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Chalcone. alkylation

The reaction of 3,5-diphenyl-2-isoxazoline with lithium diisopropylamide produced with 2 equivalents of base a chalcone oxime, while in the presence of 1 equivalent and an alkyl iodide, ring alkylation occurred at the 4-position of the nucleus (Scheme 48) (80LA80, 78TL3129). [Pg.38]

In addition, Pfister and coworkers investigated 3-hydroxyflavone-6-carboxylic acids as histamine induced gastric secretion inhibitors. After condensing 3-acetyl-4-hydroxybenzoic acid (45) with a variety of aldehydes 46 to deliver the chalcones 47, these purified chalcones were then subjected to the standard AFO conditions to afford flavonols 48 in 51-80% yield. Subsequent alkylation of 48 with methyl iodide or isopropyl iodide followed by saponification of the corresponding esters gave the target compounds. [Pg.501]

In 2000, Gennaii et al. discovered a new family of chiral Schiff-base ligands, with the general structure, Af-alkyl-p-(A -salicylideneamino)alkanesulfonamide, depicted in Scheme 2.28. These ligands were successfully implicated in the copper-catalysed conjugate addition of ZnEt2 to cyclic enones (Scheme 2.28) and, less efficiently, to acyclic enones such as benzalacetone (50% ee) or chalcone... [Pg.95]

The biomimetic protocol was invented by Julia and Colonna, and involves the use of polyamino acids (such as poly-(L)-leucine) as the catalysts for peroxide oxidation of chalcones, styryl alkyl ketones and conjugated alkenones. The substrate range is broad, especially when using immobilized catalysts and an organic solvent containing the substrate, urea-hydrogen peroxide and an organic base (Scheme 22)[101]. [Pg.26]

The reactivity of phenylacetic esters with electron-deficient alkenes is generally fairly poor, even under phase-transfer catalytic conditions. The reaction with cinnamic esters is often accompanied by hydrolysis and the yield of the adduct with chalcone is generally <60% [10]. The activity of the methylene group towards alkylation has been enhanced by the initial complexation of the phenyl ring with chromium tricarbonyl (see Section 6.2), but this procedure has not been applied to the Michael reaction. [Pg.274]

Another approach to secondary amines has been reported (J. Am. Chem. Soc. 125 16178, 2003) by Masakafsu Shibasaki of the University of Tokyo. Addition of methoxyamine to a chalcone 7 (alkyl enones work in slightly lower ) gives the amine 8. The amine 8 can be reduced with high stereocontrol to the amino alcohol 9. K-Selectride gives the complementary diastereomer. [Pg.33]

Aldol condensation.3 Benzaldehydes condense with alkyl aryl ketones in the presence of basic alumina to form chalcones in 70-85% yield. Benzaldehydes... [Pg.14]

Lygo and Wainwright recently reported a detailed study of the asymmetric phase-transfer mediated epoxidation of a variety of acyclic a,P-unsaturated ketones of the chalcone type. The third-generation cinchona-derived quats (8c and 7c), related to those discussed earlier in the alkylation section and Scheme 10.4, gave the best inductions (89% ee, 88 to 89, Scheme 10.13 and 86% ee for the pseudoenantiomeric catalyst 7c to give, as product, the enantiomer of 89). [Pg.745]

Since Corey s group first reported 0(9)-allyl-N-(9-anthracenylmethyl) cinchonidi-nium bromide as a new phase-transfer catalyst [13], its application to various asymmetric reactions has been investigated. In particular, this catalyst represents a powerful tool in various conjugated additions using chalcone derivatives (Scheme 3.2). For example, nitromethane [14], acetophenone [15], and silyl eno-lates [16] produce the corresponding adducts in high enantioselectivity. When p-alkyl substrates are used under PTC conditions, asymmetric dimerization triggered by the abstraction of a y-proton proceeds smoothly, with up to 98% ee [17]. [Pg.36]

Cobalt(II) complexes prepared in situ from (AcO Co and two novel chiral spiro nitrogen-containing ligands, 7,7/-bis(2-pyridinecarboxamido)-l,l/-spirobiindane (SIPAD) and 7,7/-bis(2-quinolinecarboxamido)-l,l/-spirobiindane (SIQAD), are efficient cata- lysts for the asymmetric Michael addition of malonates to chalcone derivatives. The alkylation products were obtained in high yields with moderate enantioselectives.169... [Pg.350]

Cyclocondensation of aminoazoles and a,(3-unsaturated carbonyl compounds or Mannich bases is the most common method for the synthesis of dihydroa-zolopyrimidines [99, 155, 156, 157]. Various alkyl- and aryl-substituted dihy-dropyrimidines were prepared in this way. For example, cyclocondensation of 3-amino-1,2,4-triazole 147 with chalcones 148 leads to 5,7-diaryl-4,7-dihydro-l,2,4-triazolo[l,5-a]pyrimidines 149 [158], while reaction with hydrochlorides of Mannich bases 150 leads to heterocycles 151 (Scheme 3.46). [Pg.83]

