Enamines regioselectivity

Palacios, R, Ochoa de Retana, A.M., Pagalday, J., and Sanchez, J.M., Cycloadditions of azidoalkyl-carboxylates to acetylenes and enamines. Regioselective synthesis of substituted triazoles, Org. Prep. Proc. Int., 27, 603, 1995. 

The scheme below shows how the eastern and western parts of a corrin chromo-phore can be combined regioselectively. The western part has a more acidic enamine than the eastern part, whereas the imidic ester of the eastern part is more electrophilic. 

The reaction of 6-amino-5-(l,2-diethoxycarbonylhydrazino)pyrimidines with enamines represents another convenient method for the preparation of pteridines. Fusion of 5-(l,2-diethoxycarbonylhydrazino)-2,4,6-triaminopyrimidine (281) with an excess of mor-pholinocyclohexene leads to 2,4-diaminotetrahydrobenzo[g]pteridine, and with the morpholinoenamine (282) from 17/3-hydroxy-5a-androstan-3-one regioselective condensation to the fused pteridine (283) takes place in almost quantitative yield (equation 101) (71CC83). 6-Amino-5-nitroso- and 6-amino-5-phenylazo-pyrimidines react similarly, imitating the Timmis-type reaction (72CPB1428). 

Extension of this work by reacting 5-nitropyrimidine with 0,0-ketene acetals and with other cyclic and non-cyclic enamines showed that also with these electron-rich dienophiles the addition is regioselective and gives rise to the formation of 2-mono- or 2,3-disubstituted 5-nitropyridines (Scheme 30). Thus, reaction of 5-nitropyrimidine with the cyclic N,S-ketene acetals 4,5-dihydro-1 -methyl-2-methylthiopyrrole and 4,5,6,7-tetrahydro-1 -methyl-2-methylthioazepine gives in low yields 2,3-dihydro-1-methyl-5-nitropyr-olo[2,3-h]pyridine and the 5,6,7,8-tetrahydro-9-methyl-3-nitropyrido [2,3-Z)]azepine, respectively (89T2693) (Scheme 30). 

Another interesting example is provided by the phenylethynylcarbene complex 173 and its reactions with five-, six-, and seven-membered cyclic enamines 174 to form bridgehead-substituted five-, six-, and seven-membered cycloalkane-annelated ethoxycyclopentadienes with high regioselectivity under mild reaction conditions (Scheme 38) [119,120]. In these transformations the phenylethynylcarbene complex 173 acts as a C3 building block in a formal [3+2] cycloaddition. Like in the Michael additions (reaction route F in Scheme 4), the cyclic electron-rich enamines 174 as nucleophiles attack the... 

Phenyl vinyl sulfones reacted with cyclohexanone enamines 332 to afford adducts which, upon hydrolysis, gave 2-(2-phenylsulfonyl)alkylcyclohexanone 333a . However, in the reaction with phenyl styryl sulfone, two products 333b and 334 were obtained by the nucleophilic attack at the and a-carbon atoms . Steric effects, electrostatic interactions between the nitrogen atom of the enamine and the oxygen atoms of the sulfone group, and medium effects contribute to the regioselectivity of the reaction. ... 

The stoichiometric hydroamination of unsymmetrically disubstituted alkynes is highly regioselective, generating the azametaUacycle with the larger alkyne substituent a to the metal center [294, 295]. In others words, the enamine or imine formed results from an anti-Markovnikov addition. Unfortunately, this reaction could not be applied to less stericaUy hindered amines. 

Apart from the role of substituents in determining regioselectivity, several other structural features affect the reactivity of dipolarophiles. Strain increases reactivity norbornene, for example, is consistently more reactive than cyclohexene in 1,3-DCA reactions. Conjugated functional groups usually increase reactivity. This increased reactivity has most often been demonstrated with electron-attracting substituents, but for some 1,3-dipoles, enol ethers, enamines, and other alkenes with donor substituents are also quite reactive. Some reactivity data for a series of alkenes with several 1,3-dipoles are given in Table 10.6 of Part A. Additional discussion of these reactivity trends can be found in Section 10.3.1 of Part A. 

The formation of iminium ions of 20-epipandoline occurred only under Polo-novski-Potier conditions. Thus on treatment of the TV-oxide of 165 with tri-fluoroacetic anhydride followed by an aqueous solution of KCN, the iminium ion 329 was obtained, readily isolated as the corresponding a-amino nitrile 331 (Scheme 17). The reaction was completely regioselective and no traces of the enamine 332 could be obtained. This made the synthesis of spiroketone 333... 

When reacted with electron-rich enamines f ,)-R12N-CH=CH-Me, stable azomethine ylides 214 <1999T9515> undergo regioselective 1,3-dipolar cycloadditions giving rise to tetrahydropyrrolizines 215 as mixtures of cis- and trans-isomers with poor diastereoselectivity, which is an argument in favor of a two-step instead of a concerted mechanism (Scheme 51) <1999T9535>. 

Regioselective condensations of vinylallenones with enamines gave highly substituted arylsilanes 203 after acidic workup [171]. 

