Allenylation, intramolecular

Intramolecular reaction of the allenyl carbamate 5 in the presence of a large excess of allylic chloride catalyzed by Pdi(dba)3 or PdCl2(PhCN)2 affords the substituted oxazolidin-2-one 6. Since the reaction is catalyzed by both Pd(II) and Pd(0), its mechanism is not dear[3]. 

The allenyl moiety (2,3-aikadienyl system) in the carbonylation products is a reactive system and further reactions such as intramolecular Diels-Alder and ene reactions are possible by introducing another double bond at suitable positions of the starting 2-alkynyl carbonates. For example, the propargylic carbonate 33 which has l,8(or 1.9)-diene-3-yne system undergoes tandem carbonylation and intramolecular Diels-Alder reaction to afford the polycyclic compound 34 under mild conditions (60 C, 1 atm). The use of dppp as ligand is important. One of the double bonds of the allenyl ester behaves as part of the dieneflSj. 

Very recently, Cook and Danishefsky [24] reported an interesting regioselectivity of intramolecular Diels-Alder reactions reversed by the change in the dienophihc moieties from vinyl to allenyl group (Scheme 19). For R = 2-propenyl group, C is bonded to the methyl substituted carbon Cj of the cyclohexadienone ring. For R = 2,3-butadienyl, C is bonded to Cy... 

Friedel-Crafts reaction remains unexplored, possibly due to the difficulty of the cycloalkyne formation. A mild, versatile, and efficient method for the one-step synthesis of substituted dihydro- and tetrahydroisoquinolines has been developed by the FeCl3-6H20-catalyzed intramolecular allenylation/cyclization reaction of benzylamino-substituted propargylic alcohols, representing the first example of the intramolecular Friedel-Crafts reaction of propargylic alcohols (Scheme 8) [24, 25]. FeCls, InCls, and Yb(OTf)3 also exhibit good catalytic activity for the reaction. 

Kanematsu s group used a combination of an intramolecular [2+2] cycloaddition of an allenyl ether 4-202 followed by a [3+3] sigmatropic rearrangement (Scheme 4.44) [70]. The substrate for the domino reaction can be obtained in situ by treat-... 

Reaction of a-allenyl alcohol 147 with methanesulfonyl chloride and triethylamine in toluene at 190 °C, in a sealed tube, led to the tricyclic dihydropyrrolizin-4-one 149 in 35% yield. This transformation involves a domino mesylation/ intramolecular Diels-Alder cycloaddition via diene 148 (Scheme 29) <2002CC1472>. 

This system was described in one report and has been synthesized by a copper-assisted cycloisomerization of alkynyl imines. The authors proposed the following mechanism at first, 372 could undergo a base-induced propargyl-allenyl isomerization to form 373 next, coordination of copper to the terminal double bond of the allene (intermediate 374) would make it subjected to intramolecular nucleophilic attack to produce a zwitterion 375. The latter would isomerize into the more stable zwitterionic intermediate 376, which would be transformed to the thiazole 377 (Scheme 55) <2001JA2074>. 

The palladium-catalyzed carbonylation of 4-amino-2-alkynyl carbonates 40 or 5-hydroxy-2-alkynyl carbonates 41 afforded a-vinylidene-/i-lactams 42 [60] or a-vinyl-idene-y-lactones 43 [61] in good yields (Scheme 3.25). The initially formed (allenyl-carbonyl)palladium(II) intermediates were trapped by the intramolecular amino- or hydroxy-nucleophiles to give 42 or 43. 

Allenic esters such as 349 [12] or allenyl ketones such as 351 [42] are able to undergo intramolecular [4+2]-cycloadditions with participation of both the inactivated or the activated C=C bond of the allene, respectively. The latter starting material is consumed at room temperature, yielding only one product. However, similar... 

Allenes containing an allyl unit at a suitable position within the molecule can undergo an intramolecular ene reaction. Thus, allenyl sulfones 423, prepared by oxidation of the corresponding sulfoxides, lead to ring closure products 424 on heating [371]. 

In the [4 + 2] cycloadditions discussed so far, the enol ether double bond of alkoxyallenes is exclusively attacked by the heterodienes, resulting in products bearing the alkoxy group at C-6of the heterocycles. This regioselective behavior is expected for [4+2] cycloadditions with inverse electron demand considering the HOMO coefficients of methoxyallene 145 [100]. In contrast, all known intramolecular Diels-Alder reactions of allenyl ether intermediates occur at the terminal C=C bond [101], most probably because of geometric restrictions. 

Tricyclic sulfur heterocycles 341 were prepared utilizing an intramolecular [4 + 2] cycloaddition. Heating of allenyl sulfides 340 to 110 °C leads to Diels-Alder products 341 in reasonable yields (Scheme 8.93) [163], Unfortunately, this method does not allow general access to these heterocycles, since a particular substitution pattern of the substrate is required. No reaction occurred with substrates lacking the thioacetal moiety. 

