Enamines acid-catalyzed

Finally a general approach to synthesize A -pyrrolines must be mentioned. This is tl acid-catalyzed (NH4CI or catalytic amounts of HBr) and thermally (150°C) induced tea rangement of cyclopropyl imines. These educts may be obtained from commercial cyan> acetate, cyclopropyl cyanide, or benzyl cyanide derivatives by the routes outlined below. Tl rearrangement is reminiscent of the rearrangement of 1-silyloxy-l-vinylcyclopropancs (p. 7 83) but since it is acid-catalyzed it occurs at much lower temperatures. A -Pyrrolines constitut reactive enamines and may be used in further addition reactions such as the Robinson anei lation with methyl vinyl ketone (R.V. Stevens, 1967, 1968, 1971). 

Two synthetic bridged nitrogen heterocycles are also prepared on a commercial scale. The pentazocine synthesis consists of a reductive alkylation of a pyridinium ring, a remarkable and puzzling addition to the most hindered position, hydrogenation of an enamine, and acid-catalyzed substitution of a phenol derivative. The synthesis is an application of the reactivity rules discussed in the alkaloid section. The same applies for clidinium bromide. 

Another synthesis of Lyral (51) consists of the reaction of myrcene with acrolein to give the myrac aldehyde [37677-14-8] (52). The aldehyde group, which is sensitive to acid hydration conditions with strong acids, has to be protected by formation of the morpholine enamine. The enamine is then hydrolyzed on workup after the acid-catalyzed hydration to produce Lyral (93—95). 

Cook et al. 45) have studied the structure of the enamines of bicyclic ketones such as norbornanone. Acid-catalyzed condensation of norbornaiie withhexamethylenimineledto a 1 I mixture of the corresponding enamine (87) and its dihydro derivative (88),... 

Other secondary amines such as pyrrolidine, di- -butylamine, tetrahydro-quinoline, n-benzylamine, and piperidine were also found to be capable of effecting this reduction. Interestingly, morpholine does not reduce enamines as readily (47) and its acid-catalyzed reaction with norbornanone was reported (45) to give only the corresponding enamine (93), although trace amounts of the reduction product were detected when cyclohexanone was treated with morpholine under these conditions (47a). The yield of morpholine reduction product was increased by using higher temperatures. 

Muiik and Kim (65) have shown that the acid-catalyzed condensation of desoxybenzoin with morpholine led only to the thermodynamically more stable CIS isomer of the corresponding enamine (128). 

The acid-catalyzed reaction of acetophenone with acyclic secondary amines results in the formation of the expected enamine and a rearrangement product. The latter product arises from the transfer of one of the amino N-alkyl groups to the cnamine s carbon to produce a ketimine (53a). 

The acid-catalyzed reaction of enol ethers 2 (X = OR) and enamines 2 (X = NR2) to form y-lactol derivatives proceeds with great ease even on silica gel chromatography. Vinyl sulfides 2 (X = SR) or vinyl chlorides 2 (X = Cl) are difficult to hydrolyze. 

Snider and coworkers125 have reported the Lewis acid catalyzed [2 + 2]cycloaddition of (phenylsulfonyl)allene 112. The reaction with methylenecyclohexane in dichloro-methane gives a 25% yield of an 8 1 mixture of 210 and 211 (equation 132). An addition reaction of l-(p-tolylsulfonyl)ethylene with enamines gives aminocyanobutanes via the zwitterionic intermediate (212) as shown in equation 133126. 

Iminium ions (2) would be expected to undergo hydrolysis quite readily, since there is a contributing form with a positive charge on the carbon. Indeed, they react with water at room temperature." Acid-catalyzed hydrolysis of enamines (the last step of the Stork reaction, 12-18) involves conversion to iminium ions " ... 

Different rate-determining steps are observed for the acid-catalyzed hydration of vinyl ethers (alkene protonation, ks kp) and hydration of enamines (addition of solvent to an iminium ion intermediate, ks increasing stabilization of a-CH substituted carbocations by 71-electron donation from an adjacent electronegative atom results in a larger decrease in ks for nucleophile addition of solvent than in kp for deprotonation of the carbocation by solvent. 

The Lewis acid catalyzed thermal [2 + 2] cycloaddition between 1-cyano-cyclopentene (68) and l-(N,N-diethylamino)-l-propyne (69) afforded the enamine... 

Momiyama and Yamamoto have recently demonstrated that acid cocatalysts can even influence the outcome of enamine-mediated reactions [63]. In their studies of the acid-catalyzed O- and A-nitroso aldol reaction, they found that the nature of the acid catalyst dictates the regioselectivity of the reaction between preformed enamine species A carboxylic acid catalyst promoted the 0-nitroso aldol reaction whereas a hydrogen bonding catalyst catalyzed the formation of an A-adduct, both in high enantioselectivities(Scheme 10). 

