Addition Diene syntheses, Michael

Addition, Diene syntheses, Michael addition -, dipolar s. Cycloaddition, dipolar... 

Sequential diene synthesis-Michael addition-1,3-dipolar cycloaddition... 

Michael addition with j -acoxyketones, and 2-acoxynitro compounds, diene synthesis with 2-acoxynitro compounds s. 17, 814 a, -Ethyleneketones from aldehydes GHO GH G GOR... 

Addition of HCN to unsaturated compounds is often the easiest and most economical method of making organonitnles. An early synthesis of acrylonitrile involved the addition of HCN to acetylene. The addition of HCN to aldehydes and ketones is readily accompHshed with simple base catalysis, as is the addition of HCN to activated olefins (Michael addition). However, the addition of HCN to unactivated olefins and the regioselective addition to dienes is best accompHshed with a transition-metal catalyst, as illustrated by DuPont s adiponitrile process (6—9). 

By far most of the reports on addition reactions of hetero-nucleophiles to activated dienes deal with sulfur-nucleophiles17,48,80,120-137, in particular in the synthesis of 7/3-sulfur-substituted steroids which, like their carbon-substituted counterparts (Section n.A), are of interest because of their ability to inhibit the biosynthesis of estrogens80,129-137. Early investigations17,120-122 concentrated on simple acyclic Michael acceptors like methyl sorbate and 2,4-pentadienenitrile. Bravo and coworkers120 observed the formation of a 3 1 mixture of the 1,6- and 1,4-adduct in the reaction of methyl sorbate with methanethiol in basic medium (equation 39). In contrast to this, 2,4-pentadienenitrile adds various thiols regioselectively at C-5, i.e. in a 1,6-fashion (equation 40)17,121,122, and the same is true for reactions of this substrate with hydrogen sulfide (equation 41), sodium bisulfite and ethyl thioglycolate17. 

Michael additions of organocopper reagents to acceptor-substituted dienes have found widespread application in target-oriented stereoselective synthesis [12]. For... 

Complexes of unsymmetrically substituted conjugated dienes are chiral. Racemic planar chiral complexes are separated into their enantiomers 84 and 85 by chiral HPLC on commercially available /f-cyclodextrin columns and used for enantioseletive synthesis [25]. Kinetic resolution was observed during the reaction of the meso-type complex 86 with the optically pure allylboronate 87 [26], The (2R) isomer reacted much faster with 87 to give the diastereomer 88 with 98% ee. The complex 88 was converted to 89 by the reaction of meldrum acid. Stereoselective Michael addition of vinylmagnesium bromide to 89 from the opposite side of the coordinated Fe afforded 90, which was converted to 91 by acetylation of the 8-OH group and displacement with EtjAl. Finally, asymmetric synthesis of the partial structure 92 of ikarugamycin was achieved [27],... 

The cyclic peroxide system was constructed by photo-addition of 02 to the diene 25 in a total synthesis of plakortic acid derivatives isolated from a marine sponge <02OL485> and the key step in a synthesis of related marine products is an intramolecular Michael addition of a peroxy hemiacetal <02BMCL69>. 

The 1,5-diketone formation by the Michael addition of allylsilane (48) to a, -unsaturated ketones was applied to the synthesis of (+)-nootkatone. Reaction of the keto group of keto aldehyde (58) with allyl Orignard reagent and dehydration gave the diene aldehyde (59). The selective oxidation of the terminal double bond afforded the 1,5-dica nyl compound (60), which is not stable and converted directly to pyridines and phenols (Scheme 18). ... 

Diels-Alder reactions of enantiomerically enriched 2H-azirine 3-phosphon-ates (281), a new class of chiral iminodienophiles, and dienes stereoselectively furnish optically pure, bicyclic aziridine adducts (282). Hydrogenation of (282) results in a ring opening that affords the first examples of optically pure quaternary piperidine phosphonates. Two step synthesis of an enantiomeric pure cyclic phosphite (283) and its application as a chiral phosphorus nucleophile in the asymmetric Michael addition to nitroalkenes (284) provides an efficient... 

The isoquinuclidine ring system is readily accessible through various synthetic routes. The most widely used approach to the construction of the ISQ ring system is through Diels-Alder or 4+2 cycloaddition reactions. Dihydropyridines (DHPs) or 1,3-cyclohexadienes are most commonly employed as diene components and various dienophiles have been employed based on the substitution pattern of the final desired product. Intramolecular cyclizations, tandem-Michael addition/aldolizations or cyclization via tricyclic aziridines or perhydro / -aminobenzoic acid derivatives have also been reported. Several synthetic routes employing asymmetric or chiral synthetic approaches have also been reported. Most recently, solution-phase parallel synthesis of ISQ derivatives using several of these approaches has been reported [49,50,51]. 

Allylic and dienyl sulfones have been prepared by conjugate addition to 1,3-dienes ". Phenylsulfonyhnercuration of conjugated dienes gives mercury adducts which can be treated with base to afford phenylsulfonyldienes. 2-(Phenylsulfonyl)-l,3-dienes can be stereo- and regioselectively functionalized via Michael addition of nucleophiles to give allylic sulfones. A key intermediate in the synthesis of a Monarch butterfly pheromone 4 was prepared by BackvaU and Juntunen by alkylation and subsequent palladium-catalyzed substitution of the allylic sulfone formed by Michael addition of dimethyl malonate to 2-(phenylsulfonyl)-l,3-butadiene (equation 10). 

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