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Aldol direct

Keywords Aldol, Direct, Ketone, Asymmetric catalysis, Enantioselective reaction, Diastereo-selectivity, 1,2-Diol, Aldehyde, Enamine, Lewis acid, Bronsted base, Organocatalysis, Bimetal-... [Pg.135]

Inspecting TM 4.3 and TM 4.4, one observes the 1,3-hydroxycarbonyl pattern, and disconnection of one internal C-C bond in the re/ro-aldol direction comes to... [Pg.72]

With strategic bond guidance, it is easy to find 2-Gp transform disconnections even if neither FG of an effective retron is present. In the case of the bridged aldehyde 160, recognition of the strategic bond shown (in bold face) keys FGI processes in both directions from the bond, which successfully establish the aldol retron leading to molecular disconnection by a sequence of aldol and Michael transforms, to generate a simple chiral precursor.31... [Pg.61]

Trifluoromethyl alkyl ketones also undergo directed aldol condensations under thermodynamic conditions in the presence of piperidine and acetic acid [2, d] Under these reaction conditions, the product suffers a facile dehydration to form the unsaturated trifluoromethyl ketones (equations 2 and 3)... [Pg.615]

Table 4. Directed Aldol Reaction of Lithium Enolate of l-Fluoro-3,3-dimethylbutanone [7]... Table 4. Directed Aldol Reaction of Lithium Enolate of l-Fluoro-3,3-dimethylbutanone [7]...
In recent years, several modifications of the Darzens condensation have been reported. Similar to the aldol reaction, the majority of the work reported has been directed toward diastereo- and enantioselective processes. In fact, when the aldol reaction is highly stereoselective, or when the aldol product can be isolated, useful quantities of the required glycidic ester can be obtained. Recent reports have demonstrated that diastereomeric enolate components can provide stereoselectivity in the reaction examples include the camphor-derived substrate 26, in situ generated a-bromo-A -... [Pg.17]

Comforth has reviewed literature reports and independently studied the special cases of reaction of 1 with salicylaldehyde and with 2-acetoxybenzaldehyde. Coumarins (10) are afforded in the condensation of 1 with salicylaldehyde or its imine, whereas when 2-acetoxybenzaldehyde is used, acetoxy oxazolone 12 is the major product. The initial aldol condensation product between the oxazolone and 2-acetoxybenzaldehyde is the 4-(a-hydroxybenzyl)oxazolone 11, in which base-catalyzed intramolecular transacetylation is envisioned. The product 9 (R = Ac) can either be acetylated on the phenolic hydroxy group, before or after loss of acetic acid, to yield the oxazolone 12, or it can rearrange, by a second intramolecular process catalyzed by base and acid, to the hydrocoumarin, which loses acetic acid to yield 10. When salicylaldehyde is the starting material, aldol intermediate 9 (R = H) can rearrange directly to a hydrocoumarin. Comforth also accessed pure 4-(2 -hydroxyphenylmethylene)-2-phenyloxazol-5(4//)-one (13) through hydrolysis of 12 with 88% sulfuric acid. [Pg.230]

The reaction of hexa-2,4-diyn-l-al (64) with mercaptoacetaldehyde leads to 2-formyl-5-(prop-l-ynyl)thiophene (65). The addition direction is governed by the aldehyde group via intramolecular aldol condensation in the intermediate (77HOU947). [Pg.175]

The dihydropyrones are not produced directly in the initial BINOL-titanium(IV)-cat-alyzed reaction. The major product at this stage is the Mukaiyama aldol product which is subsequently cyclized by treatment with TFA [19fj. The formal cycloaddition product 3d (97% ee) obtained from a-(benzyloxy)acetaldehyde is an important intermediate for compactin and mevinolin. Scheme 4.13 outlines how the structural subunit 13 is available in three steps via this cycloaddition approach [19 fj. [Pg.161]

The mechanism for the hetero-Diels-Alder reaction of benzaldehyde 9 with the very reactive diene, Danishefsky s diene 10, catalyzed by aluminum complexes has been investigated from a theoretical point of view using semi-empirical calculations [27]. The focus in this investigation was to address the question if the reaction proceeds directly to the hetero-Diels-Alder adduct 11, or if 11 is formed via a Mukaiyama aldol intermediate (Scheme 8.4) (see the chapter dealing with hetero-Diels-Alder reactions of carbonyl compounds). [Pg.316]

In general the reaction of an aldehyde with a ketone is synthetically useful. Even if both reactants can form an enol, the a-carbon of the ketone usually adds to the carbonyl group of the aldehyde. The opposite case—the addition of the a-carbon of an aldehyde to the carbonyl group of a ketone—can be achieved by the directed aldol reaction The general procedure is to convert one reactant into a preformed enol derivative or a related species, prior to the intended aldol reaction. For instance, an aldehyde may be converted into an aldimine 7, which can be deprotonated by lithium diisopropylamide (EDA) and then add to the carbonyl group of a ketone ... [Pg.6]

By using the directed aldol reaction, unsymmetrical ketones can be made to react regioselectively. After conversion into an appropriate enol derivative (e.g. trimethylsilyl enol ether 8) the ketone reacts at the desired a-carbon. [Pg.6]

Condensation of an appropriately substituted phenylacetic acid with phthalic anhydride in the presence of sodium acetate leads to aldol-like reaction of the methylene group on the acid with the carbonyl on the anhydride. Dehydration followed by decarboxylation of the intermediate affords the methylenephthal-ides (12). Treatment of the phthalides with base affords directly the indandiones, probably via an intermediate formally derived from the keto-acid anion (13). The first agent of this class to be introduced was phenindandione (14) this was followed by anisindandione (1S) and chlorindandione (16). ... [Pg.147]

The diastereoselectivity is observed in the Henry reaction using optical active niti o compounds or a-heteroatom substituted aldehydes. Lor example, the reaction of O-benzyl-D-lactal-dehyde with methyl 3-niti opropionate in the presence of neubal alumina leads to a mixture of three niti o-aldol products from which D-ribo isomer is isolated by direct crystallization. D-Ribo... [Pg.61]

The reaction conditions needed for aldol dehydration are often only a bit more vigorous (slightly higher temperature, for instance) than the conditions needed for the aldol formation itself. As a result, conjugated enones are usually obtained directly from aldol reactions without isolating the intermediate jS-hydroxy carbonyl compounds. [Pg.882]

The general features of this elegant and efficient synthesis are illustrated, in retrosynthetic format, in Scheme 4. Asteltoxin s structure presents several options for retrosynthetic simplification. Disassembly of asteltoxin in the manner illustrated in Scheme 4 furnishes intermediates 2-4. In the synthetic direction, attack on the aldehyde carbonyl in 2 by anion 3 (or its synthetic equivalent) would be expected to afford a secondary alcohol. After acid-catalyzed skeletal reorganization, the aldehydic function that terminates the doubly unsaturated side chain could then serve as the electrophile for an intermolecular aldol condensation with a-pyrone 4. Subsequent dehydration of the aldol adduct would then afford asteltoxin (1). [Pg.322]


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See also in sourсe #XX -- [ Pg.56 , Pg.673 , Pg.688 , Pg.814 ]




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