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Hydroxy aldehyde reactions

Hoesch synthesis A variation of the Gattermann synthesis of hydroxy-aldehydes, this reaction has been widely applied to the synthesis of anthocyanidins. It consists of the condensation of polyhydric phenols with nitriles by the action of hydrochloric acid (with or without ZnCl2 as a catalyst). This gives an iminehydrochloride which on hydrolysis with water gives the hydroxy-ketone. [Pg.205]

The Reformatsky Reaction consists of the interaction of an ester of an a-halogeno-acid with an aldehyde, a ketone or another ester in the presence of zinc. For example, if a mixture of ethyl bromoacetate and benzaldehyde is heated with zinc, the latter undoubtedly first combines with the ethyl bromoacetate to form a Grignard-like reagent (reaction A), which then adds on to the benzaldehyde Just as a Grignard reagent would do (reaction B). The complex so formed, on acidification gives ethyl p-phenyl-p-hydroxy-propionate (reaction C). Note that reaction A could not satisfactorily be carried out using... [Pg.286]

This reaction, applicable only to the preparation of hydroxy-aldehydee, is alternative to the Gattermann aldehyde reaction (or the Adams modification of it) given under 4. The yields are usually smaller, but a large quantity of the phenol may be recovered. The following mechanism is consistent with the known facts ... [Pg.692]

The polyhydric alcohols of Solubility Group II are liquids of relatively high boiling point and may be detected inter alia by the reactions already described for Alcohols (see 6). Compounds containing two hydroxyl groups attached to adjacent carbon atoms (1 2-glyeols), a-hydroxy aldehydes and ketones, and 1 2-diketones may be identified by the periodic acid test, given in reaction 9. [Pg.1069]

Another reaction that is characteristic of a-hydroxy aldehydes or ketones, which has been found of value for the characterisation of sugars, is the formation of osazones with phenylhydrazine. This reagent reacts with either an aldose... [Pg.1069]

Enantiomerically pure tetroses, pentoses, and hexoses have been synthesized by the following reaction sequence (A.W.M. Lee, 1982 S.Y. Ko, 1983), which is useful as a repetitive two-carbon hotnologi-.ation in total syntheses of higher monosaccharides and other polyhydroxy compounds (1) Wittig reaction of a protected hydroxy aldehyde with (triphenylphosphor-... [Pg.264]

A reaction of great synthetic val ue for carbon-carbon bond for mation Nucleophilic addition of an enolate ion to a carbonyl group followed by dehydration of the 3 hydroxy aldehyde yields an a p unsaturated aldehyde... [Pg.783]

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) ... [Pg.491]

Although alcohol dehydrogenases (ADH) also catalyze the oxidation of aldehydes to the corresponding acids, the rate of this reaction is significantly lower. The systems that combine ADH and aldehyde dehydrogenases (EC 1.2.1.5) (AldDH) are much more efficient. For example, HLAD catalyzes the enantioselective oxidation of a number of racemic 1,2-diols to L-a-hydroxy aldehydes which are further converted to L-a-hydroxy acids by AldDH (166). [Pg.347]

Aldol reaction is the condensation of an aldehyde to produce longer-chain hydroxy aldehydes... [Pg.255]

Because the pK s of the aldehyde and water are similar, the solution contains significant quantities of both the aldehyde and its enolate. Moreover, their reactivities are complementary. The aldehyde is capable of undergoing nucleophilic addition to its carbonyl group, and the enolate is a nucleophile capable of adding to a carbonyl group. And as shown in Figure 18.4, this is exactly what happens. The product of this step is an alkoxide, which abstracts a proton from the solvent (usually water or ethanol) to yield a (3-hydroxy aldehyde. A compound of this type is known as an aldol because it contains both an aldehyde function and a hydroxyl group (aid + ol = aldol). The reaction is called aldol addition. [Pg.769]

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. [Pg.4]

