Chalcone, 1,4-addition

The use of numerous polymer-supported optically active phase transfer catalysts was further extended by Kelly and Sherrington11351 in a range of phase transfer reactions including a variety of displacement reactions, such as sodium borohydride reductions of prochiral ketones, epoxidation of chalcone, addition of nitromethane to chalcone and the addition of thiophenol to cyclohexanone. Except in the chalcone epoxidation, all the examined resin catalysts proved to be very effective. However, with none of the chiral catalyst system examined was any significant ee achieved. The absence of chiral induction is a matter of debate, in particular over the possible reversibility of a step and the minimal interaction within an ion pair capable of acting as chiral entities in the transition state and/or the possible degradation of catalysts and leaching. 

Reaction of quaternized isoxazolin-5-ones with phenylmagnesium bromide produced a chalcone and dibenzoylethane. Those 5-ones with a 4,4-disubstituent undergo addition of the Grignard reagent to give a 5-ol (Scheme 63) (73BSF3079). 

A 1 1 adduct from diphenylsulfilimine and a benzoylacetylene underwent an intramolecular cyclization reaction to give an isoxazole in good yield (equation 40). Similarly, the 1 1 adduct from iodoazide and chalcone gave 3,5-diphenylisoxazole (equation 41). These two approaches to regiospecific isoxazole synthesis are of little practical significance. Additional examples of the (OCCCN) reaction are given in equations (42) and (43). 

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. 

As will be discussed in the next section, 1,5-pentanediones are obtained by Michael addition of acetophenones to chalcones. The addition and cyclization may be merged in one step (see Section II,C,2,g). When acetophenone was condensed with chalcone (74) in the presence of or of HC104, jS-phenylpropio-... 

Boron trifluoride etherate, is also a good catalyst for this hydride transfer to chalcone. Unlike triphenylmethyl perchlorate, however, chalcone is able to enter Michael additions with the 1,5-diketone followed by eliminations leading to unexpected products, e.g., 3-benzyl-2,4,6-triphenylpyrylium from 2-carbethoxy-l,3,5-tri-phenylpentane-l,5-dione and chalcone the benzyl group originates from chalcone, the elimination product being ethyl benzoylacetate. ... 

More serious limitations and precautions apply to compounds in which not all three R, R, and R" groups are aromatic. Autocondensation of benzylideneacetone (111) yields an unstable chloroferrate which may be 113 or 115, according to whether a Michael addition to 112 or a crotonic condensation to 114 is first involved. Since compound 113 could readily be prepared from 2,6-dimethyl-4-phenylpyrylium and benzaldehyde, the structure of the reaction product should be easily soluble. Another equivocal product is formed from two moles of benzylideneacetone, but a definite structure (116) results from chalcone and benzylideneacetone. ... 

The conjugate addition to acyclic enones is summarized in Table 5. The chiral hetero-cuprate derived from (S)-prolinol or cinchonidine produced products of low enantiomeric excess on treatment with chalcone (entries 3 and 4), while the cuprate from (S)-yV-methylpro-linol gave 64% ee (entry 6). Under more dilute conditions, 88% cc was obtained (entry 5). (2[Pg.909]

The conjugate addition of lithium dimethylcuprate to chalcone in the presence of (2S)-1-(2,2-dimethyl-l-oxopropyl)-2-diphenylphosphinomethylpyrrolidine gave the corresponding S-adduct with 84% ec in 79% yield79. 

A series of chiral phosphinous amides bearing pendant oxazoline rings (50, Ri=H,Tr R2=H,Tr, 51, Ri=H,Tr R2=H,Tr and 54, Ri=H,Tr R2=H,Tr in Scheme 41) have been used as ligands in the copper-catalyzed 1,4-addition of diethylzinc to enones. Two model substrates have been investigated, the cyclic 2-cyclohexenone and the acyclic trans-chalcone. The addition products are obtained quantitatively in up to 67% ee [171]. 

In addition to the bitter acids and essential oils, the flowers of hops offer a rich array of polyphenolic compounds, primarily chalcones and their accompanying flavanones, many of which are prenylated derivatives (Stevens et al., 1997,1999a, b). The most prominent flavonoid in all plants studied was xanthohumol [342] (3 -prenyl-6 -0-methylchalconaringenin chalconaringenin is 2, 4, 6, 4-tetrahydroxychalcone) (see Fig. 4.11 for structures 342-346). Several additional chalcones—variously adorned with 0-methyl and/or C-prenyl functions—were also encountered, along with their respective flavanones. Three new compounds were described in the Stevens et al. 

