1,3-Dicarbonyl compounds products

D-Aldose 1,3-Dicarbonylic compound Product Catalyst Yield (%) References... 

The synthesis of pyrazolcs starting from a hydrazine and a 1,3-dicarbonyl compound is a well established reaction in organic synthesis. If a mono-suhstituted hydrazine is reacted with an unsymmctrically substituted 1,3-dicarbonyl compound, two different pyrazole products which arc regioisomers could he formed (sec figure 10.3-2). 

Conventional synthetic schemes to produce 1,6-disubstituted products, e.g. reaction of a - with d -synthons, are largely unsuccessful. An exception is the following reaction, which provides a useful alternative when Michael type additions fail, e. g., at angular or other tertiary carbon atoms. In such cases the addition of allylsilanes catalyzed by titanium tetrachloride, the Sakurai reaction, is most appropriate (A. Hosomi, 1977). Isomerization of the double bond with bis(benzonitrile-N)dichloropalladium gives the y-double bond in excellent yield. Subsequent ozonolysis provides a pathway to 1,4-dicarbonyl compounds. Thus 1,6-, 1,5- and 1,4-difunctional compounds are accessible by this reaction. 

Insertion Reactions. Isocyanates also may undergo iasertion reactions with C—H bonds. Acidic compounds, such as 1,3-dicarbonyl compounds (6), react readily at room temperature to form carboxyamides. At higher temperatures carboxyamides frequentiy undergo secondary reactions leading to cyclized products (33,34). 

Recently, various monosaccharides have been employed as a source of 1,4-dicarbonyl compounds for pyridazine syntheses 70CB1846, 74CPB1732, 75JHC957). Moreover, diacylcyc-lopropanes have been also reported to give pyridazines the bicyclic products are transformed by P4S10 into the corresponding 3-thioxopyridazines 80JHC541). 

In contrast to the 3-substituted products above, 4-chloro-, 4-bromo- and 4-iodo-isoxazoles are readily prepared by direct halogenation of the corresponding isoxazoles, from 4-isoxazolediazonium salts by the Sandmeyer reaction, or by reaction of hydroxylamine with a-halo- 8-dicarbonyl compounds (62HC(l7)l, p. 66, 63AHC(2)365). 3,5-Bis(dimethyl-amino)-4-fluoroisoxazole has been synthesized by reaction of (Me2NCO)2CHF with hydroxylamine (78BSB391). 

One-electron reduction of a-dicarbonyl compounds gives radical anions known as setnidiones. Closely related are the products of one-electron reduction of aromatic quinones, the semiquinones. Both semidiones and semiquinones can be protonated to give neutral radicals which are relatively stable. 

The chloride of triflic acid (trifluoromethanesulfonyl chloride) is an effective sulfonylating agent Like triflic anhydride, it usually reacts with alcohols and other nucleophiles with the formation of the corresponding derivatives of tnflic acid [69] However, in some reactions, it acts as a chlorinating reagent [98] The reactions of tnfluoromethanesulfonyl chloride with 1,3-dicarbonyl compounds or some carboxylic esters in the presence of a base result m the formation of chlonnated products in high yields (equation 49)... 

Several variations of the Feist-Benary reaction furnish substituted furans as products. The following three examples provide synthetically useful alternatives to the standard reaction conditions. One method is based on the reaction of a sulfonium salt with a P-dicarbonyl compound. For example, reaction of acetylacetone (39) with sulfonium salt 38 in the presence of sodium ethoxide yields 81% of trisubstituted furan 40. This strategy provides a flexible method for the preparation of 2,3,4-trisubstituted furans. 

The reaction of diketosulfides with 1,2-dicarbonyl compounds other than glyoxal is often not efficient for the direct preparation of thiophenes. For example, the reaction of diketothiophene 24 and benzil or biacetyl reportedly gave only glycols as products. The elimination of water from the P-hydroxy ketones was not as efficient as in the case of the glyoxal series. Fortunately, the mixture of diastereomers of compounds 25 and 26 could be converted to their corresponding thiophenes by an additional dehydration step with thionyl chloride and pyridine. 

Because of the potential for the formation of two product isomers from the reactions of hydrazines with unsymmetrical dicarbonyl compounds and the resulting difficulty in separations, many efforts have been reported in the literature to enhance the selectivity of... 

The Pictet-Spengler reaction is one of the key methods for construction of the isoquinoline skeleton, an important heterocyclic motif found in numerous bioactive natural products. This reaction involves the condensation of a P-arylethyl amine 1 with an aldehyde, ketone, or 1,2-dicarbonyl compound 2 to give the corresponding tetrahydroisoquinoline 3. These reactions are generally catalyzed by protic or Lewis acids, although numerous thermally-mediated examples are found in the literature. Aromatic compounds containing electron-donating substituents are the most reactive substrates for this reaction. 