The fourth and last fundamental reaction of carbonyl groups, carbonyl condensation, lakes place when two carbonyl compounds react with each other. When acetaldehyde is treated with base, for instance, two molecules combine to yield the hydroxy aldehyde product known as aldol aidehyde + alcoho/) ... [Pg.693]

A carbonyl condensation reaction between two molecules of acetaldehyde yields a hydroxy aldehyde product. [Pg.693]

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. [Pg.879]

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. [Pg.882]

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. [Pg.884]

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. [Pg.904]

Dithioacetal monoxide anions react with carbonyl compounds in a similar way affording the corresponding a-hydroxy aldehyde dithioacetal oxides 428. Ogura and Tsuchihashi, who performed this reaction for the first time using the anion of methyl methylthiomethyl sulphoxide 324, obtained in this way a series of a-hydroxyaldehydes 429504 (equation 257). [Pg.330]

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. ... [Pg.1220]

When the reaction is run with potassium fert-butoxide in THF at -5°C, one obtains (after hydrolysis) the normal Knoevenagel product (32), except that the isocyano group has been hydrated (16-65). With the same base but with DME as solvent the product is the nitrile (33). When the ketone is treated with 31 and thallium(I) ethoxide in a 4 1 mixture of absolute ethanol and DME at room temperature, the product is a 4-ethoxy-2-oxazoline (34). Since 33 can be hydrolyzed to a carboxylic acid and 34 to an a-hydroxy aldehyde, this versatile reaction provides a means for achieving the conversion of RCOR to RCHR COOH, RCHR CN, or RCR (OH)CHO. The conversions to RCHR COOH and to RCHR CN have also been carried out with certain aldehydes (R = H). [Pg.1227]

Lithiated allylic carbamates (35) (prepared as shown) react with aldehydes or ketones (R C0R ), in a reaction accompanied by an allylic rearrangement, to give (after hydrolysis) y-hydroxy aldehydes or ketones. The reaction is called the homoaldol reaction, since the product is a homolog of the product... [Pg.1227]

If the reaction is carried out with ketone labeled in the C=0 group with the first pathway predicts that the product will contain all the " C in the C=0 carbon, while in the second pathway the label will be in the a carbon (demonstrating migration of oxygen). The results of such experiments have shown that in some cases only the C=0 carbon was labeled, in other cases only the a carbon, while in still others both carbons bore the label, indicating that in these cases both pathways were in operation. With a-hydroxy aldehydes and ketones, the process may stop after only one migration (this is called the a-ketol rearrangement). [Pg.1401]

The DKR of functionalized alcohols such as diols, hydroxy esters, hydroxy aldehydes, azido alcohols and hydroxy nitriles was also taken up as the synthetic uhlity of the products is very high besides such a study will bring out the effect of multifunctional substrates under these reaction conditions to broaden the scope of DKR. Initially, the DKR of diols was achieved with diruthenium catalyst 1... [Pg.65]

It can be assumed that, in the presence of InCl3 and water, the cyclic enol ethers 2-618 form a hydroxy aldehyde which reacts with the aniline to give an aromatic im-inium ion. This represents an electron-poor 1,3-butadiene which can undergo a hetero-Diels-Alder reaction [323] with another molecule of 2-618 to give a mixture of the diastereomeric tetrahydroquinolines 2-619 and 2-620. [Pg.144]

See other pages where Hydroxy aldehyde reactions is mentioned: [Pg.447]    [Pg.769]    [Pg.96]    [Pg.651]    [Pg.69]    [Pg.202]    [Pg.319]    [Pg.326]    [Pg.534]    [Pg.304]    [Pg.41]    [Pg.60]    [Pg.233]    [Pg.74]    [Pg.154]    [Pg.447]    [Pg.327]   
See also in sourсe #XX -- [ Pg.917 , Pg.918 , Pg.919 , Pg.920 , Pg.921 , Pg.922 , Pg.923 , Pg.924 , Pg.925 , Pg.926 , Pg.927 ]



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