Nucleophilic aromatic heterocycles allylation

Palladium(0)-catalyzed allylation of ambident nucleophilic aromatic heterocycles 96AHC(66)73. 

Moreno-Manas, M., Pleixats, R., Palladium (O)-Catalyzed Allylation of Ambident Nucleophilic Aromatic Heterocycles,... 

Palladium(0)-Catalyzed Allylation of Ambident Nucleophilic Aromatic Heterocycles... 

Palladium(0)-catalyzed allylation of nucleophiles (the Tsuji-Trost reaction) is a versatile synthetic method that has gained immense popularity in recent years. Rarely applied to ambident nucleophilic aromatic heterocycles before 1991, the Tsuji-Trost reaction has been extensively used in the chemistry of these compounds since 1991. Two factors have played decisive roles in this increased interest in the Pd(0)-catalyzed allylation of such heterocyclic rings one is that, unlike other alkylation procedures, the Pd(0)-catalyzed allylation can sometimes give the product of thermodynamic control when applied to ambident nucleophiles and the second is that the Tsuji-Trost allylation has become one of the standard methods for synthesizing carbanucleosides, which are important antiviral compounds (93MI1, 93MI2). Of course, the double bond of an allylic system can be modified in different directions, thus adding versatility to the Tsuji-Trost reaction. 

We include in Sections I,A and I,B some general features of the Tsuji-Trost reaction with comments on kinetic versus thermodynamic control in allylations and in alkylations in general. Then we review in Sections II, III, and IV all cases known to the authors of the application of the Tsuji-Trost reaction to ambident nucleophilic aromatic heterocycles. This leaves out of the review the allylation of such heterocyclic ambident nucleophiles as 2-piperidone and the like. By aromatic, we mean any heterocycle for which a tautomeric or mesomeric formula can be written that is aromatic in the normal structural sense of having 4n + 2n- electrons cyclically conjugated. 

Dioxanes have been synthesized from l-O-allyl-l,2-diols by radical addition of per-fluoroalkyl iodides and subsequent nucleophilic cyclization.561 With sodium hydride, elimination occurs from iodides such as 1.3 other bases also give unsatisfactory results, whereas N-bromosuccinimide seems to be the reagent of choice for the cyclization to 1,4-dioxane 14. Similar results arc obtained with dibromodimethylhydantoin.561 Dihydrobenzofurans are synthesized by cyclodehydration utilizing the Vilsmeier reagent (chloromethylene)dimethylam-monium chloride is most practical.562 Nucleophilic aromatic substitution reactions with catechol derivatives also give the six-membered heterocycles.563 564 1.4-Dioxan-2-ones arc pre-... 

Typical nucleophiles known to react with coordinated alkenes are water, alcohols, carboxylic acids, ammonia, amines, enamines, and active methylene compounds 11.12]. The intramolecular version is particularly useful for syntheses of various heterocyclic compounds[l 3,14]. CO and aromatics also react with alkenes. The oxidation reactions of alkenes can be classified further based on these attacking species. Under certain conditions, especially in the presence of bases, the rr-alkene complex 4 is converted into the 7r-allylic complex 5. Various stoichiometric reactions of alkenes via 7r-allylic complex 5 are treated in Section 4. 

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