An anthocyanin occurs in solution as a mixture of different secondary structures, a quinonoidal base, a carbinol pseudobase, and a chalcone pseudobase. ° hi addition, different mechanisms for the stabilization of anthocyanins lead to the formation of tertiary structures such as self-association, inter-, and intra-molecular co-pigmentation. ... 

Chromatographic retention times of 23 doubly substituted chalcones, as determined by 8 HPLC chromatographic methods using heptane as the mobile phase. The methods differ by addition of 0.5 percent of a chemical modifier. 

Scheme 2.15 Cu-catalysed 1,4-addition of ZnEt2 to chalcone with oxazoline-cyclo-penta[h]thiophene ligands.

In the same context, Tomioka et al. have studied the addition of Me2CuLi to chalcone in the presence of another chiral sulfonamide, depicted in Scheme 2.26, which provided the corresponding 1,4-product in a good yield but with a low enantioselectivity (8% ee). In addition, these authors have obtained both moderate yield and enantioselectivity (<28% ee) for the addition of ZnEt2 to 2-cyclohexenone performed in the presence of a chiral bis(sulfonamides) ligand depicted in Scheme 2.26. ... 

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... 

Nickel catalysts can be used instead of copper catalysts to promote the conjugate addition reaction, providing, in some cases, better results than the corresponding copper catalysts. In 2000, Yang et al. discovered a series of (li ,25, 3i )-3-mercaptocamphan-2-ol derivatives, which proved to be efficient ligands in the conjugate addition of ZnEt2 to chalcone upon catalysis with Ni(acac)2 (Scheme 2.29). 

A series of chiral p-hydroxysulfoximine ligands have been synthesised by Bolm et al. and further investigated for the enantioselective conjugate addition of ZnEt2 to various chalcone derivatives. The most eiScient sulfoximine, depicted in Scheme 2.33, has allowed an enantioselectivity of up to 72% ee to be obtained. These authors assumed a nonmonomeric nature of the active species in solution, as suggested by the asymmetric amplification in the catalysis with a sulfoximine of a low optical purity. 

Scheme 2.33 Ni-catalysed 1,4-additions of ZnEt2 to chalcones with P-hydro-xysulfoximine ligand.

Recently, the Texier-Boullet group [26] has prepared nitrocyclohexanols 10-77 by a twofold Michael addition/aldol reaction sequence (Scheme 10.19). Simply mixing chalcone 10-75 with nitromethane in the presence of a mixture of KF and A1203 under microwave irradiation gave 10-79 via the proposed intermediates 10-76, 10-77 and 10-78 as a single diastereomer in 65 % yield. One possible explanation for the stereoselectivity of the transformation is fixation of the reactive species onto the solid KF/A1203, as depicted in 10-79. 

Matsumoto and coworkers have introduced a new strategy for asymmetric induction under high pressure. The Michael addition of nitromethane to chalcone is performed at 10 kbar in the presence of a catalytic amount of chiral alkaloids. The extent of asymmetric induction reaches up to 50% ee with quinidine in toluene.201... 

Chiral monoaza-crown ethers containing glucose units have been applied as phase-transfer catalysts in the Michael addition of 2-nitropropane to a chalcone to give the corresponding adduct in up to 90% ee. (Eq. 4.138).202... 

Heterobimetallic asymmetric complexes contain both Bronsted basic and Lewis acidic functionalities. These complexes have been developed by Shibasaki and coworkers and have proved to be highly efficient catalysts for many types of asymmetric reactions, including catalytic asymmetric nitro-aldol reaction (see Section 3.3) and Michael reaction. They have reported that the multifunctional catalyst (f )-LPB [LaK3tris(f )-binaphthoxide] controls the Michael addition of nitromethane to chalcones with >95% ee (Eq. 4.140).205... 

Annulation reaction of (benzotriazol-l-yl)acetone 531 with chalcones provides an efficient route to 3,5-diarylphenols 538. The reaction is catalyzed by NaOH in ethanol. In the first step, Michael addition of ketone 531 to the C=C bond of a chalcone gives diketone 532. In the second step, condensation between the carbonyl... 

In addition to the flavonoids with ring B attached to the C2 position of ring C, other types of flavonoids, particularly those with ring B attached to C3 (isoflavones), C4 (neoflavonoids), and open C ring (chalcones), have also been commonly found in fruits and vegetables. 

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