These reactions are thought to proceed by initial formation of the lithio propargylic alcohol adduct, which undergoes a reversible Brook rearrangement (Eq. 9.14). The resulting propargyllithium species can equilibrate with the allenyl isomer and subsequent reaction with the alkyl iodide electrophile takes place at the allenic site. An intramolecular version of this alkylation reaction leads to cyclic allenylidene products (Eq. 9.15). 

The reaction of 1,2-allenyl sulfones with (-(-ephedrine led to enantiomerically pure 1,3-oxazolidines 216 via the formation of a conjugated enamine and subsequent intramolecular Michael addition [115]. 

The intramolecular dipolar cycloaddition of a nitrone with an unactivated allene was also studied [76], Treatment of 5,6-heptadien-2-one with N-methylhydroxyl-amine in refluxing ethanol yielded allenyl nitrone 78, which cyclized with the terminal allenic C=C bond to give an unsaturated bicyclic isoxazolidine. On the other hand, the site selectivity decreased with an allenic ketone having a trimethylene tether. 

Intramolecular [4+2]-cycloaddition reactions, which involve base-induced isomerization of a propargyl ether to an allenyl ether, have been extensively studied. Treatment of 157 with a base caused an intramolecular Diels-Alder reaction of the intermediate allenyl ether to give tricyclic compounds 158 [131]. An asymmetric synthesis of benzofuran lactone 159 was achieved by an analogous procedure [132],... 

When propargylamine 183 was subjected to a homologative allenylation (Crabbe reaction) at 100 °C, the resulting allene underwent a spontaneous Diels-Alder reaction to give the adduct 184. This intramolecular cycloaddition-oxidation sequence provided a simple route to indole alkaloids such as hippadine and ds-trikentrin B [148]. 

The reactivity of allenyl ketones is also manifested in the Hg(II)-catalyzed ipso substitution that converts 54 to spirodione 55 (Eq. 13.17) [19]. The reaction presumably involves activation of the allene by Hg(II), followed by intramolecular electrophilic attack on the aromatic ring. Hydrolytic cleavage of the metal from the intermediate product of the reaction, followed by rearrangement leads to the observed spirocyclic dione. 

A Pd(II)-catalyzed sequential cyclization-coupling reaction of allenyl N-tosylcar-bamates and acrolein has been developed (Scheme 16.97) [103]. The proposed mechanism involves intramolecular aminopalladation of an allene, followed by insertion of acrolein and carbon-Pd bond protonolysis. 

In situ epoxidation of allenyl alcohols [20], aldehydes [21], acids [22] and sulfonamides [23] followed by intramolecular ring opening of the intermediates was thoroughly investigated by Crandall and co-workers. They showed that products formed either from the allene oxide or the spirodioxide intermediate can be prepared selectively. Allenyl acids 56, for example, react first with DMDO on their more substituted double bond. When the concentration of the oxidant is low (DMDO is formed... 

The corresponding reactions of allenyl alcohols proceed mostly via the spirodioxide intermediate (Scheme 17.21) [20], Whereas a-allenyl alcohol 61 gives the corresponding tetrahydrofuranone 62 in only moderate yield, /l-allenyl alcohols 63 react much cleaner to afford tetrahydropyranones 64 in good yield. In the case of y- and d-allenyl alcohols 65 the spirodioxide intermediate is attacked intramolecularly on the carbon atom closer to the alcohol moiety, so that tetrahydrofurans and tetrahy-dropyrans 66 are formed. 

An intramolecular allenylidene-alkynyl coupling was also observed in the reaction of the mixed alkynyl-allenylidene rhodium(I) complex 73 with carbon monoxide (Scheme 25). In this case, the initially formed thermally unstable allenyl derivative 74 evolved into the metallated cyclobutenone 75 when an excess of CO was present [276]. 

Only a few cyclization processes of this type have been described up to now. Most of them result from inter- or intramolecular attacks of anionic nucleophiles containing at least two reactive heteroatoms. Thus, sodium dimethyldithiocarbamate reacts with the cationic allenylidene complex [RuTp(=C=C=CPh2)(PPh3)2][PF6] (32) to generate the allenyl-metallacycle 33 (Scheme 2.12), as the result of the nucleophilic addition of one of the sulfur atoms at the carbon and subsequent coordination of the second... 

Linkers that enable the preparation of y-lactones by cleavage of hydroxy esters from insoluble supports are discussed in Section 3.5.2. Resin-bound y-lactones have been prepared by Baeyer-Villiger oxidation of cyclobutanones [39], by intramolecular addition of alkyl radicals to oximes [48], by electrophilic addition of resin-bound sele-nenyl cyanide or bromide to 3,y-unsaturated acids (Figure 9.2 [100]), and by palladium-mediated coupling of resin-bound aryl iodides with allenyl carboxylic acids (Entry 10, Table 5.7 [101]). 

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