Ethyl Michael reaction with

When lithium aluminum hydride was applied, besides reduction of the C-4—N-5 double bond, the ester group was converted to a hydroxymethyl group. S By reaction with dry formic acid under reflux conditions, the pyrroloquinazoline-2-carboxylates 63 yielded the 6-formyl-5,6-dihydro derivatives 65. S The formyl group was transformed into a methyl group by diborane. S The NH group of the dihydro derivatives 64 was acylated by ethyl chloroformate. Reaction with ethyl acrylate and acrylonitrile involved a Michael addition.The ethoxycarbonyl moiety in position 2 and on the side chain in position 6 was hydrolyzed to a carboxylic group by the action of potassium hydroxide in aqueous methanol and was reduced to a hydroxymethyl group by lithium aluminum hydride in ether. 

The reaction of a,/ -unsaturated sulfones with chloroform, carried out under base/phase-trans-fer catalyst conditions, depends on the type of substituent on the sulfonyl group. Thus, phenyl vinyl sulfone underwent the Michael reaction with trichloromethyl anion to give 1, while ethyl vinyl sulfone underwent addition of dichlorocarbene to give cyclopropane 2. °... 

Chlorotitanium etiolates (16,332-334). The titanium enolate of the N-propionyl-oxazolidonc 1, prepared with TiCl4 and C2H5N-i-Pr2, undergoes highly diastereosclective Michael reactions with ethyl vinyl ketone, methyl acrylate, and acrylonitrile. 

Other Michael Acceptors, other Michael acceptors such as malei-mides [27], vinyl phosphonates [28], alkylidine malonates [29], ethyl 2-(dithox-yphosphoryl)acrylate [30], a-keto-a,(3-unsaturated esters [31], -Y-keto a, 3-unsaturated esters [32], and a,(3-unsaturated thiol esters [33] were also applicable in the enantioselective Michael reactions with aldehydes (Scheme 5.15). 

Methylamine, CH3NH2, has two N — H bonds, and 1 mole of methylamine undergoes Michael reaction with 2 moles of ethyl acrylate. Draw a structural formula for the product of this double Michael reaction. 

Perform the first Michael reaction with 1 mole of ethyl acrylate. Then treat the product of that reaction with the second mole of ethyl acrylate. 

An alternative method for the synthesis of tran -alkenyl /f-phosphinates involved AIBN initiated radical addition of ethyl phosphinate to alkenes and alkynes. The method was applied to the preparation of GABA analogues. A new route to chiral phospholanes has been presented. Enantiomerically pure P-chiral dicyclohexyl-ammonium 2-(phosphinyl)acrylates (236) have been obtained by an asymmetric Michael reaction with imine, which opens a new general route to the enantioselective synthesis of a-methylene-6-valerolactones (237) (Scheme 97). ... 

The best Michael reactions are those that take place when a particularly stable enolate ion such as that derived from a /i-keto ester or other 1,3-dicarbonyl compound adds to an unhindered a,/3-unsaturated ketone. Tor example, ethyl acetoacetate reacts with 3-buten-2-one in the presence of sodium ethoxide to yield the conjugate addition product. 

Various diastereoselective Michael reactions are based on y-bromo-, y-alkyl-, or y-alkoxy-2(5//)-furanones following the trans-face selectivity shown in Section 1.5.2.3.1.2. Thus the lithium enolates of esters such as ethyl propanoate, ethyl a-methoxyacetate and ethyl a-phenylacetate add to methoxy-2(5/f)-furanone with complete face selectivity269-273 (see Section 1.5.2.4.4.2.). 

OS 52[ [OS 53[ [OS 54[ [OS 55[ [R 4b[ [P 38[ In a two-micro-mixing tee chip reactor, substrates with diketone moieties of known different reactivity, such as 2,4-pentanedione, benzoylacetone and diethyl malonate, were processed, each with the same acceptor ethyl propiolate [8]. Also, a reaction with the less alkynic Michael acceptor methyl vinyl ketone was carried out. 

The Michael reaction of benzylidene acetophenone and benzylidene acetone with ethyl acetoacetate, nitromethane, and acetylacetone was studied by Musaliar and co-workers in the presence of a cetyltrimethy-lammonium bromide-containing aqueous micellar medium.50 The Michael reaction of various nitro alkanes with electrophilic alkenes is performed in NaOH (0.025-0.1 M) in the presence of cetyltrimethylam-monium chloride (CTACI) without any organic solvent (Eq. 10.23).51... 

Et2Zn also participates in the reductive coupling as a formal hydride source. Results for the Ni-catalyzed, Et2Zn-promoted homoallylation of carbonyl compounds with isoprene are summarized in Table 7 [30]. Et2Zn is so reactive that for the reaction with reactive aromatic aldehydes it causes direct ethylation of aldehydes, and the yields of homoallylation are diminished (runs 1 and 2). Unsaturated aldehydes seem to be subject to the Michael addition of Et2Zn. Accordingly, for the reaction with cinnamaldehyde, none of the expected homoallylation product is produced instead, the 1,4-addition product of Et2Zn, 3-phenylpentanal is produced exclusively (run 3). 

