Michael vinylogous

The Michael reaction is of central importance here. This reaction is a vinylogous aldol addition, and most facts, which have been discussed in section 1.10, also apply here the reaction is catalyzed by acids and by bases, and it may be made regioselective by the choice of appropriate enol derivatives. Stereoselectivity is also observed in reactions with cyclic educts. An important difference to the aldol addition is, that the Michael addition is usually less prone to sterical hindrance. This is evidenced by the two examples given below, in which cyclic 1,3-diketones add to o, -unsaturated carbonyl compounds (K. Hiroi, 1975 H, Smith, 1964). 

Torgov introduced an important variation of the Michael addition allylic alcohols are used as vinylogous a -synthons and 1,3-dioxo compounds as d -reagents (S.N. Ananchenko, 1962, 1963 H. Smith, 1964 C. Rufer) 1967). Mild reaction conditions have been successful in the addition of ],3-dioxo compounds to vinyl ketones. Potassium fluoride can act as weakly basic, non-nudeophilic catalyst in such Michael additions under essentially non-acidic and non-basic conditions (Y. Kitabara, 1964). 

When the enamine is in conjugation with a carbonyl function, as in a-aminomethylene aldehydes (528,529), ketones (530), or esters (531), a Michael addition is found in vinylogous analogy to the reactions of amides. An application to syntheses in the vitamin A series employed a vinyl lithium compound (532). 

Vinylogous amides undergo reduction with lithium aluminum hydride, by Michael addition of hydride and formation of an enolate, which can resist further reduction. Thus -aminoketones are usually produced (309, 563,564). However, the alternative selective reduction of the carbonyl group has also been claimed (555). 

Especially with the ordinary aldol reaction a number of side reactions can be observed, as a result of the high reactivity of starting materials and products. For instance, the a ,/3-unsaturated carbonyl compounds 4 can undergo further aldol reactions by reacting as vinylogous components. In addition compounds 4 are potential substrates for the Michael reaction. 

The Michael addition of nitromethane to vinylogous esters of / -protected amino acids proceeds with good yields and with good diastereoselectivity (Eq. 4.135).195... 

L2909>. An organocatalytic addition of 2-trimethylsilyloxyfuran to aldehydes using 10 mol% of l,3-bis(3-(trifluoromethyl)phenyl)urea provided adducts with modest threo selectivity <06TL8507>. A syn-selective, enantioselective, organocatalytic vinylogous Mukaiyama-Michael addition of 2-trimethylsilyloxyfuran to (E)-3-... 

Chen and co-workers utilized the chiral bifunctional catalysts to directly access vinylogous carbon-carbon bonds via the asymmetric Michael addition of a,a-dicy-ano-olefms to nitro-olefms [102]. The scope of the reaction was explored with a variety of substituted a,a-dicyano-olefins and P-substituted nitro-olefms (Scheme 50). The authors propose the catalysf s tertiary amine functionality depro-tonates the cyano-olefm, activating the nucleophile to add to the -face of the pre-coordinated nitro-olefm. 

The solid-state interaction of enamines (428, 333a) with trans-l,2-diben-zoylethene (87) provides quantitative yields of the pyrrole derivatives 445 or 446 [140]. These remarkable 5-cascades consist of initial vinylogous Michael addition, enol/keto tautomerism, imine/enamine tautomerism, cyclization, and elimination, all within the crystal without melting. A waste-free extraordinary atom economy is achieved that cannot nearly be obtained in solution. The milling times are unusually long here (3 h) but it s certainly worth the effort... 

The base-catalyzed Michael addition of oxazolin-5-ones to alkynic ketones produces 4-(3-oxopropenyl) derivatives (405) (79CB3221). The latter compounds are cleaved on warming with oxalic acid dihydrate in acetic acid to y-diketones (406). The mechanism of this transformation corresponds to a vinylogous Dakin-West reaction (Scheme 90). 

Various peptide Michael acceptors have been described as a new class of inactivators for cysteine proteases. 5-7 The carbonyl group of the scissile peptide bond in the substrate is replaced by a nucleophile trapping moiety such as a vinylogous structure. An amino acid vinyl sulfone, l-(methylsulfonyl)-4-phenylbut-l-en-3-amine [H2NCH(Bzl)CH=CHS02Me] and a dipeptide derivative, Gly-HNCH(Bzl)CH=CHS02Me have both been prepared as inhibitors of cysteine proteases, leucine aminopeptidase and dipeptidyl peptidase I, respectively.1 5 A series of peptide vinyl sulfones has been synthesized as potent inhibitors for different cysteine proteases. 1A8 ... 

Vinylogous ketone 12 reacts with cyanoacetamide (3) in a Michael reaction to give a diastereomeric mixture of chain and ring tautomers 13a and 13b... 

The iron catalysis of vinylogous Michael reactions is not only restricted to dimerizations. The y-donor 46b can be converted with MVK (41a) to give the 1,7-dioxo-constituted product 49 when the catalyst is Fe(III) (Scheme 8.21) [75]. If NaOMe in MeOH is applied as the catalyst, reaction of the dienolate of donor 46b in the a-position with acceptor 41a proceeds via a normal Michael reaction and 1,5-dioxo-constituted product 50 is obtained. 

Scheme 8.21 Base-catalyzed Michael and iron-catalyzed vinylogous Michael reactions.

Scheme 8.22 Synthesis of a naphthobenzofuran derivative by vinylogous Michael reaction.

The first highly regio-, chemo-, diastereo-, and enantio-selective vinylogous Michael addition of oqa-dicyanoalkenes to oq/S-unsaturated aldehydes employs salts of a,a-diarylprolinol (103) (20 mol%) as organocatalysts. The reaction presumably involves the formation of an iminium species from the aldehyde as the first step of the cascade.153... 

Intermolecular Michael addition [4.1] Intermolecular aldol reaction [6.2.1] Intramolecular aldol reaction [6.2.2] Aldol-related reactions (e.g. vinylogous Mukaiyama-type aldol) [6.2.3]... 

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