Palladium-catalyzed direct intramolecular

Palladium-catalyzed directed intramolecular activations of aryl C-H bonds have been reported, as in the phenyla-tion of heterocycle analogs. Palladacycles are proposed intermediates, acting as effective catalysts, and the mechanism is likely to proceed via oxidation of Pd(ll) to Pd(iv) by the iodonium salt, as for the Equation (57), which described the activation of benzylic i/-CH bonds (Equations (121)—(123).109... 

The formation of several 2-aminobenzothiazoles via palladium-catalyzed, direct intramolecular oxidative C-H functionalization was recently demonstrated by Batey at the University of Toronto. The substrates used were A -aryl thioureas which in the presence of an interesting co-catalytic Pd(PPh3)4/Mn02 system under oxygen atmosphere, yielded the desired products. In terms of the mechanism, this transformation proceeded presumably through electrophilic palladation, suggested by the higher reactivity of the more electron-deficient substrates. 

Synthesis by Direct Cross-Coupling Reaction Trauner and co-workers and Bowie and Trauner reported on a concise total synthesis of racemic rhazinilam 122 and rhazinal 123, axially chiral phenylpyrroles having potent antimitotic properties, through an aromatic C—H activation (Scheme 23.24). " To construct the lactam ring of the title compounds, the authors proposed the use of a palladium-catalyzed direct intramolecular cross-coupling reaction. 

Dilactones can be synthesized by a palladium-catalyzed stereospecific intramolecular double cycliza-tion of 3-hydroxy-4-pentenoic acids (Scheme 21). The cis stereochemistry of the reaction is rationalized by assuming that attack of Pd" on the alkene is directed by the allylic OH group, forming the intermediate (12). 

A direct and easy palladium-catalyzed C-H bond oxidative cyclization for the synthesis of polycyclic aromatic hydrocarbons (PAHs) was reported. The intramolecular palladium-catalyzed direct oxidative C-H bond functionalization for the C-O bond formation was demonstrated, which... 

Independently, elegant mechanistic studies by Echavarren provided support for the CMD mechanism in palladium-catalyzed direct arylation of arenes.Thus, an intramolecular competition experiment with substrate 85, revealed that the less nucleophilic, but more C-H acidic fluori-nated arene was preferentially functionalized (Scheme 22). 

Homoallylic alcohol 9 is readily prepared by palladium-catalyzed directed cyanoboration followed by Suzuki-Miyaura cross-coupling (Scheme 5.15) [15]. Palladium-catalyzed allyl transfer from 9 to aryl bromide results in removal of the hydroxymethyl directing group and concomitant formation of 3,4-diaryl-2-butenenitrile albeit the lack of regio- and stereospecificity. The overall transformation proposes a concept of intramolecular reaction with a carbon tether removable through retro-allylation. 

Palladium-catalyzed Direct Arylation of Indoles and Thiophenes. Five-membered ring heterocycles possessing only one heteroatom and no Af-oxide function can also be arylated using palladium(II) complexes, a phosphine ligand, and an inorganic base. In one example, a tandem palladium-catalyzed Heck coupling reaction and direct intramolecular C2 arylation reaction on a )V-(2-chlorobenzyl)-5-bromoindole was reported (eq 30). The procedure, which is catalyzed by palladium acetate, uses tn-tert-butylphosphonium tetrafluoroborate as a ligand and ferf-butyl acrylate as the alkene for the Heck reaction (eq 30). ... 

Sultones are the internal esters of hydroxy sulfonic acids and are the sulfur analogs of lactones. Sultones are demanded scaffolds in medicinal chemistry research. Biological studies on sultones are mainly concerned with their toxicological, skin sensitization, and antiviral activities [20]. Sultones are synthetically useful heterocycles which can react with a variety of compounds to introduce the alkylsulfonic acid function and therefore used as sulfoalkylating agents [21]. There have been several new developments for the synthesis of sultones which have also been applied in the total synthesis of natural products. In recent years, the palladium-catalyzed direct arylation of several aromatics via a C-H bond activation using aryl halides has led to successes. An intramolecular version of this reaction has allowed the synthesis of several biaryls via the formation of five- to seven-membered rings. Thus, the sultones should be synthesized by C-H activation via two pathways (Scheme 4.14). 