The reaction of 5-[2-(iV,./V-dimethylamino)ethyl]-l,2,4-oxadiazole with methyl iodide forms the quaternary ammonium salt 170 (Scheme 22), which undergoes elimination in the presence of base (diisopropylethylamine (DIEA), TEA, l,8-diazabicyclo[4.3.0]undec-7-ene, etc.) to form an intermediate 5-vinyl-l,2,4-oxadiazole 171, which undergoes in situ Michael addition with nucleophiles to furnish the Michael adducts 172. As an example, also shown in Scheme 22, 3-hydroxy-pyrrolidine allows the synthesis of compound 172a in 97% yield. Mesylation followed by deprotonation of the 1,2,4-oxadiazole methylene at C-5 enables Sn2 displacement of the mesylate to give the 5-azabicycloheptyl derivative 173, which is a potent muscarinic agonist <1996JOC3228>. 

Michael reaction of enamines of u-alkyl- -keto esters. The chiral lithioen-amine (1), prepared from (S)-valine /-butyl ester, does not react with methyl vinyl ketone or ethyl acrylate unless these Michael acceptors are activated by ClSi(CH3)3... 

P-keto esters with a,p-unsaturated aldehydes liquidrliquid two-phase conditions [20] but, in contrast, under analogous conditions a-cyanoacetic esters produce aldol adducts with a,p-unsaturated aldehydes [20], Ethyl acetoacetate undergoes a catalysed Michael reaction addition with trans but-2-en-l,4-diones the products are generally insufficiently stable for isolation, but can be converted into furans [21 ]. 

The Baylis-Hillman reaction (Scheme 3) of ethyl vinyl ketone with electron-deficient aromatic aldehydes (e.g. where R = 0-NO2C6H4), in MeCN or EtCN solution, has been found to proceed enantioselectively in presence of catalytic base (32) derived from proline. The Michael adduct formed between the catalyst and the vinyl... 

The Michael reaction involves conjugate addition of a nucleophile onto an a,P-unsaturated carbonyl compound, or similar system. Such reactions take place in nature as well, and some can be potentially dangerous to us. For example, the a,P-unsaturated ester ethyl acrylate is a cancer suspect agent. This electrophile can react with biological nucleophiles and, in so doing, bind irreversibly to the nucleophile, rendering it unable to carry out its normal functions. A particularly important enzyme that can act as a nucleophile is DNA polymerase, which is responsible for the synthesis of strands of DNA, especially as part of a DNA repair mechanism (see Section 14.2.2). The nucleophilic centre is a thiol grouping, and this may react with ethyl acrylate as shown. 

Knoevenagel adduct 239 of oxohomophthalimide 240 with malononitrile 27a in reactions with CH-acids behaves ambiguously (82CPB1215). Reactions of 239 with acetylacetone, ethyl esters of acetoacetic and ben-zoylacetic acids, as well as methyl pyruvate led to the formation of the desired spiropyrans 241. However, benzoylacetone, dibenzoylmethane, cyanacetamide, and oxindole always gave the same 242. Authors explain this feature in terms of a retro-cleavage of adducts of Michael product 239... 

The activated Ba(OH)2 catalyst was successfully used for the Michael reactions of chalcone with active methylene compounds 290), as well as for the Michael reaction of other benzylidene derivatives of acetone, butanone, 3-methylbutanone, 4-methyl-2-pentanone, and 3,3-dimethylbutanone with ethyl acetoacetate and diethyl malonate. The reaction with diethyl malonate gave good yields of the Michael adduct (between 65 and 93%), whereas with ethyl acetoacetate various products were obtained, depending on temperature and amount of catalyst (Scheme 43) 291). Thus, by varying the reaction conditions, it was possible to obtain a single product with practically 100% selectivity, the yields being higher than those obtained with soluble catalysts, such as KOH, NaOH, or piperidine. 

Substituted acetophenones react with ethyl phenylpropiolate under the conditions of the Michael reaction to give pyrones. Formulate a mechanism. 

Ethyl 3(2H)-benzofuranone-2-carboxylate (95, Scheme 24) undergoes Michael addition with but-3-en-2-one in the presence of sodium methoxide. The resultant adduct 96 on boiling with molar aqueous sodium hydroxide yields the tetrahydro-2-dibenzofuranone 97. ° Similar reactions were encountered during the synthesis of griseofulvin. ... 

In contrast, ethyl 3-oxo-4-(triphenylphosphoranylidene)butyrate behaves as a C,0-bis(nucleophile) when reacted with unsaturated 5(4//)-oxazolones 584 with a leaving group at the exocyclic p-carbon. In this case, initial Michael reaction generates 585 that eliminates HX to produce a resonance stabihzed ylide 586. Cyclization of 586 with ring opening leads to the interesting ylide intermediate 587 used for the synthesis of 2//-pyran-2-ones (Scheme 7.185). 

The presence of the propionamide fragment in the stmcture of the anti-inflammatory agent broperamole (125-1) is reminiscent of the heterocycle-based NSAID propionic acids. The activity of this agent may trace back to the acid that would result on hydrolysis of the amide. Tetrazoles are virtually always prepared by reaction of a nitrile with hydrazoic acid or, more commonly, sodium azide in the presence of acid in a reaction very analogous to a 1,3-dipolar cycloaddition. A more recent (and safer) version of the reaction noted later (see losartan, 77-4) uses tributyltin azide. In the case at hand, reaction of the anion of mefa-bromobenzonitrile (125-1) with sodium azide and an acid affords the tetrazole (125-2). Condensation of the anion from that intermediate with ethyl acrylate leads to the product from Michael addition saponiflcation gives the corresponding carboxylic acid (125-3). This is then converted to the acid chloride reaction with piperidine affords broperamole (125-4) [136]. 

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