6-Keto aldehydes

Several 1,4-dicarbonyl compounds are prepared based on this oxidation. Typically, the 1,4-diketone 10 or the 1,4-keto aldehyde 12 can be prepared by the allylation of a ketone[24] or aldehyde[61,62], followed by oxidation. The reaction is a good annulation method for cyclopentenones (11 and 13). Syntheses of pentalenene[78], laurenene[67], descarboxyquadrone[79], muscone (14 R = Me)[80]) and the coriolin intermediate 15[71] have been carried out by using allyl group as the masked methyl ketone (facing page). 

Give the structure of the product denved by intramolecular aldol condensation of the keto aldehyde shown... 

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. 

A new, versatile and selective synthesis of 6- and 7-substituted pteridines was reported by Rosowsky (73JOC2073). /3-Keto sulfoxides, which can be viewed as latent a keto aldehydes, react with (251) to give 6-substituted pterins, and the use of a-keto aldehyde hemithioacetals leads in a regiospecific synthesis to the isomeric 7-substituted pterins (equation 85). 

Though the dialdehyde-tropinone synthesis does not succeed when the dialdehyde is replaced by a diketone, Blount and Robinson have shown that 1-methyltropinone (XXXV) can be obtained by the interaction of the keto-aldehyde, laevulinaldehyde. Me. CO. CH. CH. CHO, with methylamine and calcium acetonedicarboxylate, and from this by reduction to 1-methyl- -tropine and benzoylation, 1-methyl tropacocaine (b.p. 210°/15 mm. picrate, m.p. 163-4°) has been prepared. 

Aldehyde (139a) was synthesized independently from (141) by ozonolysis followed by ring closure of the seco-keto-aldehyde (140). 

The most important routes to B-norsteroids involve oxidative fission of 5,6-double bonds to keto acids or keto aldehydes which are then closed to five-membered rings by condensation reactions. Three of the best oxidation methods are exemplified in the following examples chosen from the cholestane, androstane, and pregnane series. 

Ring contraction by ozonization of steroids—cyclization of keto aldehydes... 

Because aldehydes react with aminofluorosulfuranes more readily than ketones, keto aldehydes can be selectively fluorinated at the formyl group [94, 183] Haloacetaldehydes react with DAST to give bis(l-fluorohaloethyl) ethers as the only or main products [170] (equation 96)... 

Aldehyde enamines react with aromatic diazonium salts in two ways, depending on the degree of substitution at the enamine earbon (130). Thus the piperidine enamine of butyraldehyde (60) reacted with p-nitrophenyl-diazonium chloride to give the p-nitrophenylhydrazone of the a-keto aldehyde (190). 

The Combes reaction is a sequence of the following reactions (a) condensation of an arylamine 1 with a 1,3-diketone, keto-aldehyde or dialdehyde 2 providing enamine 3, and (b) cyclodehydration to provide quinoline 4. 

Petrow described the formation of 3-iminoketones from 3-keto-aldehydes and aniline. Cyclization in the presence of aniline hydrochloride and ZnCh smoothly provides the desired quinoline 26. Bis-imine 24 is the proposed intermediate that undergoes cyclization. The aldimine is more reactive than the ketimine toward cyclization thus, cyclization on the aldimine occurs. When the bis-imine is not formed, partial aniline migration can occur which results in mixtures of cyclized products. 

We have previously discussed that keto-aldehydes react with anilines first at the aldehyde carbon to form the aldimine. Subsequent condensation with another aniline formed a bis-imine or enamino-imine. The aniline of the ketimine normally cyclizes on the aldimine (24 —> 26). Conversely, cyclization of the aldimine could be forced with minimal aniline migration to the ketimine using PPA (30 —> 31). The use of unsymmetrical ketones has not been thoroughly explored a few examples are cited below. One-pot enamine formation and cyclization occurred when aniline 48 was reacted with dione 49 in the presence of catalytic p-TsOH and heat. Imine formation occurred at the less-hindered ketone, and cyclization with attack on the reactive carbonyl was preferred. ... 

The yield of pyrido[2,3-d]pyrimidine has been shown to be significantly reduced when unsubstituted keto aldehydes are used. 

Reaction of tryptamine with simple ketones has not been widely explored. Acetone in the presence of benzoyl chloride has been reported to yield 2-benzoyl-1,1 -dimethyl-1,2,3,4-tetrahydro-j8-carbo-line. That the keto group is much less reactive than the aldehyde group is indicated by the fact that j8-keto aldehydes, in the form of their acetals or sodium salts, react with tryptamine at the aldehyde function to yield the conjugated enamine 24, which undergoes ring closure via an intramolecular Michael addition. The potentialities of this interesting modification of the Pictet-Spengler reaction have not yet been fuUy explored. 

To synthesize 3-substituted isoxazoles directly, Kochetkov and Khomutova have used the reaction of ethyleneacetals of )S-keto-aldehydes (readily available from jS-chlorovinylketones) with hydroxylamine. Owing to the comparative stability of the dioxolane group, this reaction yields unequivocally the pure 3-substituted isomers (22—>23). The use of noncyclic alkyl )S-ketoacetals in this reaction results in a mixture of 3- and 5-substituted isomers. ... 

In addition to the glycol, a compound, Cj H Oj, was formed, which Semmler and Hoffman regard as a keto aldehyde, or a diketone, of specific gravity 1-055. 

Carboxylic esters can be treated with ketones to give p-diketones in a reaction that is essentially the same as 10-118. The reaction is so similar that it is sometimes also called the Claisen condensation, though this usage is unfortunate. A fairly strong base, such as sodium amide or sodium hydride, is required. Yields can be increased by the catalytic addition of crown ethers. Esters of formic acid (R H) give P-keto aldehydes. Ethyl carbonate gives P-keto esters. 

Other carbanionic groups, such as acetylide ions, and ions derived from a-methylpyridines have also been used as nucleophiles. A particularly useful nucleophile is the methylsulfinyl carbanion (CH3SOCHJ), the conjugate base of DMSO, since the P-keto sulfoxide produced can easily be reduced to a methyl ketone (p. 549). The methylsulfonyl carbanion (CH3SO2CH2 ), the conjugate base of dimethyl sulfone, behaves similarly, and the product can be similarly reduced. Certain carboxylic esters, acyl halides, and DMF acylate 1,3-dithianes (see 10-10. )2008 Qxj(jatjye hydrolysis with NBS or NCS, a-keto aldehydes or a-... 

Formylation of alkenes can be accomplished with N-disubstituted formamides and POCl3. ° This is an aliphatic Vilsmeier reaction (see 11-15). Vilsmeier formylation can also be performed on the ot position of acetals and ketals, so that hydrolysis of the products gives keto aldehydes or dialdehydes ... 

The obvious Vfittig disconnection gives stabilised ylid (5fi) and keto-aldehyde (57). We have used many such long-chain dicarbonyl compounds in this Chapter and they are mostly produced from available alkenes by oxidative cleavage (e.g. ozonolysis). In this case, cyclic alkene (58) is the right starting material, and this can be made from alcohol (59) by elimination,... 

Attempted intermolecular cross-benzoin reactions typically generate a thermodynamically controlled mixture of products [50], although several groups including Enders [51], Suzuki [52] and You [53] have utilised catalysts 116-118 for the intramolecular crossed benzoin of keto-aldehydes (Scheme 12.22). 

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