The nudeophile is activated by the formation of a titanium(IV)-imido complex 19. The next step is a [2 + 2] cydoaddition with one of the jt-bonds of the allene, depending on the regioselectivity leading to either 20 or 22. Compound 20 then delivers 21 by twofold stepwise proto-demetallation and the latter enamine tau-tomerizes to the imine 24 (Scheme 15.3). Compound 22, on the other hand, should provide allylamines 23, but as we shall see, there are no examples of that mode of reaction known so far. 

The regioselectivity is an issue in substrates 141. With two alkyl substituents on the distal position, tetrahydropyridines 142 are the product. With only one alkyl substituent, the cyclic imine 143 was isolated for these rearrangement products it is unknown whether they stem from the enamine generated from a 5-endo-trig or 5-exo-digcydization (Scheme 15.44) [98]. 

Anodic regioselective acetamidosulfeny-lation of alkenes is similarly achieved by oxidation of diphenyldisulfide in acetonitrile [81]. Cyclic enamines, which are intermediates in the oxidation of cyclic N-methoxycarbonyl amines, react in aqueous acetonitrile that contains chloride ions to a-hydroxy- 8-chloro compounds via intermediate chloronium ions [82]. Enolethers undergo a regioselective azidomethoxyla-tion to yield acetals of a-azido carbonyl compounds upon electrolysis in methanol containing sodium azide [83]. The reaction proceeds possibly via addition of an anodicaUy generated azide radical. 

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). 

In classical Hantzsch procedure, an enaminocarbonyl is formed in sim by condensation of ammonia source onto the 1,3-dicarbonyl substrate. But many groups have used a three-component modified-Hantzsch protocol in which the preformed enamine is introduced as a partner. Thus, utilization of cyclic or acyclic 1,3-dicarbonyl compounds, aldehydes, and acyclic or cyclic enamines has been reported, leading regioselectively to diversely substituted 1,4-DHP derivatives (Scheme 7). The sequence involving such starting materials was performed in numerous efficient systems, and more particularly in the following (1) microwave-assisted reaction in acetic acid [50], DMF [51], or an acetic acid/DMF system [52] (2) sonification in ethylene glycol [53] and (3) use of ionic liquids such as [bmim]BF4 [54]. 

Nitroso-Aldol Reaction In the course of the Yamamoto group s studies on the nitroso-aldol (NA) reachon of enamines substantial rate increases were observed upon addihon of stoichiometric amounts of achiral Br0nsted acid. Furthermore, exclusive regioselective formation of the N- versus 0-adducts could be controlled by the choice of MeOH or AcOH, respechvely, as Br0nsted acids (Scheme 5.60) [113]. Subsequently, enantioselechve versions of both N- and 0-nitroso aldol... 

Similar reactivity and regioselectivity is observed with the parent system, 1,2,4-triazine (eq 2) Reduction of this process to a catalytic Diels-Alder reaction with in situ generation of the pyrrolidine enamine does... 

The reaction of aliphatic and aromatic ketone oximes 97 with a dialkyl carbonate 98 in the presence of K2CO3 at 180-190 °C yields 3-alkyl-4,5-disubstituted-2(3//)-oxazolones 104 in 22-48% yields. Mechanistically, it is proposed that N-alkylation of the initially formed oxime O-carbonate 99 yields 100, which affords the enamine 101 in the presence of base. A [3,3] sigmatropic rearrangement ensues to produce 102, which then cyclizes to 104. In cases where 97 contains two methylene groups in proximity to the C=N bond, one of which is benzylic, the above reaction sequence is regioselective for the benzylic methylene group (Fig. 5.25 Table 5.6, Fig. 5.26). ... 

Similarly, (S4N4.SbCl5) reacted with alkyl methyl ketoximes 84 in aromatic solvents (e.g benzene and toluene) to give 3-alkyl-4-methyl-l,2,5-thiadiazoles 85, albeit in low yields (3-37%). A mechanism for the formation of 85 was proposed and the regioselective formation of 85 ascribed to the stability of an enamine intermediate. Suprisingly, this appears to be only the second example of a synthesis of a 3,4-dialkyl-l,2,5-thiadiazole that has been reported in the literature <99H147>. 

The chiral a-cyano allylamines prepared from ( )-3-phenylpropenal, potassium cyanide and (L)-ephcdrinc [(17 ,2S )-2-methylamino-l-phenylpropanol] hydrochloride as a mixture (1 1) of C-l epimers, were deprotonated using 2 equivalents of LDA in THF to give the dilithio compound37. Alkylation at C-3 afforded regioselectively a mixture of (E)- and (Z)-enamines in variable amounts depending on reaction conditions. Diastereoselectivity varied from moderate to excellent. Addition of HMPA and especially lithium iodide improved the diastereoselectivity. De-aggregation is proposed to be the reason for the effect of these additives. 

In order to get the isomeric 7-methyl-TP, they added the AT derivative slowly to the mixture of acetal and acetic acid. If this forms a monocyclic enamine intermediate, direct cyclization (resulting in the desired TP) could be favored over reaction with a second AT (which would form a binuclear second intermediate without regioselection). 

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