Intramolecular Michael addition in

Michael additions of organotitanium or zirconium reagents remain to be explored systematically. Recently, Stork described an interesting stereoselective intramolecular Michael addition in which zirconium enolates appear to be involved113). In another Michael type process, methyltitanium triisopropoxide 6 was added enantioselectively to a chiral a, p-unsaturated sulfoxide, but CH3MgCl was more efficient114). 

A total synthesis of the complex plant-derived 1-O-methyllateriflorone heis been reported involving a Claisen - Diels-Alder (DA) cascade and an intramolecular Michael addition in which carboxylate functions as the nucleophile <04JA5493>. 

When a vinylogous aldol reaction occurs, an a,P-unsaturated carbonyl compound is generated, which may react in a subsequent intramolecular Michael addition. In 2005, the group of Erase [20] introduced a domino reaction of several salicylaldehy-des and senecioaldehydes to produce tricyclic hemiacetals 39 (Scheme 8.12). Only one stereoisomer was formed in the presence of sodium carbonate with various salicylaldehydes. y-Deprotonation of senecioaldehyde followed by a vinylogous aldol... 

More recently, Asano and Matsubara found that the Y-hydroxy-ot,P-unsaturated ketones 205 and aldehydes could undergo haniacetalization and further intramolecular Michael addition in the presence of a tertiary amine thiourea, leading to 1,3-dioxolanes 207 with moderate diastereoselectivities and good enantioselectivities (Scheme 2.55) [80]. 

The Pd enolates also undergo intramolecular Michael addition when an enone of suitable size is present in the allyl d-keto ester 744[465]. The main product is the saturated ketone 745, hut the unsaturated ketone 746 and ally-lated product 747 are also obtained as byproducts. The Pd-catalyzed Michael... 

Intramolecular Michael addition of acrylamides (149) in the presence of piperidine gives /3-lactams (65T449). The method requires that R must be a strongly electron withdrawing... 

Reaction of tryptamine with simple ketones has not been widely explored. Acetone in the presence of benzoyl chloride has been reported to yield 2-benzoyl-1,1 -dimethyl-1,2,3,4-tetrahydro-j8-carbo-line. That the keto group is much less reactive than the aldehyde group is indicated by the fact that j8-keto aldehydes, in the form of their acetals or sodium salts, react with tryptamine at the aldehyde function to yield the conjugated enamine 24, which undergoes ring closure via an intramolecular Michael addition. The potentialities of this interesting modification of the Pictet-Spengler reaction have not yet been fuUy explored. 

Intramolecular Michael addition of nitro compounds proceeds in a stereoselective way to give various types of cyclic nitro compounds with high stereoselectivity. The Michael addition of Tacetylcyclohexene to nitrostyrene followed by treatment with MeONa in MeOH gives 4-nitro-3-phenyldecalone with high stereoselectivity fEq. 4.128). 

A sequence of straightforward functional group interconversions leads from 17 back to compound 20 via 18 and 19. In the synthetic direction, a base-induced intramolecular Michael addition reaction could create a new six-membered ring and two stereogenic centers. The transformation of intermediate 20 to 19 would likely be stereoselective substrate structural features inherent in 20 should control the stereochemical course of the intramolecular Michael addition reaction. Retrosynthetic disassembly of 20 by cleavage of the indicated bond provides precursors 21 and 22. In the forward sense, acylation of the nitrogen atom in 22 with the acid chloride 21 could afford amide 20. 

This intramolecular Michael addition, when followed by an aldol condensation provides a useful route to tram-octahydroindenes methylated in the ring fusion positions. 

The diastereoselective intramolecular Michael addition of /(-substituted cyclohexcnoncs results in an attractive route to ra-octahydro-6//-indcn-6-ones. The stereogenic center in the -/-position of the enone dictates the face selectivity, whereas the trans selectivity at Cl, C7a is the result of an 6-exo-trig cyclization. c7.v-Octahydro-5//-inden-5-ones are formed as the sole product regardless of which base is used, e.g., potassium carbonate in ethanol or sodium hydride in THF, under thermodynamically controlled conditions139 14°. An application is found in the synthesis of gibberellic acid141. 

An interesting approach to zr n.v-2,3-disubstituted cyeloalkanones is offered by auxiliary controlled intramolecular Michael additions. The diastereoselectivity depends on the chiral alcohol used193> l94. When the borneol derivative 7 was used as substrate, a single diastereomer of 8 resulted when the reaction was performed at 25 "C under thermodynamic control with a catalytic amount of sodium hydride in benzene. 

The reactions of the lithium enolates of substituted 2-cyclohexenones and 2-cyclopentenones with ( )-l-nitropropene give a mixture of syn- and ami-products3. The lithium enolate of 3,5,5-trimethyl-2-cyclohexenone gives a mixture of the syn- and //-3.5,5-trimethyl-6-(l-methyl-2-nitroethyl)-2-cyclohexcnoncs in modest diastereoselection when the reaction mixture is quenched with acetic acid after. 30 minutes at —78 =C. When the reaction mixture is heated to reflux, tricyclic products are obtained resulting from intramolecular Michael addition of the intermediate nitronate ion to the enone moiety. 

