Condensation double, with aldehyde

The condensation of aldehydes and ketones with active hydrogen atoms is called Knoevenagel condensation. It is related to an aldol condensation and commonly is used to produce enones (a compound with a carbon-carbon double bond adjacent to a carbonyl). The process requires a weak base (an amine). A typical excimple and mechanism eire presented in Figure 15-22. 

The medicinal chemistry of Alzheimers is complicated by the fact that the etiology of this disease is still far from clear. Evidence points to an association with decreased levels of acetyl choline in the brain. Many of the drugs that have been introduced to date for treating this disease thus comprise agents intended to raise the deficient levels of that neurotransmitter by inhibiting the loss of existing acetylcholine due to the action of cholinesterase. A compound based on an indene that, perhaps surprisingly, inhibits that enzyme has been proposed for the treatment of Alzheimer s. Aldol condensation of piperidine aldehyde (4-2) with the indanone (4-1) from cyclization of 3,4-dimethoxycinnamic acid leads to the olefin (4-3). Catalytic reduction removes the double bond to afford donepezil (4-4) [3]. 

Imines are formed by condensation of aldehydes or ketones with primary amines, but they form with more difficulty than enamines.84,85 A special case of enamine preparation was described with 20-oxo-steroids.86 Treatment of these ketones with a primary amine gives a 20-ketimine, which is acetylated with acetic anhydride, with migration of the double bond and formation of 20-(A-acetylalkylamino)-J17(20)-pregnene (14) reduction of 14 with lithium aluminum hydride affords the enamine. 

We have examined a purely logical way in which the "Cram s rule problem" can be attacked — double stereodifferentiation. For example, either reactant in an aldol condensation can be chiral and exhibit diastereoface selectivity. Suppose we have an aldehyde which reacts with achiral enolates to give the two possible erythro adducts in a 10 1 ratio ... 

To capitalize on the concept of double stereodifferentiation as a method for enhancing mediocre diastereoface selectivity in aldol condensations of chiral aldehydes, we synthesized the chiral ethyl ketone shown below This compound shows good to excellent inherent diastereoface selectivity with achiral aldehydes The selectivity appears to increase dramatically with the steric demand of the group attached to the aldehyde carbonyl Thus, with pivalde-hyde and diacetaldehyde, only one aldol is produced The diastereoface selectivity in these two cases is at least 19 1 and 10 1, respectively (12)... 

Construction of the polyene chain first involves condensation of the aldehyde 2-2 with the yhde from treatment of the phosphonium salt 2-1 with phenyllithium (Scheme 6.2). The trans configuration of the new double bond in the product... 

On the basis of the proposed catalytic cycle, aldehyde 9 reacts with 1,3-indandione 178 by amine-catalyzed Knoevenagel condensation to provide the benzylidene-indandione B via iminium ion A, which is an excellent organic Lewis acid. This intermediate thns undergoes a Diels-Alder or a double Michael reaction with the soft nucleophile 2-amino-1,3-butadiene C generated in situ from enone 84 and the amine catalyst to produce the... 

In 2010, Dirk Trauner s group took aldol reaction as the key reaction to construct the core structure of Maoecrystal V [38]. This is the only group who did not use Diels-Alder reaction in the synthesis of [2.2.2] core structure of Maoecrystal V. They took compound 1.7.92 as the raw material, and after several condensation reactions they constmcted compound 1.7.97. In this way, after ozone cleaved the unsaturated double bond of intermediate 1.7.97, it formed aldehyde which reacted with hydroxyl of the side chain to form acetal strucmre and yielded compound 1.7.98. 

P-Hydroxy-a-naphthaldehyde, Equip a 1 litre three-necked flask with a separatory funnel, a mercury-sealed mechanical stirrer, and a long (double surface) reflux condenser. Place 50 g. of p-naphthol and 150 ml. of rectified spirit in the flask, start the stirrer, and rapidly add a solution of 100 g. of sodium hydroxide in 210 ml. of water. Heat the resulting solution to 70-80° on a water bath, and place 62 g. (42 ml.) of pure chloroform in the separatory funnel. Introduce the chloroform dropwise until reaction commences (indicated by the formation of a deep blue colour), remove the water bath, and continue the addition of the chloroform at such a rate that the mixture refluxes gently (about 1 5 hours). The sodium salt of the phenolic aldehyde separates near the end of the addition. Continue the stirring for a further 1 hour. Distil off the excess of chloroform and alcohol on a water bath use the apparatus shown in Fig. II, 41, 1, but retain the stirrer in the central aperture. Treat the residue, with stirring, dropwise with concentrated hydrochloric acid until... 

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... 

Reactions. Heating an aqueous solution of malonic acid above 70°C results in its decomposition to acetic acid and carbon dioxide. Malonic acid is a useful tool for synthesizing a-unsaturated carboxyUc acids because of its abiUty to undergo decarboxylation and condensation with aldehydes or ketones at the methylene group. Cinnamic acids are formed from the reaction of malonic acid and benzaldehyde derivatives (1). If aUphatic aldehydes are used acryhc acids result (2). Similarly this facile decarboxylation combined with the condensation with an activated double bond yields a-substituted acetic acid derivatives. For example, 4-thiazohdine acetic acids (2) are readily prepared from 2,5-dihydro-l,3-thiazoles (3). A further feature of malonic acid is that it does not form an anhydride when heated with phosphorous pentoxide [1314-56-3] but rather carbon suboxide [504-64-3] [0=C=C=0], a toxic gas that reacts with water to reform malonic acid. 

Reactions. The chemical properties of cyanoacetates ate quite similar to those of the malonates. The carbonyl activity of the ester function is increased by the cyano group s tendency to withdraw electrons. Therefore, amidation with ammonia [7664-41-7] to cyanoacetamide [107-91-5] (55) or with urea to cyanoacetylurea [448-98-2] (56) proceeds very easily. An interesting reaction of cyanoacetic acid is the Knoevenagel condensation with aldehydes followed by decarboxylation which leads to substituted acrylonitriles (57) such as (29), or with ketones followed by decarboxylation with a shift of the double bond to give P,y-unsaturated nitriles (58) such as (30) when cyclohexanone [108-94-1] is used. 

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