Ketones, 3-hydroxy aldol reaction

The aldol reaction is a carbonyl condensation that occurs between two aldehyde or ketone molecules. Aldol reactions are reversible, leading first to a /3-hydroxy aldehyde or ketone and then to an cr,/6-unsaturated product. Mixed aldol condensations between two different aldehydes or ketones generally give a mixture of all four possible products. A mixed reaction can be successful, however, if one of the two partners is an unusually good donor (ethyl aceto-acetate, for instance) or if it can act only as an acceptor (formaldehyde and benzaldehyde, for instance). Intramolecular aldol condensations of 1,4- and 1,5-diketones are also successful and provide a good way to make five-and six-inembered rings. 

Phenyliodine(III) bis(trifluoro-acetate), 241 Potassium hydride, 257 (3-Hydroxy aldehydes and ketones By aldol reactions Bis(2-pyridinethiolato)tin(II), 40 Boron trichloride, 43 Formaldehyde, 136... 

The aldol reaction is a carbonyl condensation that occurs between two aldehyde or ketone molecules. Aldol reactions are reversible, leading first to /3-hydroxy aldehydes/ketones and then to a,/8-unsaturated products after dehydration. Intramolecular aldol condensations of 1,4- and 1,5-diketones are also successful and provide a good way to make five- and six-membered rings. 

Cleavage reactions of carbohydrates also occur on treatment with aqueous base for prolonged periods as a consequence of base catalyzed retro aldol reactions As pointed out m Section 18 9 aldol addition is a reversible process and (3 hydroxy carbonyl com pounds can be cleaved to an enolate and either an aldehyde or a ketone... 

Formaldehyde condenses with itself in an aldol-type reaction to yield lower hydroxy aldehydes, hydroxy ketones, and other hydroxy compounds the reaction is autocatalytic and is favored by alkaline conditions. Condensation with various compounds gives methylol (—CH2OH) and methylene (=CH2) derivatives. The former are usually produced under alkaline or neutral conditions, the latter under acidic conditions or in the vapor phase. In the presence of alkahes, aldehydes and ketones containing a-hydrogen atoms undergo aldol reactions with formaldehyde to form mono- and polymethylol derivatives. Acetaldehyde and 4 moles of formaldehyde give pentaerythritol (PE) ... 

The addition of the a-carbon of an enolizable aldehyde or ketone 1 to the carbonyl group of a second aldehyde or ketone 2 is called the aldol reaction It is a versatile method for the formation of carbon-carbon bonds, and is frequently used in organic chemistry. The initial reaction product is a /3-hydroxy aldehyde (aldol) or /3-hydroxy ketone (ketol) 3. A subsequent dehydration step can follow, to yield an o ,/3-unsaturated carbonyl compound 4. In that case the entire process is also called aldol condensation. 

If the initially formed /3-hydroxy carbonyl compound 3 still has an a-hydrogen, a subsequent elimination of water can take place, leading to an o ,/3-unsaturated aldehyde or ketone 4. In some cases the dehydration occurs already under the aldol reaction conditions in general it can be carried out by heating in the presence of acid ... 

An aldol reaction combines two molecules of reactant by forming a bond between the a- carbon of one partner and the carbonyl carbon of the second partner. The product is a /3-hydroxy aldehyde or ketone, meaning that the two oxygen atoms in the product have a 1,3 relationship. 

The jS-hydroxy aldehydes or ketones formed in aldol reactions can be easily dehydrated to yield a -unsaturated products, or conjugated enones. In fact, it s this loss of water that gives the condensation reaction its name, because water condenses out of the reaction when the enone product forms. 

The aldol reaction yields either a /3-hydroxy aldehyde/ketone or an a, 3-unsatu-rated aldehyde/ketone, depending on the experimental conditions. By learning how to think backward, it s possible to predict when the aldol reaction might be useful in synthesis. Whenever the target molecule contains either a /3-hydroxy aldehyde/ketone or a conjugated enone functional group, it might come from an aldol reaction. 

Fructose, a /3-hydroxy ketone, is then cleaved into two three-carbon molecules—one ketone and one aldehyde—by a reverse aldol reaction. Still further carbonyl-group reactions then occur until pyruvate results. 

Aldol reaction (Section 23.1) The carbonyl condensation reaction of an aldehyde or ketone to give a jS-hydroxy carbonyl compound. 

In a similar way. ft-keto imide 19 undergoes stereodivergenl aldol reactions. Thus, conversion of 19 into the tin enolate, and subsequent addition of aldehydes, give predominantly the diastereomers 20. On the other hand, hydroxy ketones 21 are the main products when the chlorotitanium enolate of 19 is reacted with aldehydes53. ... 