Cory and Renneboog53 have devised an efficient bicycloannulation for the synthesis of tricyclo[3.2.1.02,7]octane-6-one (66) as shown in equation 63. The method involves three steps (1) the enolate undergoes an initial conjugate addition to phenyl vinyl sulfone, (2) the resulting sulfone-stabilized carbanion undergoes an intramolecular Michael addition to the enone, and (3) the resulting enolate displaces phenylsulfinyl moiety from the tricyclooctanone. The amount of HMPA (3 mol equivalents) is critical for effective cyclization of the enolate. 

Another example of a [4S+1C] cycloaddition process is found in the reaction of alkenylcarbene complexes and lithium enolates derived from alkynyl methyl ketones. In Sect. 2.6.4.9 it was described how, in general, lithium enolates react with alkenylcarbene complexes to produce [3C+2S] cycloadducts. However, when the reaction is performed using lithium enolates derived from alkynyl methyl ketones and the temperature is raised to 65 °C, a new formal [4s+lcj cy-clopentenone derivative is formed [79] (Scheme 38). The mechanism proposed for this transformation supposes the formation of the [3C+2S] cycloadducts as depicted in Scheme 32 (see Sect. 2.6.4.9). This intermediate evolves through a retro-aldol-type reaction followed by an intramolecular Michael addition of the allyllithium to the ynone moiety to give the final cyclopentenone derivatives after hydrolysis. The role of the pentacarbonyltungsten fragment seems to be crucial for the outcome of this reaction, as experiments carried out with isolated intermediates in the absence of tungsten complexes do not afford the [4S+1C] cycloadducts (Scheme 38). 

The synthesis was carried out as shown in Scheme 13.24. A diol was formed and selectively tosylated at the secondary hydroxy group (Step A-4). Base then promoted the skeletal rearrangement in Step B-l by a pinacol rearrangement corresponding to 23-11 => 23-III in the retrosynthesis. The key intramolecular Michael addition was accomplished using triethylamine under high-temperature conditions. 

Karachine (505) (253), the first natural protoberberine incorporating an acetone unit, was synthesized from berberine (15) (254). Heating of 15 with siloxydiene 503 in dimethyl sulfoxide afforded karachine (505) in 66% yield through Mannich condensation, intramolecular Michael addition, and then further Mannich condensation via 504 (Scheme 106). 

On the other hand, many reactions are known where in a first intermolecular step a functionality is introduced which than can undergo an intramolecular reaction. A nice example is the reaction of dienone 0-34 with methyl acrylate in the presence of diethylaluminum chloride to give the bridged compound 0-35 (Scheme 0-11). The first step is an intermolecular Michael addition, which is followed by an intramolecular Michael addition. This domino process is the key step of the total synthesis of valeriananoid A, as described by Hagiwara and coworkers [21]. 

Another method that yields quinolizidine derivatives by creation of two ct-bonds from acyclic precursors is based on a domino process involving a sequence of a double N-deprotection and a double intramolecular Michael addition sequence of reactions, as summarized in Scheme 75 <2002TL6505>. 

Iodo-2-alkynoates (e.g., compound 380) react with 6-chloropropylamines (e.g., compound 381) to give quinolizine derivatives in a single synthetic operation (Scheme 88). The process comprises a sequence of an Sn2 reaction that yields secondary amine 382, an intramolecular Michael addition to give the piperidine derivative 383, halogen... 

Further details of this pathway have been given by Gieg [317] to explain the formation of 6-(2-aminophenyl)-2-hydroxy-6-oxohexa-2,4-dienoic acid. In the original pathway (Fig. 17) it is formed by a meta cleavage of 2 -aminobiphenyl-2,3-diol, but the mechanism reported subsequently suggests that it is formed from an unidentified X unstable compound via intramolecular Michael addition forming a six-membered ring (Fig. 18). 

A recent total synthesis of tubulysin U and V makes use of a one-pot, three-component reaction to form 2-acyloxymethylthiazoles <06AG(E)7235>. Treatment of isonitrile 25, Boc-protected Z-homovaline aldehyde 26, and thioacetic acid with boron trifluoride etherate gives a 3 1 mixture of two diastereomers 30. The reaction pathway involves transacylation of the initial adduct 27 to give thioamide 28. This amide is in equilibrium with its mercaptoimine tautomer 29, which undergoes intramolecular Michael addition followed by elimination of dimethylamine to afford thiazole 30. The major diastereomer serves as an intermediate in the synthesis of tubulysin U and V. 

A solvent-free synthesis of flavones has been achieved that simply involves the MW irradiation of o-hydroxydibenzoylmethanes adsorbed on montmorillonite K 10 clay for 1-1.5 min. A rapid and exclusive formation of cyclized flavones occurs in good yields (Scheme 6.41) [140], The intramolecular Michael addition of o-hydroxy-... 

Treatment of the diester 211 (E = CC Et) with lithium IV-benzyltrimethylsilylamide, followed by aqueous acid, yields the cyclopentane derivative 212, the product of an intramolecular Michael addition (equation 104)110. 1-Methylindane is produced in moderate yield by the electrochemical reduction of o-bromo-(3-butenyl)benzene (equation 105)111. 

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