969 S.F. Dyke, 1973). A bulky heterocyclic substituent supports regio- and stereoselective reactions. 

Aldol condensation offers an effective route to a p unsaturated aldehydes and ketones These compounds have some interesting properties that result from conjugation of the carbon-carbon double bond with the carbonyl group As shown m Figure 18 6 the rr systems of the carbon-carbon and carbon-oxygen double bonds overlap to form an extended rr system that permits increased electron delocalization... 

FIGURE 18 7 Nucleophilic addition to a p unsaturated aldehydes and ketones may take place either in a 1 2 or 1 4 manner Direct addition (1 2) occurs faster than conjugate addition (1 4) but gives a less stable product The product of 1 4 addition retains the carbon-oxygen double bond which is in general stronger than a carbon-carbon double bond... 

The preparation and some synthetic applications of lithium dialkylcuprates were described earlier (Section 14 11) The most prominent feature of these reagents is then-capacity to undergo conjugate addition to a p unsaturated aldehydes and ketones... 

P carbon atom of an a 3 unsatu rated carbonyl compound is elec trophilic nucleophiles especially weakly basic ones yield the prod ucts of conjugate addition to a 3 unsaturated aldehydes and ketones... 

These reversible reactions are cataly2ed by bases or acids, such as 2iac chloride and aluminum isopropoxide, or by anion-exchange resias. Ultrasonic vibrations improve the reaction rate and yield. Reaction of aromatic aldehydes or ketones with nitroparaffins yields either the nitro alcohol or the nitro olefin, depending on the catalyst. Conjugated unsaturated aldehydes or ketones and nitroparaffins (Michael addition) yield nitro-substituted carbonyl compounds rather than nitro alcohols. Condensation with keto esters gives the substituted nitro alcohols (37) keto aldehydes react preferentially at the aldehyde function. 

Pyrroles react with the conjugate acids of aldehydes and ketones to give carbinols (e.g. 67) which cannot normally be isolated but which undergo proton-catalyzed loss of water to give reactive electrophiles (e.g. 68). Subsequent reaction may lead to polymeric products, but in the case of reaction of pyrrole and acetone a cyclic tetramer (69) is formed in high yield. 

While the usual eonsequence of hydration of enamines is eleavage to a secondary amine and an aldehyde or ketone, numerous cases of stable carbinolamines are known (102), particularly in examples derived from cyclic enamines. The selective terminal hydration (505) of a cross-conjugated dienamine-vinylogous amide is an interesting example which gives an indication of the increased stabilization of the vinylogous amide as compared to simple enamines, which is also seen in the decreased nucleophilicity of the conjugated amino olefin-carbonyl system. 

Conjugate Nucleophilic Addition to ,jB-Unsaturated Aldehydes and Ketones... 

The conjugate addition of a nucleophile to an a,fi-unsaturated aldehyde or ketone is caused by the same electronic factors that are responsible for direct addition. The electronegative oxygen atom of the a,/3-unsaturated carbonyl compound withdraws electrons from the /3 carbon, thereby making it electron-poor and more electrophilic than a typical alkene carbon. 

As noted previously, conjugate addition of a nucleophile to the j3 carbon of an cr,/3-unsaturated aldehyde or ketone leads to an enolate ion intermediate, which is protonated on the a carbon to give the saturated product (Figure 19.16). The net effect is addition of the nucleophile to the C=C bond, with the carbonyl group itself unchanged. In fact, of course, the carbonyl group is crucial to the success of the reaction. The C=C bond would not be activated for addition, and no reaction would occur, without the carbonyl group. 

Conjugate Nucleophilic Addition to a, /3-Unsaturated Aldehydes and Ketones 727... 

Both primary and secondary amines add to a /S-unsaturated aldehydes and ketones to yield /3-amino aldehydes and ketones rather than the alternative imines. Under typical reaction conditions, both modes of addition occur rapidly. But because the reactions are reversible, they generally proceed with thermodynamic control rather than kinetic control (Section 14.3), so the more stable conjugate addition product is often obtained to the complete exclusion of the less stable direct addition product. 

Water can add reversibly to o ,/3-unsalurated aldehydes and ketones to yield /3-hydroxy aldehydes and ketones, although the position of the equilibrium generally favors unsaturated reactant rather than saturated adduct. A related addition to an c /S-unsaturated carboxylic acid occurs in numerous biological pathways, such as the citric acid cycle of food metabolism where ds-aconitate is converted into isocitrate by conjugate addition of water to a double bond. 

Conjugate additions to u,jB-unsaturated aldehydes and ketones (Section 19.13)... 

The jS-hydroxy aldehydes or ketones formed in aldol reactions can be easily dehydrated to yield a -unsaturated products, or conjugated enones. In fact, it s this loss of water that gives the condensation reaction its name, because water condenses out of the reaction when the enone product forms. 

We saw in Section 19.13 that certain nucleophiles, such as amines, react with a,/Tunsaturated aldehydes and ketones to give the conjugate addition product, rather than the direct addition product. 

The Michael reaction occurs with a variety of a,/3-unsaturated carbonyl compounds, not just conjugated ketones. Unsaturated aldehydes, esters, thio-esters, nitriles, amides, and nitro compounds can all act as the electrophilic acceptor component in Michael reactions (Table 23.1). Similarly, a variety of different donors can be used, including /3-diketones, /3-keto esters, malonic esters, /3-keto nitriles, and nitro compounds. 

Conjugate Nucleophilic Addition to cn/3-Llnsaturated Aldehydes and Ketones 725... 

Trimethylstannyl)ethylidene]phosphoranes have been generated by conjugate addition of trimethylstannyllithium to triphenylvinylphosphonium bromide30 and, more efficiently, by deprotonation of the corresponding / -(trimethylstannyl)phosphonium salt31, and condensed with aldehydes and ketones. 

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