In the addition of 2-nitropropane to chalcone Toke et al. achieved 90% ee by using the D-glucose-derived chiral crown ether 38 as phase-transfer catalyst (Scheme 4.12) [19]. The related crown ether 39, with a pendant phosphonate group, afforded the chalcone adduct with 83% ee, albeit with only 39% chemical yield (Scheme 4.12) [20]. N-Alkylated or N-arylated derivatives of the crown ether 38 afforded lower ee (max. 60%) in the addition of 2-nitropropane to chalcone [21],... [Pg.55]

When dienones such as 55 are subjected to the epoxidation conditions the electron-poorer C=C double bond is selectively epoxidized. The other C=C bond can be functionalized further, for example, it can be dihydroxylated, as shown in the synthesis of the lactone 56 (Scheme 10.11) [82]. Stannyl epoxides such as 57 (Scheme 10.11, see also Table 10.8, R1 = n-Bu3Sn) can be coupled with several electrophiles [72], reduction of chalcone epoxide 58 and ring opening with alkyl aluminum compounds provides access to, e.g., the diol 59 and to phenylpropionic acids (for example 60). Tertiary epoxy alcohols such as 61 can be obtained with excellent diastereoselectivity by addition of Grignard reagents to epoxy ketones [88, 89]. [Pg.296]

Chiral crystals generated from non-chiral molecules have served as reactants for the performance of so-called absolute asymmetric synthesis. The chiral environments of such crystals exert asymmetric induction in photochemical, thermal and heterogeneous reactions [41]. Early reports on successful absolute asymmetric synthesis include the y-ray-induced isotactic polymerization of frans-frans-l,3-pentadiene in an all-frans perhydropheny-lene crystal by Farina et al. [42] and the gas-solid asymmetric bromination ofpjp -chmethyl chalcone, yielding the chiral dibromo compound, by Penzien and Schmidt [43]. These studies were followed by the 2n + 2n photodimerization reactions of non-chiral dienes, resulting in the formation of chiral cyclobutanes [44-48]. In recent years more than a dozen such syntheses have been reported. They include unimolecular di- r-methane rearrangements and the Nourish Type II photoreactions [49] of an achiral oxo- [50] and athio-amide [51] into optically active /Mactams, photo-isomerization of alkyl-cobalt complexes [52], asymmetric synthesis of two-component molecular crystals composed from achiral molecules [53] and, more recently, the conversion of non-chiral aldehydes into homochiral alcohols [54,55]. [Pg.128]

Dichloroindium hydride (Cl2InH), generated by the reaction of InCl3 with tributyltin hydride, is also successfully used for the reduction of carbonyl compounds and for the debromination of alkyl bromides.366 This reductant has features such as the chemoselective reduction of functionalized benzaldehydes, chelation-controlled reduction of benzoin methyl ether, and 1,4-reduction of chalcone. The stable carbene and tertiary phosphine adducts of indium trihydride, InH3 CN(Mes)CH=CHN(Mes) and InH3 P(c-G6H11)3, reduce ketones to alcohols (Equation (90)).367... [Pg.714]

Johnson first described the cyclopropanation of chalcone using lithiated /V-tosyl 5-alkyl-5-phenylsulfoximines in 1973.18 In one example, an optically active (ee 49%) cyclopropane [(15, 25)-(2-phenylcyclopropyl) phenyl ketone] was prepared from the reaction of chalcone and lithiated (R)-N-tosyl-5-methyl-5-phenylsulfoxi-mine (ee 84%) at room temperature for 12 h. More recently a solid-state version of this reaction was reported.57 Treatment of a mixture of powdered chalcone, (+)-N-tosyl-5-methyl-5-phenylsulfoximine 2b, and KOH in the solid state at 70 °C gave optically active phenylcyclopropyl phenyl ketone 75a in poor yield (19%) and... [Pg.306]

The synthesis of 2,4-diarylchromen-2-ols through the reaction of phenols with an excess of a chalcone in TFA involves sequential Friedel-Crafts alkylation, cyclisation to a 4/7-1-benzo-pyran, an intermolecular hydrogen transfer generates the 4-arylflavylium ion which is hydrated to give the final product (Scheme 12) <07JOC9383>. [Pg.405]


See other pages where Chalcone. alkylation is mentioned: [Pg.93]    [Pg.292]    [Pg.242]    [Pg.232]    [Pg.383]    [Pg.132]    [Pg.133]    [Pg.132]    [Pg.133]    [Pg.1230]    [Pg.314]    [Pg.377]    [Pg.389]    [Pg.377]    [Pg.388]    [Pg.389]    [Pg.103]    [Pg.140]    [Pg.163]    [Pg.195]    [Pg.301]    [Pg.233]    [Pg.6]    [Pg.415]    [Pg.416]    [Pg.93]    [Pg.5]    [Pg.211]    [Pg.228]    [Pg.190]   
See also in sourсe #XX -- [ Pg.195 ]




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Chalcone

Chalcones Friedel-Crafts alkylation

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