The anion of A-nitromethyIphthalimide 17 also acts as a formyl anion equivalent with Michael acceptors to afford 1,4-dicarbonyl compounds 18 in good to excellent yields, although difficulty was experienced in isolating the products under the conditions required for removal of the phthalimide group (77CJC2919). 

Another important application is the acylation of enamines 1 with an acyl chloride 9 to give a 1,3-dicarbonyl compound as final product ... 

The high acidity of ct-nitroketones makes it possible to perform the Henry reacdons or Michael addidons under extremely rruld condidons The reacdon proceeds in the presence of catalydc amounts of Ph-vP to give the C-C bond formadon products under nearly neutral condidons Thus, 1,5-dicarbonyl compounds and ct-methylenecarbonyl compounds are prepared by the denitradon of ct-nitroketones, as shown in Eqs 7 67 and 7 68, respecdvely... 

The best Michael reactions are those that take place when a particularly stable enolate ion such as that derived from a /i-keto ester or other 1,3-dicarbonyl compound adds to an unhindered a,/3-unsaturated ketone. Tor example, ethyl acetoacetate reacts with 3-buten-2-one in the presence of sodium ethoxide to yield the conjugate addition product. 

In azo couplings with carbonyl compounds, three tautomeric products are possible, compared with only two for phenols and aromatic amines (discussed in Section 12.1). The ketohydrazone 12.75 is most often dominant, but for easily enolizable 1,3-dicarbonyl compounds (X=CO-R and similar structures) the azoenol 12.76 is the major product. The azoketone 12.77 is often postulated as primary product, but has rarely been identified in an unambiguous fashion using modern methods. The CH2 group should be easily detectable in the lH NMR spectrum. 

De Bruijn et al.26 30 used chromatographic and spectroscopic techniques to analyze the effect of reaction variables (such as pH and monosaccharide concentration) on the product profile and developed a reaction model (see Fig. 9) that emphasized the role of a-dicarbonyl compounds. Some of the features of the model shown in Fig. 9 are ... 

The use of microwaves for the preparation of aromatic five-membered heterocycles has been intensely investigated with excellent results in terms of yields and purities of the products prepared. The Paal-Knorr reaction, namely the cyclocondensation of a 1,4-dicarbonyl compound to give furans, pyrroles and thiophenes has been successfully carried out with the aid of microwaves. 

The synthesis of imidazoles is another reaction where the assistance of microwaves has been intensely investigated. Apart from the first synthesis described since 1995 [40-42], recently a combinatorial synthesis of 2,4,5-trisubstituted and 1,2,4,5-tetrasubstituted imidazoles has been described on inorganic solid support imder solvent-free conditions [43]. Different aldehydes and 1,2 dicarbonyl compounds 42 (mainly benzil and analogues) were reacted in the presence of ammonium acetate to give the trisubstituted ring 43. When a primary amine was added to the mixture, the tetrasubstituted imidazoles were obtained (Scheme 13). The reaction was done by adsorption of the reagent on a solid support, such as silica gel, alumina, montmorillonite KIO, bentonite or alumina followed by microwave irradiation for 20 min in an open vial (multimode reactor). The authors observed that when a non-acid support was used, addition of acetic acid was necessary to obtain good yields of the products. 

Example The lactone (8>, needed for a natural product synthesis, might be made from (6) via epoxide (7) and so a synthesis for (6) was required. Wittlg disconnection reveals a 1,5-dicarbonyl compound (9), best made by Michael addition of a substituted malonate (11) to enone (10). The enone was made by the simple but reliable Grignard route rather than risking a Mannich reaction of unknown regloselectivity. 

Eaone disconnection (8a) reveals 1,4-dicarbonyl compound S)best disconnected at the central bond (a) to sever the longer chain from the ring. Aldehyde (11) is a D els-Alder product. d - ysis... 

Efforts were made by Garcia Gonzalez and his coworkers to elucidate the mechanism of this reaction. In one of the working hypotheses, it was considered that the aldehydo form of the sugar and the 1,3-dicarbonyl compound undergo an aldol reaction to yield a 2-C-(alditol-l-yl)-l,3-dicar-bonyl compound, which is then dehydrated to form the furan. This hypothesis was supported by the isolation of the aldol-addition product of... 

P 38] Ethanol solutions of ethyl propiolate and diisopropylethylamine were pumped via electroosmotic flow through the micro channels of the reactor [8], By mixing thereof the enolate was obtained. By subsequent contacting with the 1,3-dicarbonyl compound, the product was obtained. The temperature was set to room temperature. In a period of 20 min a volume sufficiently large for analysis was sampled. The reaction product spectra was analyzed by GC/MS via comparison with synthetic standards. The remaining amount of diketone was used for calculating conversions. 

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