Allylic Substitution Tsuji-Trost Mizoroki-Heck Reaction

10 Allylic Substitution (Tsuji-Trost)/Mizoroki-Heck Reaction 

The palladium(0)-catalysed nucleophilic substitution of allylic acetates, carbonates or halides, also known as the Tsuji-Trost reaction, is a powerful procedure for the formation of C—C, C—O and C—N bonds. One of the early impressive examples, where this transformation had been combined with a pallada-ene reaction, was developed by Oppolzer and Gaudin [126], Although, in general, the Tsuji-Trost reaction can be combined with other palladium-catalysed transformations, there are only a few examples where it is combined with a Mizoroki-Heck transformation. 

11 Other Palladium(0)-Catalysed Processes Involving a Mizoroki-Heck-T pe Reaction 

12 Palladium(II)-Catalysed Transformations Involving a Mizoroki-Heck-Type Reaction 

The Wacker oxidation [146], amongst other nucleophilic additions to alkenes, is the most important reaction based on a palladium(II) catalysis. It is also used industrially for the synthesis of acetaldehyde from ethene and water. This oxidative process has been combined with a Mizoroki-Heck reaction by Tietze and coworkers [13] for an enantioselective total synthesis of vitamin E (293) [147] using BOXAX ligand 291 [148]. In this way the chromane ring and parts of the side chain of vitamin E (293) can be introduced in one 

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In their enantioselective total synthesis of the alkaloid cephalotaxine (246), Tietze and Schirok [127] used a combination of a Tsuji-Trost and a Mizoroki-Heck reaction (Scheme 8.62). It was necessary to adjust the reactivity of the two palladium-catalysed transformations to allow a controlled process. Reaction of 243a using Pd(PPh3)4 as catalyst led to 244, which furnished 245 in a second palladium-catalysed reaction. In this process, the nucleophilic substitution of the allylic acetate is faster than the oxidative addition of the arylbromide moiety in 243a however, if one uses the iodide 243b, then the yield drops dramatically due to an increased rate of the oxidative addition. 

One distinguishes palladium(0)- and palladium(ll)-catalysed reactions. The most common palladium(O) transformations are the Mizoroki-Heck and the cross-coupling transformations such as the Suzuki-Miyaura, the Stille and the Sonogashira reactions, which allow the arylation or alkenylation of C=C double bonds, boronic acid derivates, stan-nanes and alkynes respectively [2]. Another important palladium(O) transformation is the nucleophilic substitution of usually allylic acetates or carbonates known as the Tsuji-Trost reaction [3]. The most versatile palladium(ll)-catalysed transformation is the Wacker oxidation, which is industrially used for the synthesis of acetaldehyde from ethylene [4]. It should be noted that many of these palladium-catalysed transformations can also be performed in an enantioselective way [5]. 

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