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Activations allylic rearrangement

The study by Baechler and coworkers31, cited above, also provided data on the (1,3)-allylic rearrangement in /J-methylallyl phenyl sulfoxide. Using the same approach as was used in reinterpreting the sulfone data, the activation energy is estimated to be 151 kj mol- and AfH°(PhSO) = 45kJmol-1. [Pg.104]

Treatment of (—)-(S)-276 with allyl Grignard reagents gives optically active allylic sulphoxides 288. This reaction, however, involves an allylic rearrangement via transition state 289 as evidenced by Mislow and his collaborators362 (equation 160). [Pg.300]

The advantages of the carbon tetrahalide-organophosphine-alcohol reaction to prepare halides are simplicity of experimental procedure good yields relatively mild, essentially neutral reaction conditions absence of allylic rearrangements. The reaction proceeds with inversion of configuration and is a useful simple device for converting optically active alcohols to chiral halides in high optical purity.12-22... [Pg.104]

The first hydration step was promoted by Bronsted acids containing weakly or noncoordinating anions. In the second step, an intramolecular hydrogen transfer in the secondary alcohol was catalyzed by ruthenium(III) salts with chelating bipyridyl-type ligands. The possible complexation of the latter with the diene did not inhibit its catalytic activity in the allylic rearrangements, under acid-catalyzed hydration conditions. [Pg.551]

Michael addition, or allylic rearrangements) at (or very close to) the active site, resulting in covalent and, hence, catalytically incompetent enzyme-inhibitor adducts. [Pg.207]

Rearrangement of an achiral epoxide to give an optically active allyl alcohol, e.g., 1, induced by enantioselective deprotonation with a homochiral base (see p 436 for the determination of absolute configuration)55. [Pg.401]

The ester Claisen rearrangement that converts optically active allyl alcohol (2 )-2-methyl-1-penten-3-ol into the a-substituted carboxylic acid 4 (for assignment, see p 452)144,145. [Pg.422]

If the allylic system is substituted, several isomeric products can be formed. Assuming a chair-like transition state, the stereochemical outcome of a metallo-Claisen rearrangement is controlled by the geometries of the vinyl and allyl moieties, so that, if the vinyl part 68 is stereochemically pure, three different products, syn/anti-73 or 74, can be formed, depending on the exact nature of the active allylic part 72 (Scheme 6)38. [Pg.615]

Efforts to cause the carbon nucleophile available at C-2 (carbohydrate numbering) of the osulose derivative 66 to displace the methoxy group with allylic rearrangement and with consequent formation of a tricyclic product by use of Pd(0) catalysts [34] were unsuccessful, but the intended reaction proceeds "smoothly when tin(IV) chloride is used together with acetic anhydride in dichloromethane. Clearly, the Lewis acid activates the allylic ether group, and the C-2 nucleophile effects its displacement. Concurrently, acetolysis of the benzylidene ring occurs and the product isolated is the cu-decalin analogue 67 [33],... [Pg.582]

Among the first reported synthetic methods for alkene isosteres, a sigmatropic rearrangement of oxidatively activated allylic selenides to provide Boc-protected allylic amines was used for the synthesis of the D,L-Tyn i[is, CH=CH]Gly isostereJ711 The method resulted in a racemic dipeptide isostere, and only a Gly residue at the C-terminus is possible. It is no longer competitive compared with more recent methods using rearrangement of allylic tri-chloroacetimidates. [Pg.358]

The copper-chromium oxide has two different active sites in a reduced state. The cuprous ions associated with a hydride and two anionic vacancies are the hydrogenation (HYD) sites. The chromium ions in the same environment are the sites where occur the isomerization (I) and the hydrodeoxygenation (HDO) reactions. The use of unsaturated ethers permits to confirm and to precise the nature and the role of the active sites. With the compounds which have the oxygen atom kept away of the catalyst s surface, the HYD activity is very low and the HDO/I ratio too, whereas, in the opposite case, these values increase. With the vinylic ethers, the saturated compound is the main product because the I and the HDO reactions proceed via a concerted mechanism with a common preliminar step and an allylic rearrangement which is impossible with geminate functions. [Pg.287]

Attempted allylic C-H insertion by vinyldiazoacetates results in an even more complicated transformation, a combined C-H activation/Cope rearrangement [27]. These reactions tend to proceed with very high enantioselectivity as illustrated in a short enantioselective synthesis of the antidepressant (+)-sertraline (33) [27a]. Recent studies have shown that this reaction is both highly diastereose-lective and enantioselective [27b],... [Pg.630]

See other pages where Activations allylic rearrangement is mentioned: [Pg.403]    [Pg.120]    [Pg.384]    [Pg.653]    [Pg.102]    [Pg.728]    [Pg.739]    [Pg.538]    [Pg.546]    [Pg.102]    [Pg.728]    [Pg.739]    [Pg.71]    [Pg.321]    [Pg.44]    [Pg.181]    [Pg.304]    [Pg.444]    [Pg.444]    [Pg.166]    [Pg.1036]    [Pg.225]    [Pg.489]    [Pg.143]    [Pg.72]    [Pg.281]    [Pg.452]    [Pg.707]    [Pg.302]    [Pg.874]    [Pg.506]    [Pg.506]    [Pg.74]    [Pg.68]    [Pg.83]   
See also in sourсe #XX -- [ Pg.148 ]



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Allyl rearrangement

Allylic rearrangement

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