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Chemoselectivity compounds

Chemoselective C-alkylation of the highly acidic and enolic triacetic acid lactone 104 (pAl, = 4.94) and tetronic acid (pA, = 3.76) is possible by use of DBU[68]. No 0-alkylation takes place. The same compound 105 is obtained by the regioslective allylation of copper-protected methyl 3,5-dioxohexano-ate[69]. It is known that base-catalyzed alkylation of nitro compounds affords 0-alkylation products, and the smooth Pd-catalyzed C-allylation of nitroalkanes[38.39], nitroacetate[70], and phenylstilfonylnitromethane[71] is possible. Chemoselective C-allylation of nitroethane (106) or the nitroacetate 107 has been applied to the synthesis of the skeleton of the ergoline alkaloid 108[70]. [Pg.305]

Addition to Carbonyl Compounds. Unlike Grignard and alkykitliium compounds, trialkylboranes are inert to carbonyl compounds. The air-catalyzed addition to formaldehyde is exceptional (373). Alkylborates are more reactive and can transfer alkyl groups to acyl halides. The reaction provides a highly chemoselective method for the synthesis of ketones (374). [Pg.319]

Chemoselective reduction of a,(3-epoxy carbonyl compounds to aldols and their analogs by organoseleniums and its application to natural product synthesis 98YGK736. [Pg.243]

Me- SiCl also affects the stereoselectivity of 1,2-additions to carbonyl compounds [ 133]. Witli the aid of suitable activators, these mildly reactive reagents show selec-tivities unattainable by the conventional reagents, as ilustrated below for Me- SiCl-dependent Chemoselectivity fEq. 10.13) [134]. [Pg.334]

It has been reported that an allylic C-Si bond can be cleaved by tetrabutylammonium fluoride to give an anionic allylic species, which chemoselectively adds to carbonyl compounds (nitriles, esters, and epoxides failed) to form homoallylsilyloxy compounds13. [Pg.937]

Scheme 94 Total synthesis of the natural compound dehydrohomoancepsenolide (473) through sequential application of chemoselective ruthenium-catalyzed RCM and tungsten-catalyzed alkyne homodimerization [191]... Scheme 94 Total synthesis of the natural compound dehydrohomoancepsenolide (473) through sequential application of chemoselective ruthenium-catalyzed RCM and tungsten-catalyzed alkyne homodimerization [191]...
STEREO-, REGIO- AND CHEMOSELECTIVITY OF BROMINATION OF ETHYLENIC COMPOUNDS... [Pg.100]

Apart from information on stereochemistry, bromine bridging does not provide a priori any rule regarding regio- and chemoselectivity. Therefore, we systematically investigated (ref. 3) these two selectivities in the bromination of ethylenic compounds substituted by a variety of more or less branched alkyl groups (Scheme 4). [Pg.106]

The compound NaBH4 in the presence of Me2N=CHCl" Cl" reduces carboxylic acids to primary alcohols chemoselectively in the presence of halide, ester, and nitrile groups Fujisawa, T. Mori, T. Sato, T. Chem. Lett., 1983, 835. [Pg.1594]

This 1,4-dlfunctlonalised compound cannot easily be made from diketone (24) because of the chemoselectivity problem. The o-halo ketone (25) is a better starting material and this could be made by HBr addition to (26). [Pg.310]

Searching for a method of synthesis of enantiopure lamivudine 1, the compound having a monothioacetal stereogenic centre, Rayner et al. investigated a lipase-catalysed hydrolysis of various racemic a-acetoxysulfides 2. They found out that the reaction was both chemoselective (only the acetate group was hydrolysed with no detectable hydrolysis of the other ester moieties) and stereoselective. As a result of the kinetic resolution, enantiomerically enriched unreacted starting compounds were obtained. However, the hydrolysis products 3 were lost due to decomposition." In this way, the product yields could not exceed 50% (Equation 1). The product 2 (R = CH2CH(OEt)2) was finally transformed into lamivudine 1 and its 4-epimer. ... [Pg.160]

Hydrozirconation of various alkenylboranes [118-121] and alkenylzinc halides [34] with 1 provides the corresponding 1,1-bimetalloalkanes, which can be selectively converted to functionalized organic compounds [122-125]. Interestingly, alkenylzinc halides (RCH=CHZnX) show remarkable chemoselectivity, and functional groups such as chloride, cyanide, or ester functionality are tolerated [126]. [Pg.263]


See other pages where Chemoselectivity compounds is mentioned: [Pg.66]    [Pg.320]    [Pg.363]    [Pg.367]    [Pg.393]    [Pg.531]    [Pg.305]    [Pg.173]    [Pg.191]    [Pg.607]    [Pg.657]    [Pg.769]    [Pg.298]    [Pg.28]    [Pg.180]    [Pg.391]    [Pg.234]    [Pg.302]    [Pg.348]    [Pg.99]    [Pg.261]    [Pg.178]    [Pg.176]    [Pg.229]    [Pg.245]    [Pg.1198]    [Pg.1202]    [Pg.1203]    [Pg.1205]    [Pg.1208]    [Pg.37]    [Pg.83]    [Pg.159]    [Pg.442]    [Pg.161]    [Pg.7]    [Pg.406]   
See also in sourсe #XX -- [ Pg.604 , Pg.605 , Pg.606 ]




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Aromatic compounds chemoselective acylation

Boron compounds chemoselectivity

Butanal, 2-ethylreaction with organometallic compounds chemoselectivity

Chemoselective

Chemoselectivity

Chemoselectivity carbonyl compounds

Chemoselectivity optically active compounds

Chemoselectivity organometallic compound

Manganese Organometallics for the Chemoselective Synthesis of Polyfunctional Compounds

Reactions with organometallic compounds chemoselectivity

Titanium, dichlorodimethylreaction with carbonyl compounds chemoselectivity

Titanium, dichlorodiphenylreaction with carbonyl compounds chemoselectivity

Zirconium, alkyltributoxyreaction with carbonyl compounds chemoselectivity

Zirconium, aryltributoxyreaction with carbonyl compounds chemoselectivity

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