Mechanistically, the Brpnsted acid-catalyzed cascade hydrogenation of quinolines presumably proceeds via the formation of quinolinium ion 56 and subsequent 1,4-hydride addition (step 1) to afford enamine 57. Protonation (step 2) of the latter (57) followed by 1,2-hydride addition (step 3) to the intermediate iminium ion 58 yields tetrahydroquinolines 59 (Scheme 21). In the case of 2-substituted precursors enantioselectivity is induced by an asymmetric hydride transfer (step 3), whereas for 3-substituted ones asymmetric induction is achieved by an enantioselective proton transfer (step 2). 

In 2008, the same group employed chiral dicarboxylic acid (R)-5 (5 mol%, R = 4- Bu-2,6-Me2-CgHj) as the catalyst in the asymmetric addition of aldehyde N,N-dialkylhydrazones 81 to aromatic iV-Boc-imines 11 in the presence of 4 A molecular sieves to provide a-amino hydrazones 176, valuable precursors of a-amino ketones, in good yields with excellent enantioselectivities (35-89%, 84-99% ee) (Scheme 74) [93], Aldehyde hydrazones are known as a class of acyl anion equivalents due to their aza-enamine structure. Their application in the field of asymmetric catalysis has been limited to the use of formaldehyde hydrazones (Scheme 30). Remarkably, the dicarboxylic acid-catalyzed method applied not only to formaldehyde hydrazone 81a (R = H) but also allowed for the use of various aryl-aldehyde hydrazones 81b (R = Ar) under shghtly modified conditions. Prior to this... 

The synthetic process leading to pavine formation can now be illustrated as in Scheme 1. It includes quatemization and selective reduction of the iminium bond to afford a 1,2-dihydroisoquinoline (36), which is the key intermediate in the synthesis of pavine bases. Acid-catalyzed cyclization of this enamine furnishes the pavinane framework 38 via the 1,4-dihydroisoquinolinium ion 37. Langhals... 

The acid-catalyzed cyclization of the chiral enamine (134) produces (R)-a-cyclocitral (135) and hence (R)-trans-a-damascone (136) in 33 % enantiomeric excess 152). 

Both 3-amino- and 3,4-diaminothiophene exhibit enaminic character. On acid-catalyzed deuteration, deuterium enters the thiophene a-positions. However, a detailed potentiometric as well as H NMR study of the protonation of 3,4-diaminothiophene has revealed that both monoprotonation as well as diprotonation occurs on the nitrogen atoms (Scheme 68) (93JOC4696). The pvalues in 50% DMSO - water mixture are 3.96 and 0.98. 

An impressive number of alkaloids has been generated from the synthon (202), which is accessible by an acid catalyzed rearrangement of the appropriately substituted cyclopropyl-imine. The endocyclic enamine (202) should react with electrophiles on the /8-carbon in a process which simultaneously renders the a-carbon electrophilic and therefore susceptible to capture by nucleophilic reagents. The application of this methodology to the synthesis of ipalbidine (191a) and septicine (204) is shown in Scheme 30. Here, the unusual 3-phenylthio-2-pyrroline intermediate (203) serves as a relatively stable equivalent synthon of the unsubstituted 2-pyrroline analogue which is notoriously unstable (77ACR193). 

Furans can be prepared by acid catalyzed cyclization of masked 1,4-diketones. /3-Chloroallyl ketones which are obtained by alkylation of enamines or enolate ions behave as masked 1,4-diketones and afford furans on treatment with acid (67JA4557). 2,4-Dialkyl-furans (40) have been prepared by cyclization of the 3-chloroallyl ketone (39), which may be obtained by acylation of allyl chlorides (73KGS1434). 

Two types of such [2 + 2] cycloadditions are known. In the first, Lewis acid catalyzes the cycloaddition in the second type, one of the reactants is enamine-like. 

AP817 86AJC893). Acid-catalyzed epimerization of 9-methylhexahy-dropyrido[2,l-h][l,3]-benzoxazin-ll-ones (13) and (15) occurred via the enamine form of the chain tautomer 14 to give an 1 94 equilibrium mixture of 13 and 15 (89TL7321). 

Secondary amino compounds of the type R2N—H add to aldehyde and ketone carbonyl groups in an acid-catalyzed reaction in much the same way as do RNH2 compounds—with one important difference. The product contains the structural unit C=C—N rather than C—C—N and because there is a carbon-carbon double bond, such a substance is called an enamine (alkene + amine). An example is ... 

Exercise 17-32 The immonium ion formed on C-alkylation of an enamine is easily hydrolyzed to a ketone. Write the steps involved and show how this reaction differs from the acid-catalyzed formation of enamines discussed in Section 16-4C. 

Stork and Guthikonda (15) have shown that the cyclization of iminium ion 46 (produced in situ) gave ( )-B-yohimbine (47) and Wenkert and co-workers (22) have further observed that the acid-catalyzed cyclization of enamines of type 48 yielded exclusively product 50 via the cyclization of iminium ion 49. In the last two examples, formation of the C —C bond is the result of a trans-addition on the iminium double-bond in agreement with the principle of stereoelectronic control. 

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