Carbonyl component

The usual base or acid catalyzed aldol addition or ester condensation reactions can only be applied as a useful synthetic reaction, if both carbonyl components are identical. Otherwise complicated mixtures of products are formed. If two different aldehydes or esters are to be combined, it is essential that one of the components is transformed quantitatively into an enol whereas the other component remains as a carbonyl compound in the reaction mixture. 

Hydrazones are formed from mono- and Ai,A/-disubstituted hydrazines. Hydrazine itself can give either hydrazones or azines, depending mainly on the ratio of carbonyl component to hydrazine. The ease of formation of these compounds depends on the nature of the carbonyl constituent ... 

Conra.d-Limpa.ch-KnorrSynthesis. When a P-keto ester is the carbonyl component of these pathways, two products are possible, and the regiochemistry can be optimized. Aniline reacts with ethyl acetoacetate below 100°C to form 3-anilinocrotonate (14), which is converted to 4-hydroxy-2-methylquinoline [607-67-0] by placing it in a preheated environment at 250°C. If the initial reaction takes place at 160°C, acetoacetanilide (15) forms and can be cyclized with concentrated sulfuric acid to 2-hydroxy-4-methylquinoline [607-66-9] (49). This example of kinetic vs thermodynamic control has been employed in the synthesis of many quinoline derivatives. They are useful as intermediates for the synthesis of chemotherapeutic agents (see Chemotherapeuticsanticancer). 

Experimental evidence, obtained in protonation (3,6), acylation (1,4), and alkylation (1,4,7-9) reactions, always indicates a concurrence between electrophilic attack on the nitrogen atom and the -carbon atom in the enamine. Concerning the nucleophilic reactivity of the j3-carbon atom in enamines, Opitz and Griesinger (10) observed, in a study of salt formation, the following series of reactivities of the amine and carbonyl components pyrrolidine and hexamethylene imine s> piperidine > morpholine > cthyl-butylamine cyclopentanone s> cycloheptanone cyclooctanone > cyclohexanone monosubstituted acetaldehyde > disubstituted acetaldehyde. 

A primary or secondary amine can be used, as well as ammonia. With respect to the carbonyl component used, the best results have been obtained with aromatic aldehydes and with high boiling ketones. 

For the Skraup synthesis, glycerol 2 is used as starting material in the presence of concentrated sulfuric acid (see scheme above) it is dehydrated to acrolein 6. Although it is assumed that the reactive carbonyl component in the Skraup reaction actually is acrolein, attempts to use acrolein directly, instead of glycerol, proved to be unsuccessful." ... 

Quinolines substituted at the pyridine ring may be obtained by using a substituted a ,/3-unsaturated aldehyde or ketone instead of the glycerol as starting material. However often a large amount of the carbonyl component polymerizes under the reaction conditions. 

Show how the Wittig reaction might be used to prepare the following alkencs. Identify the alkyl halide and the carbonyl components that would be used. 

Until now, we ve considered only symmetrical aldol reactions, in which the two carbonyl components have been the same. What would happen, though, if a mixed aldol reaction were carried out between two different carbonyl partners ... 

In the mixed Claisen reaction of cyclopentanone with ethyl formate, a much higher yield of the desired product is obtained by first mixing the two carbonyl components and then adding base, rather than by first mixing base with cyclopentanone and then adding ethyl formate. Explain. 

A general preparation of 2-acetonyl-2,4,6-triaryl-2//-thiopyrans 58 was discovered in the reaction of corresponding 2,4,6-triarylthiopyrylium perchlorates with ethanolic acetone catalyzed with various dialkylammonium salts (86GEP235455, 86JPR573). This preparative procedure was successfully extended to cyclohexane- and cyclopentane- 1,2-diones as the carbonyl components (89JPR853 90GEP280324). The action of bases on thiopyrylium salts may caused their dimerization to thiopyranyl derivatives under suitable conditions (89KGS479). 

With prostereogenic carbonyl components, the problem of simple diastereoselectivity arises, which is unsatisfactorily solved at present21. Both the intermediate alkoxides rearrange by migration of the carbonyl group at a different rate21 22, which might be used for the enrichment of one diastereomer. 

The addition of the dianion of /j-sulfmylcarboxylic acids to carbonyl compounds leads to the formation of the corresponding hydroxy derivatives which undergo spontaneous eyclization to give y-lactones. It was found that when optically active ( + )-(/ )-3-(4-methylphenylsulfinyl)pro-panoic acid is used for the reaction, the corresponding diastereomeric /i-sulfinyl-y-lactones are formed in a ratio which is dependent on the substituents of the carbonyl component. However, the diastereoselectivity was always moderate. 

The reactions differ in the nature of the active hydrogen component and the carbonyl component. Table 16.1 illustrates the differences. Reaction 16-49 is an analogous reaction involving addition to C=N. 

Reaction Component Carbonyl Component Subsequent Reaction... 

Enantioselective Catalysis of the Aldol Addition Reaction. There are also several catalysts that can effect enantioselective aldol addition. The reactions generally involve enolate equivalents, such as silyl enol ethers, that are unreactive toward the carbonyl component alone, but can react when activated by a Lewis acid. The tryptophan-based oxazaborolidinone 15 has proven to be a useful catalyst.148... 