The product is a P-hydroxy aldehyde (called an aldol) or ketone, which in some cases is dehydrated during the course of the reaction. Even if the dehydration is not spontaneous, it can usually be done easily, since the new double bond is in conjugation with the C=0 bond so that this is a method of preparing a,P-unsaturated aldehydes and ketones as well as P-hydroxy aldehydes and ketones. The entire reaction is an equilibrium (including the dehydration step), and a,P-unsaturated and P-hydroxy aldehydes and ketones can be cleaved by treatment with OH (the retrograde aldol reaction). There is evidence that an SET mechanism can intervene when the substrate is an aromatic ketone. ... 

Nitrile oxides are usually prepared via halogenation and dehydrohalogenation of aldoximes [11] or via dehydration of primary nitro alkanes (Scheme 1) [12]. However, it is important to note that nitrile oxides are relatively unstable and are prone to dimerization or polymerization, especially upon heating. 1,3-Dipolar cycioaddition of a nitrile oxide with a suitable olefin generates an isoxazoline ring which is a versatile synthetic intermediate in that it provides easy access to y-amino alcohols, )5-hydroxy ketones, -hydroxy nitriles, unsaturated oximes, and a host of other multifunctional molecules (Scheme 1) [5a]. Particularly for the formation of )5-hydroxy ketones, nitrile oxide-olefin cycioaddition serve as an alternative to the Aldol reaction. 

Reagents are available nowadays for acyl anions other than (4). Thus when Heathcock made the ketone (16), which he used in stereoselective aldol reactions, he needed a-hydroxy ketone (17), This required synthon (18) for which an acetylene is not a good choice as there are as yet no means of controlling the reglo-selectivity of hydration of (19). 

This finding is also in agreement with another three-component Michael/aldol addition reaction reported by Shibasaki and coworkers [14]. Here, as a catalyst the chiral AlLibis[(S)-binaphthoxide] complex (ALB) (2-37) was used. Such hetero-bimetallic compounds show both Bronsted basicity and Lewis acidity, and can catalyze aldol [15] and Michael/aldol [14, 16] processes. Reaction of cyclopentenone 2-29b, aldehyde 2-35, and dibenzyl methylmalonate (2-36) at r.t. in the presence of 5 mol% of 2-37 led to 3-hydroxy ketones 2-38 as a mixture of diastereomers in 84% yield. Transformation of 2-38 by a mesylation/elimination sequence afforded 2-39 with 92 % ee recrystallization gave enantiopure 2-39, which was used in the synthesis of ll-deoxy-PGFla (2-40) (Scheme 2.8). The transition states 2-41 and 2-42 illustrate the stereochemical result (Scheme 2.9). The coordination of the enone to the aluminum not only results in its activation, but also fixes its position for the Michael addition, as demonstrated in TS-2-41. It is of importance that the following aldol reaction of 2-42 is faster than a protonation of the enolate moiety. 

As practiced in the preceding syntheses by Evans and Nishiyama and Yamamura, the A-ring fragment 43 is formed through substrate-directed vinylogous aldol reaction of the Brassard-type diene 19 and the chiral aldehyde 42, which is prepared using Brown s protocols for enantioselective allylation [53], followed by hydroxy-directed nnn-diastereoselective reduction of the C3 ketone (Me4NB(OAc)3H) [41],... 

Unfortunately, upon treating hydroxy ketone 56 with MeLi for extended reaction times, some sort of fragmentation reaction appeared to occur (Scheme 8.15). While the desired addition product 63 was not seen, the fragmentation that took place may be attributed to a retro-aldol reaction through intermediates such as 60 and 61. The tentatively assigned structure of final product 62 is shown, although it was not fully... 

As a kind of nucleophilic addition reaction similar to the Grignard reaction, the Reformatsky reaction can afford useful ft-hydroxy esters from alkyl haloacetate, zinc, and aldehydes or ketones. Indeed, this reaction may complement the aldol reaction for asymmetric synthesis of //-hydroxy esters. 

LA represents Lewis acid in the catalyst, and M represents Bren sled base. In Scheme 8-49, Bronsted base functionality in the hetero-bimetalic chiral catalyst I can deprotonate a ketone to produce the corresponding enolate II, while at the same time the Lewis acid functionality activates an aldehyde to give intermediate III. Intramolecular aldol reaction then proceeds in a chelation-controlled manner to give //-keto metal alkoxide IV. Proton exchange between the metal alkoxide moiety and an aromatic hydroxy proton or an a-proton of a ketone leads to the production of an optically active aldol product and the regeneration of the catalyst I, thus finishing the catalytic cycle. 

---