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Base-catalyzed Keto-enol

Figure 25.8 Fructose, a ketose, is a reducing sugar because it undergoes two base-catalyzed keto-enol tautomerizations that result in conversion to an aldose. Figure 25.8 Fructose, a ketose, is a reducing sugar because it undergoes two base-catalyzed keto-enol tautomerizations that result in conversion to an aldose.
Show how enols and enolate ions act as nucleophiles. Give mechanisms for acid-catalyzed and base-catalyzed keto-enol tautomerisms. [Pg.1092]

MECHANISM FOR BASE-CATALYZED KETO-ENOL INTERCONVERSION... [Pg.314]

In the preceding discussion, we have effected acid- or base-catalyzed keto-enol tautom-... [Pg.795]

D presentation of the chromatogram of 5-(+)-naproxen dissolved and stored in the acidic medium (development in the second direction). In this figure, we can see the single 3D peak of 5-(+)-naproxen only. In that way, we provided sufficient experimental evidence in favor of the base-catalyzed keto-enol tautomerism as a driving force for the configuration change of the chirally pure 5-(+)-naproxen. [Pg.238]

Problem 17.3 Compare the mechanisms for (a) base-catalyzed and (b) acid-catalyzed keto-enol tautomerism. [Pg.386]

Mechanism 22-4 Base-Catalyzed Keto-EnolTautomerism 1047 Mechanism 22-5 Acid-Catalyzed Keto-EnolTautomerism 1047 22-3 Alkylation of Enolate Ions 1050 22-4 Formation and Alkylation of Enamines 1051 22-5 Alpha Halogenation of Ketones 1054... [Pg.21]

Addition of an Enolate to Ketones and Aldehydes (a Condensation) 1046 Substitution of an Enolate on an Ester (a Condensation) 1046 Base-Catalyzed Keto-EnolTautomerism 1047 Acid-Catalyzed Keto-EnolTautomerism 1047 Base-Promoted Halogenation 1054 Final Steps of the Haloform Reaction 1056 Acid-Catalyzed Alpha Halogenation 1058 Acid-Catalyzed Aldol Condensation 1063 1,2-Addition and 1,4-Addition (Conjugate Addition) 1085... [Pg.1294]

Ketones and aldehydes bearing a hydrogens are in equilibrium with their enol forms, although for simple ketones and aldehydes the carbonyl forms are greatly favored. This equilibrium is the keto—enol tautomerization. Equilibration with the enol form can be either acid- or base-catalyzed. The enol form can be favored in special cases. Esters and other acid derivatives also have acidic a hydrogens. LDA is a strong base that can be used to drive ketones, aldehydes, or esters completely to their corresponding enolates. [Pg.944]

Replacement of a benzene ring by its isostere, thiophene, is one of the more venerable practices in medicinal chemistry. Application of this stratagem to the NSAID piroxicam, gives tenoxicam, 136, a drug with substantially the same activity, nie synthesis of this compound starts by a multi-step conversion of hydroxy thiophene carboxylic ester 130, to the sulfonyl chloride 133. Reaction of that with N-methylglycinc ethyl ester, gives the sulfonamide 134. Base-catalyzed Claisen type condensation serves to cyclize that intermediate to the p-keto ester 135 (shown as the enol tautomer). The final product tenoxicam (136) is obtained by heating the ester with 2-aminopyridine [22]. [Pg.173]

Keto-enol tautomerism of carbon) ] compounds is catalyzed by both acids and bases. Acid catalysis occurs by protonation of the carbonyl oxygen atom to give an intermediate cation that Joses H+ from its a carbon to yield a neutral enol (Figure 22.1). This proton loss from the cation intermediate is similar to what occurs during an El reaction when a carbocation loses H+ to form an alkene (Section 11.10). [Pg.843]

Mechanism of base-catalyzed enol formation. The intermediate enolate ion, a resonance hybrid of two forms, can be protonated either on carbon to regenerate the starting keto tautomer or on oxygen to give an enol. [Pg.844]

An efficient access to 3-carboxy-2,5-disubstituted furans 64 has been developed. p-Keto esters are found to undergo an acid- or a base-catalyzed enolization and a subsequent intramolecular 1,4-addition to afford the desired furans in excellent yields. The carbonyl substituent can be further transformed to a vinylic substituent with a desired substitution pattern <00TL1347>... [Pg.143]

Base-catalyzed transformations can be carried out elsewhere on a complex molecule in the presence of such protected -dicarbonyl magnesium chelate. For example, the chelated magnesium enolate of a /3-ketoester such as 71 prevents the carbonyl keto group becoming an acceptor in aldol condensations. However, in the presence of excess of magnesium methanolate, exchange of the acetyl methyl protons can occur via a carbanion 72 stabilized by delocalization into the adjacent chelate system (equation 99). [Pg.493]

The carbon alpha to the carbonyl of aldehydes and ketones can act as a nucleophile in reactions with other electrophilic compounds or intermolecu-larly with itself. The nucleophilic character is imparted via the keto-enol tau-tomerism. A classic example of this reactivity is seen in the aldol condensation (41), as shown in Figure 23. Note that the aldol condensation is potentially reversible (retro-aldol), and compounds containing a carbonyl with a hydroxyl at the (3-position will often undergo the retro-aldol reaction. The aldol condensation reaction is catalyzed by both acids and bases. Aldol products undergo a reversible dehydration reaction (Fig. 23) that is acid or base catalyzed. The dehydration proceeds through an enol intermediate to form the a,(3-unsaturated carbonyl containing compound. [Pg.63]

See other pages where Base-catalyzed Keto-enol is mentioned: [Pg.1093]    [Pg.792]    [Pg.92]    [Pg.405]    [Pg.1042]    [Pg.1093]    [Pg.792]    [Pg.92]    [Pg.405]    [Pg.1042]    [Pg.587]    [Pg.105]    [Pg.253]    [Pg.843]    [Pg.297]    [Pg.711]    [Pg.670]    [Pg.101]    [Pg.288]    [Pg.467]    [Pg.288]    [Pg.199]    [Pg.297]    [Pg.230]    [Pg.62]   


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Enolization base catalyzed

Enolization keto-enol

Keto-enolates

Keto-enols

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