These reactions presumably proceed by catalytic cycles in which the carbonyl component is silylated. The silyl ether can then act as a nucleophile, and an oxonium ion is generated by elimination of a disilyl ether. The reduction of the oxonium ion regenerates the silyl cation, which can continue the catalytic cycle. 

The best carbonyl components for these reactions are highly electrophilic compounds such as glyocylate, pyruvate, and oxomalonate esters, as well as chlorinated and fluorinated aldehydes. Most synthetic applications of the carbonyl-ene reaction utilize Lewis acids. Although such reactions may be stepwise in character, the stereochemical outcome is often consistent with a cyclic TS. It was found, for example, that steric effects of trimethylsilyl groups provide a strong stereochemical influence.28... 

Thirteen different chiral diol ligands were used (Scheme 25), leading to a catalyst library of 104 members.121 In a model reaction benzaldehyde (51), (R = Ph) was used as the carbonyl component, HPLC being used to ascertain the enantiopurity of (92). Initially 1 mol.% of catalyst was used. In the primary screening catalysts modified by L4, L5, L6, and L7 turned out to be excellent (77-96% ee yields 63-100%). Thereafter the catalyst loading of Lm/Ti/Lra (m, n = A-l) was decreased to 0.1 mol.%, but this led to only trace amounts of product. Finally, the solvent was... 

This procedure illustrates a fundamentally new method for constructing substituted tetrahydrofurans.5-10 This practical method assembles the tetrahydrofuran ring from allylic diol and carbonyl components and in the process forms three ring bonds C(2)-C(3), C(4)-C(5) and 0-C(5). Both aldehydes (eq 1) and ketones (illustrated in the present procedure) can be employed as the carbonyl component. Although it is often convenient to isolate the acetal intermediate, conversion to the 3-acyltstrahydrofuran can also be accomplished in many cases by the direct reaction of the diol and carbonyl components.8 High ds stereoselectivity (at least 20 1) is observed in the preparation of tetrahydrofurans that contain single side chains at carbons 2 and 5 (eq 1). The kinetically controlled product also has the cis relationship of these side chains and the 3-acyl substituent. 

In terms of synthetic methodologies for the preparation of porphyrinic azomethine ylides, the porphyrin moiety, in the examples above, was the carbonyl component. However, there are also examples where the porphyrin is used as the a-amino acid component. 

Cationic cobalt(m) complexes have successfully been applied to the asymmetric carbonyl-ene reaction.15 The yield and enantioselectivity were dependent, to a large extent, upon the counterion, with SbF6- giving the best results (16, Equation (9)). The conditions were general for a variety of alkenes, but only glyoxaldehydes were used as the carbonyl component. 

The first cyclization of a-hydroxyalkoxyallenes goes back to the pioneering experiments of Brandsma, Hoff and Arens, who found that dihydrofuran derivatives 102 are formed by treatment of 101 with KOtBu in DMSO (Scheme 8.26) [12c], This reaction protocol was successfully applied by others [61, 63, 64, 80-83], for example in the preparation of spiro compound 104 (Eq. 8.19) [83] and in the cyclization of 64 leading to a-amino acid-derived dihydrofurans 105 (Scheme 8.27) [61, 63], Acidic hydrolysis of dihydrofurans furnished 3(2H)-dihydrofuranones, which could be used again as carbonyl components in the repetitive addition of lithiated methoxyal-lene 42. This concept was employed in syntheses of racemic [82] and enantiomeri-cally pure [64] primary helical spirocycles. 

In almost the same manner, tandem hydroformylation/aldol condensation aldol condensation of ketoolefins, such as p,y-unsaturated ketones, gives a single cyclization product under acid catalysis. Similar to the stepwise reaction, the in situ generated aldehyde preferentially acts as the electrophilic carbonyl component, while the ketone acts as the nucleophilic enol to form the five-membered ring product. Subsequent dehydration and hydrogenation of the resulting enone readily occurs under the reductive reaction conditions used (Scheme 30) [84],... 

The method outlined here competes well with the method developed earlier by Danheiser, et al.618 Its superiority is based on the fact that phenyl ester enolates give almost the same results as the S-phenyl thiolester enolates. However, handling the malodorous benzenethiol for the preparation of the active acid derivative and during workup of the p-lactone can be avoided. In addition, phenol is much cheaper than benzenethiol. The method is well suited for the preparation of p-lactones from symmetrical and unsymmetrical ketones. In addition to 3,3-dimethyM-oxaspiro[3.5]nonan-2-one, ( )-3-ethyl-1-oxaspiro[3.5]nonan-2-one and (3R, 4R )- and (3R, 4S )-4-isopropyl-4-methyl-3-octyl-2-oxetanone were prepared by this procedure in high yields (Notes 11 and 12). In the case of unsymmetrical ketones the less sterically crowded diasteroisomer is formed preferentially. With aldehydes as the carbonyl component the yields are unsatisfactory, because of the competitive formation of 1,3-dioxan-4-ones.6... 

Usually, the component that forms the enamine is called aldol donor, and the electrophilic carbonyl component is called acceptor (Scheme 14). 

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