Enolization carbonyl compounds

When this reaction sequence is applied to enol esters or enol ethers, the result is a-oxygenation of the starting carbonyl compound. Enol acetates form epoxides that rearrange to a-acetoxyketones. 

Another important part of Organic 11 is carbonyl chemistry. We look at the basics of the carbonyls in Chapter 9. It s like a family reunion where 1 (John, one of your authors) grew up in North Carolina — everybody is related. You meet aldehydes, ketones, carboxylic acids, acyl chlorides, esters, cimides, and on and on. It s a quick peek, because later we go back and examine many of these in detail. For example, in Chapter 10 you study aldehydes and ketones, along with some of the amines, while in Chapter 11 we introduce you to other carbonyl compounds, enols and enolates, along with nitroalkanes and nitriles. 

Fig. 12.1. Substituent dependency of the enol content of aldehydes and ketones. Here, the p/CE values, i.e., the negative of the base-10 logarithm of the equilibrium constants /fE of the respective tau-tomerization carbonyl compound enol, are used as a measure.

Base catalysis is not required for conjugate addition. If the nucleophile is sufficiently enolized under the reaction conditions then the enol form is perfectly able to attack the unsaturated carbonyl compound. Enols are neutral and thus soft nucleophiles favouring conjugate attack, and p-dicarbonyl compounds are enolized to a significant extent (Chapter 21). Under acidic conditions there can be absolutely no base present but conjugate addition proceeds very efficiently. In this way methyl vinyl ketone (butenone) reacts with the cyclic P-diketone promoted by acetic acid to form a quaternary centre. The yield is excellent and the triketone product is an important intermediate in steroid synthesis as you will see later in this chapter. 

Addition of carbon nucleophiles to the C=C bond of a compound la,b includes reactions of enolizable carbonyl compounds, enol ethers, and ena-mines, as well as lithium alkyls and zinc alkyls. Condensation of the enolizable ketone 68 with la,b (M = Cr, W)26 is induced, for example, by catalytic amounts of triethylamine in pentane and under these conditions affords a 90% yield of crystalline pyranylidene complex 57 directly from the reaction mixture.102 This reaction proceeds via the 2-ethoxy-l-metallatriene L, which, because of the presence of triethylamine, rapidly undergoes ring closure to the pyranylidene (pyrylium ylide) complex 69 by 1,6-elimination of ethanol (Scheme 22). Chromanylidene complexes 71 are obtained from condensation of a /3-tetraIone 70 (R = H, OMe) with compound 1a,b. 

Addition of the carbonyl compound enol to heterocyclic sulfone. 

The conjugate bases of carbonyl compounds, enolates, react with ketones and aldehydes in the aldol reaction. The reaction is usually executed in two stages. First, the enolate is generated, usually by deprotonation of the carbonyl compound at low temperature with a strong base such as LDA, KHMDS, or LiHMDS, but not always. Then the electrophilic carbonyl compound is added to the reaction mixture. Under these conditions, the reaction usually stops at the /3-hydroxycarbonyl stage. The nucleophilic component may be any carbonyl compound, or even a nitrile, a sulfonyl compound, or a nitro compound (honorary members of the carbonyl family). 

Carbonyl compounds, enol ethers, and enamines are acetoxylated by lead tetraacetate. By use of this method the enone could be a-acetoxylated stereoselectively and chemoselectively (Scheme 13.38) [60]. 

The aldolization reaction is certainly the most popular reaction for creating carbon-carbon bonds and much effort has been made to achieve the reactions in smooth conditions with a high degree of stereoselectivity. The reaction involves activated carbonyl compounds (enol, enolates, various enol ethers) which add on another carbonyl compound or various electrophiles in related reactions. As most of the activated compounds are compatible with water, it is not surprising that the aldolization in aqueous conditions became an efficient process in view of the negative activation volume of the reaction. The diastereo-selectivity depends greatly on the reaction conditions. Thus, in a intramolecular aqueous aldolization, the acid-induced reaction of a keto aldehyde provided a syn hydroxy ketone while the base-catalyzed reaction led to the anti isomer (Scheme 35) [179]. 

As an alternative to prior deprotonation of the parent carbonyl compounds, enolates can also be generated in situ from allyl /(-koto carboxylates or allyl enol carbonates by decarboxylation with simultaneous production of a 7i-allylpalladium complex 1-12. A similar utilization of / -keto acids has also been described13. The following diagram illustrates the reaction course for an allyl jS-keto carboxylate. 

If the nucleophile is sufficiently enolized under the reaction conditions then the enol itself is able to attack the unsaturated carbonyl compound. Enols are neutral and thus soft nucleo-... 

In the Conia-ene reaction, a carbonyl compound enolizes and then undergoes an intramolecular ene reaction. The enol fragment serves as the ene component of the reaction, while the olefin fragment serves as the enophile. An example is the reaction of 8-methyl-7-nonen-2-one (92), which yields 2-isopropylcyclopentyl methyl ketone (93, equation 11.41). ... 

THE ACIDITY OF THE a HYDROGENS OF CARBONYL COMPOUNDS ENOLATE ANIONS... 

CHAPTER 18 REACTIONS AT THE a CARBON OF CARBONYL COMPOUNDS Enols and Enolates... 

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