The Heck reaction, a palladium-catalyzed vinylic substitution, is conducted with olefins and organohalides or pseudohalides are frequently used as reactants [15, 16], One of the strengths of the method is that it enables the direct monofunctionalization of a vinylic carbon, which is difficult to achieve by other means. Numerous elegant transformations based on Heck chemistry have been developed in natural and non-natural product synthesis. Intermolecular reactions with cyclic and acyclic al-kenes, and intramolecular cyclization procedures, have led to the assembly of a variety of complex and sterically congested molecules. 

Watanabe reports a new method for the direct conversion of o-choroacetaldehyde N,N-disubstituted hydrazones into 1-aminoindole derivatives 93 by palladium-catalyzed intramolecular ring closure of 92 in the presence of P Bu3 or the bisferrocenyl ligand 94 <00AG(E)2501>. When X = Cl, this cyclizative process can be coupled with other Pd-catalyzed processes with nucleophilic reagents (e.g., amines, azoles, aryl boronic acids) so as to furnish indole derivatives with substituents on the carbocyclic ring. 

Chiral quinolinones can be accessed by the palladium-catalyzed coupling between aryl bromides and /3-amino acids, followed by intramolecular acid-catalyzed cyclisation (Equation 136) <1998TA1137>. The reaction of 2-amino-1,3-diene with quinolinone yields the acridine derivative directly (Scheme 75) <1997J(P1)2807>. 

Zhao and Larock have introduced a convenient method for the preparation of substituted dibenzofurans as well as carbazoles and indoles by palladium-catalyzed cross-coupling of alkynes and appropriately substituted aryl iodides. These reactions proceed by carbopalladation of the alkyne, heteroatom-directed migration of palladium from a vinyl to the adjacent aryl position, and ring closure via intramolecular arylation (Scheme 87) <2006JOC5340>. 

An extension of the palladium(0) catalyzed direct arylation reactions was reported by Lautens et al. in 2005. Based on the Catellani reaction [32], a direct intramolecular arylation of indole (C2) followed ort/m-alkylation, via a norbor-nene-mediated tandem aromatic alkylation/Heck reaction (Scheme 17) [33]. An analogous process was later developed for thiophenes and furans, allowing formation of a range of interesting hetero-aryl polycyclic products (Scheme 17) [34]. 

Conditions first described by Fagnou were used to affect the C-H to C-H bond cyclization, which proceeded in 47% yield. Mechanistically the direct coupling reaction is thought to proceed via intramolecular nucleophilic attack of the pyrrole moiety onto the Pd(II) centre. It was postulated that the electron rich DavePhos ligand facilitates both oxidative addition and forms a more reactive cationic Pd(II) species by dissociation of the halide. Following a deprotonation step, reductive elimination of Pd(0) then resulted in formation of the biaryl bond, completing the core framework. Application of this direct palladium-catalyzed biaryl coupling facilitates a very efficient and concise synthesis of rhazinilam as a racemate. 

Much research interest in the synthesis of carbazoles is directed at the preparation of natural products. The total syntheses of murrayafoline A 153 and murrayanine have been reported <04S2499>. The key step included a regioselective cycloaddition between oxazolidinone 150 and acrolein which led to benzoxazol-2-one 151 after DDQ oxidation. Ring opening of the oxazol-2-one ring of 151 followed by methylation provided A-phenylaniline 152. A palladium-catalyzed intramolecular cyclization of the latter then produced the natural product 153. Finally, venerable iron-mediated chemistry has been utilized in the total synthesis of furoclausine A 154 <04SL528> and 6-chlorohyellazole 155 <04SL2705>. 

Biaryl structures are found in a wide range of important compounds, including natural products and organic functional materials [8,80,81]. One of the most common and useful methods for preparing biaryls is the palladium-catalyzed coupling of aryl halides with arylmetals (Scheme 1, mechanism A). On the other hand, aryl halides have been known to couple directly with aromatic compounds as formal nucleophiles under palladium catalysis. While the intramolecular cases are particularly effective, certain functionalized aromatic compounds such as phenols and aromatic carbonyl compounds, as well as... 

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